US20230263706A1 - Apparatus and methods for dispensing oral transmucosal dosage forms - Google Patents
Apparatus and methods for dispensing oral transmucosal dosage forms Download PDFInfo
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- US20230263706A1 US20230263706A1 US18/141,680 US202318141680A US2023263706A1 US 20230263706 A1 US20230263706 A1 US 20230263706A1 US 202318141680 A US202318141680 A US 202318141680A US 2023263706 A1 US2023263706 A1 US 2023263706A1
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61J—CONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
- A61J7/00—Devices for administering medicines orally, e.g. spoons; Pill counting devices; Arrangements for time indication or reminder for taking medicine
- A61J7/0076—Medicament distribution means
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61J—CONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
- A61J7/00—Devices for administering medicines orally, e.g. spoons; Pill counting devices; Arrangements for time indication or reminder for taking medicine
- A61J7/0015—Devices specially adapted for taking medicines
- A61J7/0053—Syringes, pipettes or oral dispensers
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61J—CONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
- A61J7/00—Devices for administering medicines orally, e.g. spoons; Pill counting devices; Arrangements for time indication or reminder for taking medicine
- A61J7/0076—Medicament distribution means
- A61J7/0084—Medicament distribution means for multiple medicaments
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M37/00—Other apparatus for introducing media into the body; Percutany, i.e. introducing medicines into the body by diffusion through the skin
- A61M37/0069—Devices for implanting pellets, e.g. markers or solid medicaments
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M5/00—Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests
- A61M5/178—Syringes
- A61M5/31—Details
- A61M5/315—Pistons; Piston-rods; Guiding, blocking or restricting the movement of the rod or piston; Appliances on the rod for facilitating dosing ; Dosing mechanisms
Definitions
- Apparatus and methods described herein relate generally to drug dispensing devices and delivery mechanisms for administration of small-volume drug dosage forms, and more specifically to drug dispensing devices for a single administration of a single drug-containing tablet (or a single drug dosage), for example, to the oral mucosa.
- dispensing devices for oral transmucosal delivery of medications are limited.
- many known commercially available dispensing devices for dispensing medication, e.g., to a patient's mouth are for repeatable delivery of inhaled medications, rather than medications in the form of a tablet or other drug dosage form intended to be delivered to the oral mucosa for uptake by the mucosa for systemic delivery of the medication contained therein.
- drug dosage forms for oral mucosal drug delivery are typically quite small in size, and thus may be easily dislodged and/or removed from a dispensing device without such tampering being evident to an eventual operator of the dispensing device.
- Known single dose dispensing devices for dispensing a tablet or other dosage form to the oral mucosa once used to dispense the medication therein, can be reconfigured to resemble an unused device.
- the dispensing mechanism can be returned to or close to its original pre-dispensing position, thus producing the visual effect to a would-be operator of the device that the dispensing device is unused.
- Due to the small size of dosage forms for oral mucosal drug delivery if the used dispensing device were inadvertently re-used in an attempt to dispense a dosage form therefrom, the operator and/or subject intended to receive the medication may not be aware that the medication was not actually dispensed in the subsequent attempt.
- known single dose dispensing devices may experience friction during operation of the device, thereby causing the dosage form to rotate with respect to the device and be expelled from the device at a speed different from an intended delivery speed.
- Such inconsistent expulsion speeds for delivery of the dosage form from the device to the subject can result in inconsistent dosing for the subject, as a dosage form that is expelled too quickly from the device can overshoot the subject's oral mucosa and instead be delivered proximate to the subject's throat where the dosage form may be swallowed instead of remaining on the oral mucosa for a sufficient time for uptake of the drug, medication or other active ingredient in the dosage form through the oral mucosa.
- an improved single dose dispensing device configured to deliver a drug dosage form to an oral mucosa of subject.
- a need also exists for a dispensing device that can be permanently deformed upon actuation of the device to deliver the dosage form therefrom.
- a further need exists for a dispensing device that can prevent the dispensing mechanism from be returned to a pre-dispensation position.
- An additional need exists for a dispensing device configured to limit rotation of the dosage form with respect to the delivery device, thereby providing for delivery of the dosage form from the device at or close to a predetermined delivery speed.
- an apparatus includes a housing defining an actuation pathway and a pusher. At least a portion of the pusher is disposed within the actuation pathway such that a distal end portion of the pusher and a distal end portion of the housing define a volume configured to contain a drug-containing tablet.
- the pusher is configured to move relative to the housing in a distal direction from a first position to a second position to expel the drug-containing tablet from the volume.
- the distal end portion of the pusher can be extended from an opening in the housing when the pusher is in its second position.
- the housing is configured to limit movement of the pusher relative to the housing in a proximal direction from the second position of the pusher towards the first position of the pusher after the drug-containing tablet is expelled from the volume.
- FIGS. 1 A- 1 B are schematic illustrations of a dosage delivery device according to an embodiment, in a first configuration and a second configuration, respectively.
- FIGS. 1 C- 1 D are schematic illustrations of a dosage delivery device according to an embodiment, in a first configuration and a second configuration, respectively.
- FIG. 2 is a bottom perspective view of a dosage delivery device according to an embodiment.
- FIG. 2 A is a cross-sectional view of the dosage delivery device of FIG. 2 taken along line 2 A- 2 A
- FIG. 3 is an exploded view of the dosage delivery device of FIG. 2 .
- FIG. 3 A is a side view of a portion of the dosage delivery device of FIG. 2 .
- FIGS. 4 and 5 are perspective views of a portion of the dosage delivery device of FIG. 2 in a first configuration and a second configuration, respectively.
- FIG. 6 is a bottom view of a portion of the dosage delivery device of FIG. 2 .
- FIGS. 7 and 8 are cross-sectional views of a distal end portion of the dosage delivery device of FIG. 2 showing surface geometries of a portion of a housing of the device according to various embodiments.
- an apparatus includes a housing and a pusher.
- an apparatus includes a housing defining an actuation pathway and a pusher. At least a portion of the pusher is disposed within the actuation pathway such that a distal end portion of the pusher and a distal end portion of the housing define a volume configured to contain a drug-containing tablet or dosage form.
- the pusher is configured to move relative to the housing in a distal direction from a first position to a second position to expel the drug-containing tablet from the volume.
- the distal end portion of the pusher can be extended from an opening in the housing when the pusher is in its second position.
- the housing is configured to limit movement of the pusher relative to the housing in a proximal direction from the second position of the pusher towards the first position of the pusher after the drug-containing tablet is expelled from the volume.
- an apparatus in some embodiments, includes a housing and a pusher.
- the housing has a first portion and a second portion and defines an actuation pathway between the first portion and the second portion.
- a distal end portion of the first portion of the housing is configured to deform away from a distal end portion of the second portion of the housing to produce an opening for delivery of a drug-containing tablet from the housing.
- At least a portion of the pusher is disposed within the actuation pathway and is moveable in a distal direction with respect to the housing.
- the housing and the pusher are collectively configured to limit movement of the distal end portion of the first portion of the housing towards the distal end portion of the second portion of the housing after delivery of the drug-containing tablet from the housing.
- proximal and distal refer to direction closer to and away from, respectively, an operator of the drug delivery device.
- the end of the dosage delivery device contacting or inserted into the patient's body e.g. within the mouth
- the end opposite the distal end would be the proximal end of the dosage delivery device.
- the terms “about” and/or “approximately” when used in conjunction with numerical values and/or ranges generally refer to those numerical values and/or ranges near to a recited numerical value and/or range.
- “about 40 [units]” can mean within ⁇ 25% of 40 (e.g., from 30 to 50).
- the terms “about” and “approximately” can mean within ⁇ 10% of the recited value.
- the terms “about” and “approximately” can mean within ⁇ 9%, ⁇ 8%, ⁇ 7%, ⁇ 6%, ⁇ 5%, ⁇ 4%, ⁇ 3%, ⁇ 2%, ⁇ 1%, less than ⁇ 1%, or any other value or range of values therein or therebelow.
- the terms “about” and “approximately” may be used interchangeably.
- the term “substantially” when used in connection with, for example, a geometric relationship, a numerical value, and/or a range is intended to convey that the geometric relationship (or the structures described thereby), the number, and/or the range so defined is nominally the recited geometric relationship, number, and/or range.
- two structures described herein as being “substantially parallel” is intended to convey that, although a parallel geometric relationship is desirable, some non-parallelism can occur in a “substantially parallel” arrangement.
- a structure defining a volume that is “substantially 0.50 milliliters (mL)” is intended to convey that, while the recited volume is desirable, some tolerances can occur when the volume is “substantially” the recited volume (e.g., 0.50 mL).
- tolerances can result from manufacturing tolerances, measurement tolerances, and/or other practical considerations (such as, for example, minute imperfections, age of a structure so defined, a pressure or a force exerted within a system, and/or the like).
- a suitable tolerance can be, for example, of ⁇ 1%, ⁇ 2%, ⁇ 3%, ⁇ 4%, ⁇ 5%, ⁇ 6%, ⁇ 7%, ⁇ 8%, ⁇ 9%, ⁇ 10%, or more of the stated geometric construction, numerical value, and/or range.
- a numerical value modified by the term “substantially” can allow for and/or otherwise encompass a tolerance of the stated numerical value, it is not intended to exclude the exact numerical value stated.
- ranges may be provided for certain quantities, it is to be understood that these ranges can include all subranges therein.
- the range “from 50 to 80” includes all possible ranges therein (e.g., 51-79, 52-78, 53-77, 54-76, 55-75, . . . , 70-79, etc.).
- all values within a given range may be an endpoint for the range encompassed thereby (e.g., the range 50-80 includes the ranges with endpoints such as 55-80, 50-75, etc.).
- the dosage delivery devices can be used, for example, for sublingual administration of a bioadhesive small volume sufentanil-containing drug dosage form.
- dosage forms can be any of the dosage forms shown and described in U.S. Pat. No. 8,753,308, entitled “Methods for Administering Small Volume Oral Transmucosal Dosage Forms Using a Dispensing Device,” and/or U.S. Pat. No. 8,574,189, entitled “Storage and Dispensing Devices for Administration of Oral Transmucosal Dosage Forms,” each of which is incorporated herein by reference in its entirety.
- the delivery devices shown herein can include any of the structure and/or features of any of the delivery devices shown in U.S. Pat. No. 8,574,189, such as, for example, a housing defining an actuation pathway, a delivery member, a safety member (e.g., label) removably coupled to the housing, a deformable bridge member, or the like.
- FIGS. 1 A- 1 B are schematic illustrations of a dosage delivery device 100 according to an embodiment.
- the dosage delivery device 100 is configured to deliver a dosage form 10 , such as a drug-containing tablet, to a subject, as described herein.
- the dosage delivery device 100 can be a hand-held device configured to deliver the dosage form 10 to an oral mucosal membrane of a subject. More particularly, in some embodiments, the dosage delivery device 100 is configured to deliver the dosage form 10 to a sublingual mucosal membrane of the subject.
- the dosage delivery device 100 is configured for a single use.
- the delivery device can be a single dose applicator (“SDA”) that contains a single drug or medication dose (e.g., a single dosage form) therein. More specifically, the delivery device 100 can be configured for only a single actuation to deliver a single dosage form to the subject. In this manner, the delivery device 100 can be characterized as a “one-time use” device, and therefore is disposable.
- SDA single dose applicator
- the dosage delivery device 100 includes a housing 110 and a pusher 140 .
- the housing 110 defines an actuation pathway 112 .
- the pusher 140 is coupled to the housing 110 such that at least a portion of the pusher 140 is disposed within the actuation pathway 112 defined by the housing 110 .
- a distal end portion 114 of the housing 110 and a distal end portion 142 of the pusher 140 collectively define a volume 124 configured to contain or receive therein the dosage form 10 .
- the actuation pathway 112 of the housing 110 can be an elongate channel extended through at least a portion of the housing 110 . As described in more detail herein, the actuation pathway 112 is configured to permit movement of the pusher 140 therein for delivery of the drug dosage form. In some embodiments, the actuation pathway 112 is in communication with an opening 122 at a first end portion of the housing, such as the proximal end portion 116 of the housing. The actuation pathway 112 can extend at least from the opening 122 at the proximal end portion 116 of the housing 110 to the volume 124 containing the dosage form.
- the actuation pathway 112 ends, or is closed at, a second end portion of the housing, such as the distal end portion 114 of the housing.
- the actuation pathway 112 can be extended, or opened, at the second end portion of the housing.
- the actuation pathway 112 can have any suitable dimensions (e.g., height, width, diameter) for receiving the dosage form 10 and pusher 140 therein.
- One or more dimensions of the actuation pathway 112 can be configured to prevent the dosage form from turning, flipping or otherwise becoming improperly oriented within the actuation pathway.
- a distance between opposing surfaces of portions of the housing 110 defining the actuation pathway 112 can be less than a diameter of the dosage form 10 , thereby limiting rotational movement of the dosage form within the actuation pathway 112 (e.g., such that the dosage form is unable to turn or flip over within the actuation pathway).
- the pusher 140 has a first position in which at least a distal end portion 142 of the pusher 140 disposed within the actuation pathway 112 of the housing 110 , as shown in FIG. 1 A , and a second position in which at least the distal end portion 142 of the pusher 140 is not within the actuation pathway 112 of the housing 110 , as shown in FIG. 1 B .
- the distal end portion of the pusher when the pusher 140 is in its second position, the distal end portion of the pusher is external to the actuation pathway 112 and/or the housing 110 , and can be distal to the distal end portion 114 of the housing 110 , as shown in FIG. 1 B .
- Movement of the pusher 140 from its first position to or towards its second position is configured to facilitate expelling the dosage form from the volume 124 .
- the distal end portion 142 of the pusher 140 can have a contour or shape configured to engage (e.g., matingly engage) the dosage form 10 and can move the dosage form in a distal direction with respect to the volume as the pusher is moved to or towards its second position (i.e., in the distal direction with respect to the housing 110 ).
- the proximal end portion 144 of the pusher 140 is disposed external to the housing.
- a portion of the pusher 140 can be disposed in and/or extended through the opening 122 defined by the first portion of the housing such that the proximal end portion 144 of the pusher 140 is external to and/or proximal to the proximal end portion 116 of the housing 110 .
- the proximal end portion 144 of the pusher 140 is external to the proximal end portion 116 of the housing 110 when the pusher 140 is in each of its first position and its second position, as shown in FIGS. 1 A- 1 B .
- the proximal end portion of the pusher is a first distance from the proximal end portion 116 of the housing 110 when the pusher 140 is in its first position and is a second distance, less than the first distance, from the proximal end portion 116 of the housing when the pusher is in its second position.
- the proximal end portion 144 of the pusher 140 is proximally spaced apart from the proximal end portion 116 of the housing 110 when the pusher 140 is in its first position and the proximal end portion 144 of the pusher 140 is proximate to or in contact with the proximal end portion 116 of the housing 110 when the pusher 140 is in its second position.
- a portion, such as the proximal end portion 144 , of the pusher 140 can be in contact with an outer surface of the proximal end portion 116 of the housing 110 when the pusher is in its second position.
- the pusher 140 is movable with respect to the housing 110 . More specifically, the pusher 140 is moveable with respect to the housing 110 from its first position to its second position to expel the dosage form 10 from the volume 124 .
- the dosage delivery device 100 can be actuated by applying a force to the proximal end portion 144 of the pusher 140 to move the pusher 140 from its first position to its second position.
- the force can be applied, for example, in a distal direction (shown by arrow AA in FIGS. 1 A- 1 B ) by a hand or finger of an operator of the device 100 .
- the pusher 140 can contact and expel the dosage form 10 from the volume 124 of the delivery device 100 .
- the pusher 140 is shown and described herein as having a first position and a second position, in some embodiments, the pusher can have three, four, or more positions. For example, in some embodiments, the pusher 140 can have a third position between its first position and its second position.
- the dosage delivery device 100 has a first configuration in which the device 100 contains the dosage form 10 and is ready to be actuated for delivery of the dosage form.
- the pusher 140 is in the first position.
- the dosage delivery device 100 has a second configuration in which the dosage form 10 has been expelled from the device and the pusher is in the second position (or, in some embodiments, an intermediary position between the pusher's first position and second position).
- the device 100 can be configured such that it cannot return to its first configuration after the device is in its second configuration.
- the delivery device 100 is locked in its second configuration. In this manner, the device 100 is configured to prevent a “used” device, from which the dosage form has been expelled, to be returned to a configuration in which the device 100 may appear to an observer to be an “unused” device assumed to contain a dosage form.
- the housing 110 and the pusher 140 can be collectively configured (as described in more detail herein) to inhibit and/or limit movement of the pusher 140 in a proximal direction with respect to the housing 110 .
- the housing 110 and the pusher 140 when the delivery device is in its first configuration and the pusher is in its first position, the housing 110 and the pusher 140 are collectively configured to inhibit movement of the pusher in a proximal direction with respect to the housing.
- the housing 110 and the pusher 140 are collectively configured to inhibit movement of the pusher 140 from its second position to its first position.
- At least one of the housing 110 and the pusher 140 can be configured to inhibit and/or limit movement of the pusher 140 in a proximal direction with respect to the housing 110 after the delivery device 100 is in its second configuration.
- the position of the pusher 140 with respect to the housing 110 and/or the configuration of the delivery device 100 each provides a visual indication to the observer regarding whether the dosage delivery device 100 is used or unused.
- an observer e.g., the operator, subject, etc.
- the observer can determine that the dosage delivery device 100 is used (i.e., the dosage form 10 has been dispensed therefrom) by observing that the pusher 140 is in its second position and/or that the delivery device 100 is in the second configuration.
- the observer can reliably presume that the dosage delivery device 100 is unused when the pusher 140 is in its first position and/or the delivery device 100 is in its first configuration.
- the dosage delivery device 100 can include any suitable locking mechanism to prevent movement of the pusher 140 from its second position to or towards its first position with respect to the housing 110 .
- the pusher 140 includes a retaining member 146 .
- the retaining member 146 can be, for example, a protrusion extended from the pusher 140 .
- the retaining member 146 is biased away from an elongate body portion 148 of the pusher 140 .
- the retaining member 146 can be biased towards a surface of the actuation pathway 112 .
- the housing 110 can define at least one recess (or opening) 118 in communication with and/or defined by the actuation pathway 112 .
- the recess 118 is configured to receive at least a portion of the retaining member 146 when the pusher 140 is in its second position.
- the recess 118 is configured to receive at least a portion of the retaining member 146 when the pusher 140 is between its first position and its second position.
- the retaining member 146 is biased such that, absent an opposing force, the retaining member 146 tends to move away from the body portion 148 of the pusher 140 , towards the wall of the actuation pathway 122 and into the recess 118 .
- the retaining member 146 and recess 118 work together to limit proximal movement of the pusher 140 with respect to the housing 110
- the retaining member 146 and the recess 118 can be configured to not interfere with movement of the pusher 140 in the distal direction with respect to the housing 110 .
- a dosage delivery device can include any suitable number of retaining members, such as two, three, four or more retaining members.
- the housing 110 is illustrated and described herein as including one recess or opening 118 configured to receive at least a portion of the retaining member 146
- a dosage delivery device can include any suitable number of recesses and/or openings configured to receive the retaining member(s) of a pusher, such as two, three, four or more recesses and/or openings.
- the delivery device 100 is configured to deform to produce an opening 120 through which the dosage form 10 is expelled from the volume 124 when the delivery device is moved from its first configuration to its second configuration.
- the housing 110 is configured to deform when the pusher 140 is moved with respect to the housing in the distal direction, as shown in FIG. 1 B .
- the housing 110 can be deformable such that the deformable portion 137 deforms (e.g., bends, curves, or otherwise moves) when the pusher 140 is moved from its first position to its second position.
- the opening 120 is produced in the housing 110 from which the dosage form 10 can be expelled.
- the housing 110 includes a first, or top, portion 130 and a second, or bottom, portion 132 that are coupled together (e.g., during manufacturing) to form the housing 110 and define the actuation pathway 112 therebetween.
- references to portions of the device 100 as being the “top portion” or “bottom portion” or other similar positionally-oriented descriptors are made for the sake of clarity, and are not intended to imply that the device must be in a particular orientation for proper operation.
- the device 100 can be properly operated to deliver a dosage form to a patient when the “top portion” of the housing 110 is oriented towards the patient's upper lip, lower lip, left side, and/or right side, and/or any orientation therebetween.
- first and second portions 130 , 132 are welded or otherwise permanently coupled together. In some embodiments, the first and second portions 130 , 132 are removably coupled, such as with a snap-fit, complementary connectors, or a resistance fit. In some embodiments, the first and second portions 130 , 132 are monolithically or integrally formed.
- a distal end portion 136 of the first portion 130 of the housing includes the deformable portion 137 .
- the distal end portion 136 of the first portion 130 of the housing 110 can be configured to be deformed during actuation of the dosage delivery device 100 .
- the distal end portion 136 of the first portion 130 is proximate to and/or in contact with a distal end portion 134 of the second portion 132 .
- the distal end portion 136 of the first portion 130 of the housing 110 is spaced apart from the distal end portion 134 of the second portion 132 , for example, in response to movement of the pusher 140 in the distal direction (e.g., to or towards its second position).
- the pusher 140 contacts an inner surface geometry (such as a ramp or protrusion; not shown in FIG.
- the material forming the distal end portion 136 is bent when the distal end portion 136 of the first portion is deformed or moved away from the distal end portion 134 of the second portion 132 of the housing 110 .
- the distal end portion 136 of the first portion 130 of the housing 110 is deformed such that the distal end portion of the first portion of the housing is angularly offset from the distal end portion 134 of the second portion 132 of the housing.
- a non-zero angle is formed between the distal end portion 136 of the first portion 130 of the housing 110 and the distal end portion 134 of the second portion 132 of the housing when the distal end portion 136 of the first portion 130 of the housing 110 is deformed.
- the angle can be within the range of 0.1 degrees to 90 degrees, within the range of 1 degree to 45 degrees, within the range of 1 degree to 10 degrees.
- the angle can be about 1 degree, about 2 degrees, about 3 degrees, about 4 degrees, about 5 degrees, about 6 degrees, about 7 degrees, about 8 degrees, about 9 degrees, or about 10 degrees.
- the angle is within a range of about 6 to about 7 degrees (e.g., about 6.6 or 6.7 degrees).
- the distal end portion 136 can be permanently deformed upon actuation of the device 100 to deliver the dosage form 10 (e.g., when pusher 140 is moved to its second position).
- the pusher 140 when the pusher 140 is in its second position, at least a portion of the pusher 140 is disposed within the actuation pathway 112 between the distal end portion 136 of the first portion 130 of the housing 110 and the distal end portion 134 of the second portion 132 of the housing 110 such that the pusher 140 inhibits or otherwise limits movement of the distal end portion 136 of the first portion 130 of the housing 110 towards the distal end portion 134 of the second portion 132 .
- the distal end portion 136 of the top portion 130 of the housing 110 is spaced apart from the distal end portion 134 of the bottom portion 132 of the housing and is inhibited by the pusher 140 from contacting or being moved towards or in closer proximity to the distal end portion 134 of the second portion 132 of the housing 110 . Also in this manner, the distal end portion 136 of the top (or first) portion 130 of the housing is prevented from returning to its original position prior to actuation of the device 100 (e.g., to the position of the distal end portion 136 of the top portion 130 of the housing, when the delivery device 100 is in its first configuration).
- a dosage delivery device 150 includes more than one deformable portion configured to produce an opening through which a dosage form can be expelled from the device.
- the dosage delivery device 150 can be similar, or identical, in many respects to the dosage delivery device 100 , and so only certain differences therebetween are described in detail herein.
- the dosage delivery device 150 is configured to deliver the dosage form 10 to a subject, such as to an oral mucosal membrane of the subject, as described herein.
- the dosage delivery device 150 includes a housing 160 and a pusher 190 .
- the housing 160 includes a first portion 180 and a second portion 182 and defines an actuation pathway 162 therebetween.
- the pusher 190 can be coupled to the housing 160 such that at least a portion of the pusher 190 is disposed within the actuation pathway 162 defined by the housing 160 .
- a distal end portion 164 of the housing 160 and a distal end portion 192 of the pusher 190 collectively define a volume 174 configured to contain or receive therein the dosage form 10 .
- the pusher 190 has a first position in which at least the distal end portion 192 of the pusher 190 is disposed within the actuation pathway 162 of the housing 160 , as shown in FIG. 1 C .
- the delivery device 150 is in a first configuration when the pusher 190 is in the first position.
- the pusher 190 has a second position in which at least the distal end portion 192 of the pusher 190 is not within the actuation pathway 162 of the housing 160 , as shown in FIG. 1 D .
- the delivery device 150 is in a second configuration when the pusher 190 is in the second position.
- the actuation pathway 162 is configured to permit movement of the pusher 190 therein for delivery of the drug dosage form therefrom. More specifically, movement of the pusher 190 from its first position to or towards its second position is configured to facilitate expelling the dosage form from the volume 124 .
- the delivery device 150 is configured to deform to produce an opening 170 through which the dosage form 10 is expelled from the volume 174 when the pusher 190 is moved from the first position to or towards the second position.
- at least a portion of the housing 160 is configured to deform when the pusher 190 is moved with respect to the housing in the distal direction, as shown in FIG. 1 D .
- at least a portion of the housing 160 can be deformable such that at least one portion of the housing deforms (e.g., bends, curves, or otherwise moves) when the pusher 190 is moved from its first position to its second position. In this manner, the opening 170 is produced in the housing 160 from which the dosage form 10 can be expelled.
- a distal end portion 186 of the first portion 180 of the housing 160 includes a first deformable portion 187 and a distal end portion 184 of the second portion 182 of the housing includes a second deformable portion 189 .
- at least one of, or both of, the distal end portion 186 of the first portion 180 of the housing 160 and the distal end portion 184 of the second portion 182 of the housing can be deformed during actuation of the dosage delivery device 150 .
- the distal end portion 186 of the first portion 180 is proximate to and/or in contact with a distal end portion 184 of the second portion 182 .
- the distal end portion 186 of the first portion 180 of the housing 160 is spaced apart from the distal end portion 184 of the second portion 182 , for example, in response to movement of the pusher 190 in the distal direction (e.g., to or towards its second position).
- the pusher 190 contacts an inner surface geometry (such as a ramp or protrusion; not shown in FIG.
- each of the first portion 180 of the housing 160 and the second portion 182 of the housing 160 when the pusher 190 is moved in the distal direction with respect to the housing such that the pusher 190 causes each of the distal end portion 186 of the first portion 180 of the housing and the distal end portion 184 of the second portion 182 of the housing to deform or move away from each other (or, said another way, away from a longitudinal axis L of the actuation pathway 162 ), as shown in FIG. 1 D , thereby producing the opening 170 in the housing 160 .
- the material forming the distal end portions 184 , 186 is bent when each distal end portion 184 , 186 is deformed as described herein.
- the distal end portion 186 of the first portion 180 of the housing 160 is deformed such that the distal end portion of the first portion of the housing is angularly offset from the longitudinal axis L of the actuation pathway.
- a non-zero angle is formed between the distal end portion 186 of the first portion 180 of the housing 160 and the longitudinal axis L of the actuation pathway 162 of the housing when the distal end portion 186 of the first portion 180 of the housing 160 is deformed.
- the angle can be within the range of 0.1 degrees to 90 degrees, within the range of 1 degree to 45 degrees, or within the range of 1 degree to 10 degrees.
- the angle can be about 1 degree, about 2 degrees, about 3 degrees, about 4 degrees, about 5 degrees, about 6 degrees, about 7 degrees, about 8 degrees, about 9 degrees, or about 10 degrees.
- the angle is within a range of about 6 to about 7 degrees (e.g., about 6.6 or 6.7 degrees).
- the distal end portion 184 of the second portion 182 of the housing 160 is deformed such that the distal end portion of the second portion of the housing is angularly offset from the longitudinal axis L of the actuation pathway.
- a non-zero angle is formed between the distal end portion 184 of the second portion 182 of the housing 160 and the longitudinal axis L of the actuation pathway 162 of the housing when the distal end portion 184 of the second portion 182 of the housing 160 is deformed.
- the angle can be within the range of 0.1 degrees to 90 degrees, within the range of 1 degree to 45 degrees, or within the range of 1 degree to 10 degrees.
- the angle can be about 1 degree, about 2 degrees, about 3 degrees, about 4 degrees, about 5 degrees, about 6 degrees, about 7 degrees, about 8 degrees, about 9 degrees, or about 10 degrees.
- the angle is within a range of about 6 to about 7 degrees (e.g., about 6.6 or 6.7 degrees).
- At least one of the distal end portions 184 , 186 can be permanently deformed upon actuation of the device 150 to deliver the dosage form 10 (e.g., when pusher 190 is moved to its second position).
- the pusher 190 when the pusher 190 is in its second position, at least a portion of the pusher 190 is disposed within the actuation pathway 162 between the distal end portion 186 of the first portion 180 of the housing 160 and the distal end portion 184 of the second portion 182 of the housing 160 such that the pusher 190 inhibits or otherwise limits movement of the distal end portion 186 of the first portion 180 of the housing 160 and the distal end portion 184 of the second portion 182 of the housing towards each other.
- distal end portion 186 of the top portion 180 of the housing 160 and the distal end portion 184 of the bottom portion 182 of the housing are spaced apart and inhibited by the pusher 190 from contacting or being moved towards or in closer proximity to the opposing distal end portion 184 , 186 . Also in this manner, the distal end portions 134 , 136 can be prevented from returning to the distal end portion's respective original position prior to actuation of the device 150 (e.g., when the delivery device 100 is in its first configuration).
- a dosage delivery device 200 according to an embodiment is shown in FIGS. 2 - 8 .
- the delivery device 200 includes a housing 210 , a pusher 240 , a dosage form 20 and a locking member 280 .
- the dosage delivery device 200 is a hand-held and manually operable device configured to deliver the dosage form 20 to a subject, as described herein.
- the dosage form 20 can be, for example, a drug-containing tablet.
- the dosage form 20 can include a dosage of a pain-relieving medicament, such as sufentanil.
- the dosage delivery device 200 is configured to deliver the dosage form 20 to an oral mucosal membrane of a subject. More particularly, in some embodiments, the delivery device 200 can be configured to deliver the dosage form 20 to a sublingual mucosal membrane of the subject. In some embodiments, the dosage delivery device 200 is configured for a single use. In other words, the delivery device 200 can be configured for only a single actuation to deliver a single dosage form to the subject. Components of the dosage delivery device 200 can be identical to or similar in many respects to components of any dosage delivery device 100 , 150 described herein.
- the housing 210 is elongate in form and includes a top portion 230 (shown in FIG. 2 ) and a bottom portion 232 (shown in FIG. 3 ).
- the top and bottom portions 230 , 232 of the housing 210 can be coupled together using any suitable mechanism described herein.
- the top and bottom portions 230 , 232 of the housing 210 define an actuation pathway 212 therebetween.
- the actuation pathway 212 is a pathway within which a portion of the pusher 240 moves during dispensation of the dosage form 20 from the delivery device 200 .
- a distance between a surface of the top portion 230 of the housing and the bottom portion 232 of the housing 210 can be less than a diameter of the dosage form 20 , thereby limiting rotational movement of the dosage form 20 within the actuation pathway 212 (e.g., such that the dosage form is unable to turn or flip over within the actuation pathway) during such dispensation.
- the pusher 240 is coupled to the housing 210 such that at least a portion of the pusher 240 is disposed within the actuation pathway 212 .
- the pusher 240 is movable within the actuation pathway 212 , such that the pusher 210 can move therein to expel the dosage form 20 from the delivery device 200 . More particularly, before the delivery device 200 is actuated, the pusher 240 is in a first position such that a distal end portion 242 of the pusher 240 is disposed within the actuation pathway 212 and a proximal end portion 244 of the pusher is disposed external to and proximally spaced apart by a first distance from the proximal end portion 216 of the housing 210 , as shown in FIG. 4 .
- the pusher 240 is moved in a distal direction, shown by arrow BB in FIG. 4 , with respect to the delivery device 200 .
- the pusher 240 is in a second position such that the distal end portion 242 of the pusher 240 is external to and distally disposed with respect to the distal end portion 214 of the housing, and the proximal end portion 244 of the pusher is external to and proximally spaced apart by a second distance, less than the first distance, from the proximal end portion 216 of the housing 210 , as shown in FIG. 5 .
- the delivery device 200 includes one or more mechanisms to prevent inadvertent actuation of the delivery device 200 .
- the delivery device 200 includes the locking member 280 , which can be removably coupled to the pusher 240 and is configured to prevent actuation of the delivery device 200 .
- the locking member 280 is configured to inhibit or limit movement of the pusher 240 in the distal direction (e.g., from its first position to or towards its second position) when the locking member is coupled to the pusher 240 .
- the locking member 280 includes a first side portion 282 , a second side portion 284 , and a bridge 286 extending between the first side portion and the second side portion.
- the bridge 286 is coupled at opposing ends to the side portions 282 , 284 , and acts as a flexible hinge.
- the locking member 280 is configured to be at least partially disposed about a portion of the pusher 240 .
- the locking member 280 is partially disposed about a proximal end portion 244 of the pusher 240 such that the locking member 280 is in contact with a first (e.g., bottom) surface 241 of the pusher 240 and such that flanges 283 , 285 of each of the first and second side portions 282 , 284 , respectively, are partially disposed about the proximal end portion 244 of the pusher and are in contact with a second (e.g., top) surface 243 of the pusher.
- a proximal end 287 of the locking member 280 is proximate to and/or engaged with an end cap 245 of the pusher 240 and/or a distal end 289 of the locking member is proximate to and/or engaged with a face (not shown) of the proximal end portion 216 of the housing 210 , as shown in FIG. 2 .
- the locking member 280 can have a length substantially equal to the first distance between the proximal end portion 244 of the pusher 240 and the proximal end portion 216 of the housing 210 .
- the locking member 280 prevents movement of the pusher 240 when the pusher is in its first position and the locking member 280 is coupled thereto. Additionally, because the length of the locking member 280 is greater than the distance between the proximal end portion 244 of the pusher 240 and the proximal end portion 216 of the housing 210 when the pusher is in its second position, the locking member 280 is prevented from being recoupled to the pusher 240 after actuation of the delivery device 200 .
- the first and second side portions 282 , 284 of the locking member 280 are configured to be moved towards each other to flex the bridge 286 and move the flanges 283 , 285 , respectively, away from each other, thus opening the locking member such that the flanges can be removed from about the pusher 240 .
- a locking member can be coupled to the pusher and/or housing, such as via a tether, after removal from being disposed about the proximal end portion of the pusher. With the locking member 280 removed, the pusher 240 can be moved in a distal direction, shown by arrow BB in FIG. 4 , with respect to the housing 210 from its first position to its second position.
- the device can include a breakable member that inhibits or limits movement of the pusher in the distal direction with respect to the housing (e.g., from the pusher's first position to or towards its second position).
- the pusher 240 includes an elongate protrusion 248 disposed on the top surface 243 of the proximal end portion 244 of the pusher 240 .
- the elongate protrusion 248 can be configured to engage a bridge (or breakable member) 218 of the housing 210 .
- the bridge 218 is disposed within a channel 221 defined by the housing, such as by the proximal end portion 216 of the housing.
- the channel 221 of the housing can be in communication with the actuation pathway 212 .
- the bridge 218 is configured to prevent movement of the pusher 240 in the distal direction absent a sufficient actuation force, as described herein.
- the elongate protrusion 248 slidably moves in a distal direction within the channel 221 until the protrusion 248 engages and presses upon the bridge 218 with sufficient force such that the bridge is at least partially separated from the housing 210 .
- the bridge 218 remains attached to the housing 210 at or by at least a corner portion of the bridge, and the bridge can rotate or otherwise move about the attachment location such that the bridge is at least partially removed or otherwise displaced from the channel 221 .
- the bridge 218 can be wholly separated from the housing 210 during actuation of the delivery device 200 .
- the housing 210 e.g., an inner surface of the top portion 230 of the housing 210
- the recess 222 can be configured to receive at least a portion of the bridge 218 when the bridge is at least partially separated from the housing 210 . In this manner, the elongate protrusion 248 can continue to move in the distal direction within the channel 221 when the pusher 240 is moved to or towards its second position.
- the distal end portion 242 of the pusher 240 is configured to contact the dosage form 20 for delivery of the dosage form from the delivery device 200 .
- the distal end portion 242 of the pusher 240 is contoured and/or shaped to receive and/or matingly engage the dosage form 20 .
- the distal end portion 242 of the pusher 40 can have any suitable contour and/or shape for conveying or expelling the dosage form 20 from the delivery device 200 .
- distal end portion 214 of the housing 210 and the distal end portion 242 of the pusher 240 are shaped to collectively define a volume 224 configured to contain the dosage form 20 , e.g., within the actuation pathway 212 .
- the delivery device 200 is configured to deform to produce an opening through which the dosage form 20 can be expelled from the volume 224 during actuation of the delivery device 200 .
- the distal end portion 236 of the top portion 230 of the housing 210 is proximate to and/or in contact with a distal end portion 234 of the bottom portion 232 of the housing 210 .
- an outer surface of the distal end portion 236 of the top portion 230 of the housing 210 is substantially parallel to an opposing outer surface of the distal end portion 234 of the bottom portion 232 of the housing 210 when the delivery device 200 is in its first configuration.
- the distal end portion 236 of the top portion 230 is spaced apart from the distal end portion 234 of the bottom portion 232 , for example, in response to movement of the pusher 240 in the distal direction (e.g., to or towards the pusher's second position).
- the delivery device 200 is configured such that, when the pusher 240 is moved from its first position to or towards its second position, a portion of the pusher 240 (e.g., the distal end portion 242 of the pusher) contacts and presses upon a lower (or inner) surface 231 of the top portion 230 of the housing 210 . More specifically, in some embodiments, the pusher 240 contacts an inner surface geometry 237 (such as a ramp, slope or protrusion) (shown, for example, in FIG.
- an inner surface geometry 237 such as a ramp, slope or protrusion
- the distal end portion 236 deforms (e.g., bends, deflects, or otherwise moves) away from the distal end portion 234 of the bottom portion 232 of the housing 210 to produce the opening 220 .
- the distal end portion 236 of the top portion 230 of the housing 210 is deformed such that the distal end portion of the top portion of the housing is angularly offset from the distal end portion 234 of the bottom portion 232 of the housing.
- a non-zero angle is formed between the distal end portion 236 of the first portion 230 of the housing 210 and the distal end portion 234 of the second portion 232 of the housing when the distal end portion 236 of the first portion 230 of the housing 210 is deformed.
- the angle can be within the range of 0.1 degrees to 90 degrees, within the range of 1 degree to 45 degrees, within the range of 1 degree to 10 degrees.
- the angle can be about 1 degree, about 2 degrees, about 3 degrees, about 4 degrees, about 5 degrees, about 6 degrees, about 7 degrees, about 8 degrees, about 9 degrees, or about 10 degrees.
- the angle is within a range of about 6 to about 7 degrees (e.g., about 6.6 or 6.7 degrees).
- a different portion of the housing 210 can be deformable.
- a distal end portion 236 of the bottom portion 232 of the housing 210 can be deformable in a manner similar to that described herein (e.g., with respect to distal end portion 186 of the second portion 182 of the housing 160 of delivery device 250 ).
- a delivery device can include a housing with a deformable portion distinct from either the first or top portion and the second or bottom portion.
- a delivery device can include a housing with a deformable distal end cap.
- At least a portion of the distal end portion 242 of the pusher 240 can be extended from the opening 220 and at least a portion of the pusher (e.g., at least a portion of the distal end portion of the pusher) is disposed between the distal end portions 236 , 234 of the top and bottom portions 230 , 232 , respectively, of the housing 210 .
- the distal end portion 236 can be permanently deformed upon actuation of the device 200 and delivery of the dosage form 20 (e.g., when pusher 240 is moved to its second position).
- at least a portion of the pusher 240 is disposed within the actuation pathway 212 between the distal end portion 236 of the top portion 230 of the housing 210 and the distal end portion 234 of the bottom portion 232 of the housing 210 such that the pusher 240 inhibits or otherwise limits movement of the distal end portion 236 of the top portion 230 towards the distal end portion 234 of the bottom portion 232 .
- the distal end portion 236 of the top portion 230 of the housing 210 is spaced apart from the distal end portion 234 of the bottom portion 232 of the housing and is inhibited by the pusher 240 from contacting or being moved towards or in closer proximity to the distal end portion 234 of the bottom portion 232 of the housing 210 .
- the distal end portion 236 of the top portion 230 of the housing 210 includes an aperture 226 , which can be configured to facilitate deformation of the distal end portion 236 of the top portion 230 of the housing 210 .
- the top portion 230 of the housing 210 defines a curved or U-shaped aperture 226 .
- a cantilevered portion 228 of the housing 210 extends into the curve or “U” of the aperture 226 .
- the portions of the top portion 230 of the housing 210 on either side of the ends of the aperture act as hinges to facilitate deformation of the distal end portion of the top portion 230 of the housing away from the distal end portion 234 of the bottom portion 232 of the housing 210 .
- an outer surface 233 of the distal end portion 236 of the top portion 230 of the housing 210 curves downwardly towards the distal end portion 234 of the bottom portion 232 of the housing 210 .
- This downwardly curved portion can be characterized as a nose portion 233 .
- the nose portion 233 can include downwardly extending side walls on either side, each of which has a sloped, curved, or otherwise angled proximal end face 238 , 238 ′ (as shown in FIGS. 3 , 3 A and 6 ).
- the end face 238 , 238 ′ can include at least a portion of the inner surface geometry 237 configured to be contacted or engaged by the pusher 240 , as described above.
- a distal end face 257 of the pusher 240 can have a complementary slope, angle, or shape to reduce friction from engagement of the pusher 240 with the proximal end faces 238 , 238 ′ of the side walls of the nose portion 233 of the housing 210 during actuation.
- the pusher 240 engages the sloped portions 238 of the top portion 230 of the housing, the nose portion 233 is moved away from the bottom portion 232 of the housing 210 , thereby forming the opening and exposing the cantilevered portion 228 of the housing 210 .
- the side walls of the nose portion 233 of top portion 230 of the housing 210 are configured to engage an upper surface of the pusher 240 , thereby preventing or limiting movement of the distal end portion 236 of the top portion 230 of the housing 210 towards the distal end portion 234 of the bottom portion 232 of the housing 210 .
- the inner surface of the nose portion 233 is contoured or shaped to limit rotation of the dosage form 20 with respect to the housing 210 as the dosage form is being expelled (or delivered) from the device 200 .
- an inner surface 235 of the nose portion 233 is curved (e.g., is in the shape of a convex curve), such that the dosage form 20 engages the curved inner surface 235 during delivery, as shown in FIG. 7 .
- an inner surface 235 ′ of the nose portion 233 is angled to engage a surface (e.g., an upper surface) of the dosage form 20 during delivery, as shown in FIG. 8 .
- the force exerted upon the dosage form 20 by the pusher 240 can cause the dosage form 20 to rotate or lift with respect to the housing 210 (e.g., such that at least one of a leading edge or a trailing edge of the dosage form 20 becomes spaced apart from the bottom portion 232 of the housing as shown in FIGS. 7 and 8 , and/or such that the dosage form 20 turns sideways).
- Rotation of the dosage form 20 with respect to the housing 210 can affect the speed at which the dosage form 20 is expelled through the opening 220 , and expelling the dosage form 20 at a different (e.g., higher) speed than that which the delivery device is intended to produce can interfere with proper delivery of the dosage form to the patient. For example, if a dosage form 20 is expelled too quickly from the delivery device, it may inadvertently be propelled towards the throat of the user instead of an oral mucosal membrane.
- the contoured or curved (e.g., convex) inner surface 235 (or 235 ′) of the nose portion 233 is configured to limit the degree to which the dosage form 20 can rotate with respect to the housing 210 before the dosage form 20 is expelled through the opening 220 , and thus prevent expelling the dosage form 20 at such higher speeds.
- the convex curved geometry shown in FIG. 7 acts to limit rotation of the dosage form 20 to a greater degree than the angled geometry shown in FIG. 8 .
- the inner surface of the nose portion 233 can have any suitable shape or geometry configured to limit rotation of the dosage form 20 with respect to the housing during delivery of the dosage form from the delivery device.
- the cantilevered portion 228 of the housing 210 can also act to limit rotation of the dosage form 20 with respect to the housing 210 .
- the delivery device 200 is configured for only a single actuation to dispense a single dosage form 20 (or a single dosage of medicament).
- the delivery device 200 can include one or more tamper-resistant mechanisms.
- the delivery device 200 is configured to prevent removal of the dosage form 20 from the delivery device without actuating the device such that the device would appear “unused” when it is devoid of the dosage form.
- the delivery device 200 can be configured to prevent movement of the delivery device to its first configuration (e.g., in which the pusher is in its first position) after the delivery device is in its second configuration (e.g., in which the pusher is in its second position).
- the delivery device includes one or more mechanisms to prevent a “used” device from being tampered with or otherwise altered or reconfigured to resemble an “unused” device.
- the pusher 240 can include one or more retaining members 246 , 246 ′, 247 , 247 ′ configured to limit and/or inhibit movement of the pusher in a proximal direction with respect to the housing.
- the pusher 240 can include one or more retaining members 246 configured to prevent the pusher being moved from its second position to its first position.
- the retaining member 246 can be, for example, a protrusion extended from the pusher 240 .
- the pusher includes a first set 250 of retaining members disposed at a first location of the elongate body portion 249 of the pusher 240 .
- the first set 250 of retaining members includes a first retaining member 246 extended from a first side of the pusher 240 and a second retaining member 247 extended from a second side of the pusher opposite the first side.
- the pusher 240 includes a second set 252 of retaining members disposed at a second location of the elongate body portion 249 of the pusher.
- the second set 252 of retaining members includes a third retaining member 246 ′ extended from the first side of the pusher 240 and a fourth retaining member 247 ′ extended from the second side of the pusher.
- the first and second locations of the sets 250 , 252 of retaining members are disposed distally with respect to a distal end of the elongate protrusion 248 of the pusher 240 .
- the first and second locations are at a middle portion of the pusher 240 between its distal end portion 242 and its proximal end portion 244 .
- the first and second locations are distal to the protrusions 270 , 272 extended from the housing 210 when the pusher 240 is in its first position.
- the second location of the pusher's body portion 249 can be distal to the first location.
- a free end of each retaining member 246 , 246 ′, 247 , 247 ′ can be outwardly biased, i.e., in a direction away from a centerline (not shown) of the pusher 240 .
- the retaining members can each be biased towards a surface of the actuation pathway 212 .
- the retaining members are configured to flex inwardly towards a centerline of the pusher 240 when the pusher is moved in the distal direction with respect to the housing 210 when constrained within the actuation pathway 212 .
- the retaining members 246 , 246 ′, 247 , 247 ′ can be configured to flex or otherwise move outwardly when no longer constrained, as described herein.
- the housing 210 (e.g., the bottom portion 232 of the housing) defines one or more sets of recesses (or openings). As shown, the housing defines a first set 260 of recesses, a second set 262 of recesses, and a third set 264 of recesses. Each recess (or opening) is in communication with the actuation pathway 212 and is configured to receive at least a portion of one or more of the retaining members.
- At least one retaining member 246 , 246 ′, 247 , 247 ′ is biased such that, when the at least one retaining member is aligned with or otherwise collocated with a recess, the retaining member flexes or otherwise moves outwardly due to a bias of the retaining member and such that at least a portion of the at least one retaining member is received in the respective recess.
- each recess has a shoulder portion configured to contact or otherwise engage a portion of a free end of the retaining member received therein.
- the first set 250 of retaining members can be at least partially received in the first set 260 of recesses and the second set 252 of retaining members can be at least partially received in the second set 262 of recesses, as shown in FIG. 4 .
- the delivery device 200 is configured to prevent removal of the pusher 240 from the housing 210 in the proximal direction.
- the first set 250 of retaining members can be at least partially received in the second set 262 of recesses and the second set 252 of retaining members can be at least partially received in the third set 264 of recesses, as shown in FIG. 5 .
- the delivery device 200 is configured to prevent the pusher 240 from being moved or returned to its first position after actuation and delivery of the dosage form 20 from the device.
- the housing 210 and the pusher 240 are collectively configured to limit movement of the distal end portion of the top portion of the housing 210 towards the distal end portion of the bottom portion of the housing 210 after delivery of the dosage form from the housing 210 .
- the distal end portion 242 of the pusher remains disposed between the distal end portion 236 of the top portion 230 of the housing 210 and the distal end portion 234 of the bottom portion 232 of the housing 210 , thus inhibiting or limiting movement of the distal end portion of the top portion of the housing 210 to or towards the distal end portion of the bottom portion of the housing 210 .
- the distal end portion of the pusher 240 retains the top portion of the housing 210 in its deformed state (e.g., such that the distal end portion of the top portion of the housing is moved away from the distal end portion of the bottom portion of the housing) after actuation of the delivery device 200 .
- a delivery device includes a pusher having retaining members only on a first side or from a single surface of the pusher's elongate body portion 249 .
- one or more retaining members can extend from an upper surface of the pusher and/or a lower surface of the pusher.
- a delivery device includes a housing defining recesses or openings only on a first side or by a single surface of the housing.
- the top portion and/or bottom portion of the housing can define recess(es) or openings configured to receive one or more retaining members extended from the pusher.
- a delivery device can include any suitable number of retaining members and/or sets of retaining members (e.g., one, two, three, four or more retaining members and/or sets of retaining members), and any suitable number of recesses and/or sets of recesses (e.g., one, three, four or more recesses and/or sets of recesses).
- the retaining members can extend from one, two, three or four surfaces of the pusher.
- a pusher of a delivery device can include a non-equal number of retaining members per surface or side of the pusher, and a housing of the delivery device can include recesses and/or openings corresponding to any suitable configuration of retaining members.
- each of the top portion 230 and the bottom portion 232 of the housing 210 is configured to be gripped or otherwise held by an operator during actuation of the delivery device 200 .
- each of the top portion 230 and bottom portion 232 can have a protrusion 270 , 272 , respectively, that extends from the elongate housing 210 .
- the top and bottom portions 230 , 232 have protrusions 270 , 272 , respectively, that extend in opposing directions from the elongate housing.
- the protrusions 270 , 272 are sufficiently rigid such that they are configured to be gripped by or otherwise have the fingers of an operator of the delivery device 200 rested thereupon during actuation of the delivery device.
- the dosage delivery device 200 is configured to facilitate single-handed actuation of the device by an operator.
- the protrusions 270 , 272 can be substantially perpendicular to an outer surface of the respective top and bottom portions 230 , 232 of the housing 210 .
- the elongate protrusion 248 of the pusher 240 is configured to contact the protrusion 270 on the top portion of the housing to limit further movement of the pusher in the distal direction with respect to the housing.
- engagement of the elongate protrusion 248 of the pusher 240 with a face or other portion of the protrusion 270 of the top portion 230 of the housing 210 causes movement of the pusher in the distal direction to cease.
- each of the top portion 230 and bottom portion 232 of the housing 210 includes a textured outer surface portion 276 .
- each of the top portion 230 and bottom portion 232 of the housing 210 includes a textured surface portion 276 , 276 ′ that can include at least one of a plurality of ridges and/or a plurality of recesses (e.g., elongate parallel ridges and/or recesses).
- the textured surface portions 276 , 276 ′ can be configured to facilitate gripping of the delivery device 200 by an operator during actuation of the device.
- the delivery device 200 is individually packaged in a container (not shown), for example, until an operator is ready to operate the delivery device to deliver the dosage form therefrom.
- the container can be, for example, a sealed wrapper, a foil pouch, or the like.
- the container can also include an oxygen absorber or scrubber therein.
- a label can be applied to an outer surface of the container with written and/or pictorial instructions for operation of the delivery device 200 .
- the delivery device 200 can be individually packaged in the container such that the pusher 240 is separate or detached from the housing 210 .
- a container including the delivery device 200 is optionally opened and the delivery device is removed therefrom.
- the operator inspects the delivery device to ensure that it is unused, such as looking to see whether the locking member is coupled to the pusher, the bridge (or breakable member) is unbroken or not at least partially separated from the housing, the distal end portion of the housing is deformed, whether a distal end portion of the push rod is extended from an opening at the distal end portion of the housing and/or whether the dosage form is disposed in the housing, as described herein.
- the operator determines that the delivery device is unused, or otherwise does not appear to have been tampered with, the operator continues with the operation of the delivery device.
- the device can be discarded and a second delivery device can be obtained.
- the operator can insert at least a portion of the pusher into the actuation pathway of the housing.
- a locking member is removed from the pusher of the delivery device, thereby permitting the device to be actuated.
- the first and second side portions of a locking member are moved towards each other (e.g., squeezed together) to remove flange portions of the locking member from being disposed about portions of the pusher, and then the locking member is separated or moved away from the pusher.
- the locking member can be discarded.
- the delivery device 200 is positioned with respect to a mouth of a subject (which may or may not be the operator of the device) for delivery of the dosage form to the subject's oral mucosa.
- the operator optionally places first and second fingers (e.g., the index and middle fingers) on the protrusions (e.g., on at least a portion of a distal facing surface of each protrusion) extended from each of the top and bottom portions of the housing, and another finger (e.g., the thumb) on the end cap of the pusher.
- the operator applies an actuation force to the pusher (e.g., via the thumb) to move the pusher from its first position towards its second position.
- a force exerted by the pusher on the bridge of the housing at least partially breaks the bridge.
- the pusher also pushes the bridge into a recess defined by the housing adjacent the channel.
- a distal end portion of the pusher contacts a distal end portion of the housing, causing the housing to deform and produce an opening through which the dosage form can be expelled.
- a contoured surface of the distal end portion of the pusher contacts the dosage form, and moves the dosage form in a distal direction with respect to the housing to expel the dosage form through the opening produced in the housing to the subject's oral mucosa.
- the delivery device is discarded after delivery of the dosage form therefrom.
- the housing 210 defines an aperture 278 in communication with the actuation pathway 212 .
- the aperture 278 can be disposed, for example, proximate to the protrusion 270 of the top portion 230 of the housing 210 .
- the aperture 278 can be in communication with the channel 212 defined by the housing 210 .
- the aperture 278 can be formed by the housing 210 at a distal end of the channel 221 .
- the aperture 278 can be sized to permit passage of the dosage form 20 therethrough.
- the aperture 278 can be used to pass the dosage form 20 into the actuation pathway for loading the dosage form into the delivery device.
- the pusher 240 can be inserted into the actuation pathway 212 via an opening 223 at the proximal end portion 216 of the housing 210 .
- the distal end portion 242 of the pusher 240 picks up the dosage form within the actuation pathway 212 adjacent the aperture 278 , and moves the dosage form to the volume at the distal end portion 214 of the housing.
- the retaining members prevent the pusher from being retracted.
- sufentanil compositions can include any of the compositions described in U.S. Pat. No. 8,753,308, entitled “Methods for Administering Small Volume Oral Transmucosal Dosage Forms Using a Dispensing Device,” which is incorporated herein by reference in its entirety. In other embodiments, however, the devices and methods described herein can be used to deliver any other drug composition.
- the delivery device can include a housing (e.g., housing 210 ) that is about 5 cm to about 10 cm in length, about 6 cm to about 8 cm in length, or about 6.5 cm in length.
- the delivery device can include a pusher (e.g., pusher 240 ) that is about 5 cm to about 10 cm in length, about 7 cm to about 9 cm in length, or about 7.5 cm in length.
- the pusher has a greater length than the housing.
- the pusher can have a height (or thickness) of about 0.05 cm to about 0.1 cm, about 0.07 cm to about 0.09 cm, or about 0.8 cm.
- the cantilevered portion (e.g., cantilevered portion 228 ) of the housing can have any suitable length, including, but not limited to, a length of about 0.25 cm to about 2.5 cm, and more particularly a length within the range of about 0.6 cm to about 0.8 cm.
- the housing 210 has a length of about 6.5 cm
- the cantilevered portion 228 has a length of about 0.7 cm.
- the embodiments described herein can be formed or constructed of one or more biocompatible materials.
- suitable biocompatible materials include metals, glasses, ceramics, or polymers.
- suitable metals include pharmaceutical grade stainless steel, gold, titanium, nickel, iron, platinum, tin, chromium, copper, and/or alloys thereof.
- a polymer material may be biodegradable or non-biodegradable.
- suitable biodegradable polymers include polylactides, polyglycolides, polylactide-co-glycolides (PLGA), polyanhydrides, polyorthoesters, polyetheresters, polycaprolactones, polyesteramides, poly(butyric acid), poly(valeric acid), polyurethanes, and/or blends and copolymers thereof.
- non-biodegradable polymers include nylons, polyesters, polycarbonates, polyacrylates, polymers of ethylene-vinyl acetates and other acyl substituted cellulose acetates, non-degradable polyurethanes, polystyrenes, polyvinyl chloride, polyvinyl fluoride, poly(vinyl imidazole), chlorosulphonate polyolefins, polyethylene oxide, and/or blends and copolymers thereof.
- At least a portion of the delivery devices described herein can be constructed of a transparent material.
- the housing e.g., housing 110 , 210
- the housing is transparent.
- the dosage form e.g., dosage form 10 , 20
- the housing may be constructed of a non-transparent, or opaque, material, but the housing may include a window, e.g., adjacent the volume to permit visual confirmation of whether a dosage form is contained within the volume.
- a delivery device described herein can be configured to provide a different form of indicium (e.g., auditory, tactile) indicative of the dosage form being disposed therein.
- a delivery device be configured to emit an auditory signal (e.g., a beep, chime, word or set of words, or the like) when the delivery device detects (e.g., via a sensor or the like) the presence of the dosage form therein.
- the delivery device can be configured to emit, an optionally amplify, an auditory signal caused by a movement of the dosage form from within the delivery device.
- the dosage delivery device 100 , 150 is shown and described herein as having a pusher 140 , 190 with a retaining member 146 , 196 and a housing 110 , 160 with a recess 118 , 168 , in other embodiments, the dosage delivery device 100 , 150 can include a set of retaining members and/or a set of recesses (or openings) as described with respect to dosage delivery device 200 .
- the pusher 240 is shown as including a contoured distal end surface, in other embodiments, the pusher 240 can include a squared, tapered, or convex distal end surface, or have a differently shaped distal end surface suitable to deliver the dosage form from the delivery device.
- the pusher 140 , 190 , 240 is shown and described herein as being coupled to the housing 110 , 160 , 210 such that at least a portion of the pusher 140 , 190 , 240 is disposed within the actuation pathway 112 , 162 , 212 of the housing
- the pusher can have a first configuration in which the pusher is detached or separate from the housing, and a second configuration in which the pusher is at least partially disposed within the housing.
- the pusher can be configured to be inserted into the housing by a user or an operator of the delivery device at or near the time of intended administration of the drug dosage form using the delivery device.
- Such separation of the pusher from the housing containing the drug dosage form can help to prevent inadvertent actuation of the delivery device.
- the distal end portion 242 of the pusher 240 is inserted into the opening 223 at the proximal end portion 216 of the housing 210 .
- the distal end portion 242 can be advanced, or moved distally, within the actuation pathway until the pusher is in a desired position with respect to the housing 210 and/or the drug dosage form 20 .
- the distal end portion 242 of the pusher can be advanced within the actuation pathway 212 until the pusher is in the first position, as described herein.
- At least one retaining member 246 , 246 ′, 247 , 247 ′ of the pusher 240 can be sufficiently flexible or compressible with respect to the elongate body portion 249 of the pusher to permit such insertion of the pusher into the actuation pathway 212 .
- one or more retaining members 246 , 246 ′, 247 , 247 ′ can be configured to move or otherwise compress towards or against the elongate body portion 249 of the pusher when the portion of the pusher including the retaining member is inserted into the actuation pathway of the housing 210 such that the retaining member does not interfere with insertion of the pusher 240 into the housing 210 .
- the pusher after the pusher is inserted into the housing of the delivery device such that the pusher is moved to the first position, the pusher cannot be removed from the housing, for example, due to engagement of at least one retaining member (e.g., retaining member 146 , 246 , 246 ′, 247 , 247 ′) of the pusher with at least one recess (e.g., recess 118 , 260 , 262 , 264 ) of the housing as described herein.
- at least one retaining member e.g., retaining member 146 , 246 , 246 ′, 247 , 247 ′
- at least one recess e.g., recess 118 , 260 , 262 , 264
- the pusher has been shown and described herein as including at least one retaining member (e.g., retaining member 146 , 246 , 246 ′, 247 , 247 ′) configured to be at least partially received in at least one recess or opening (e.g., recess 118 , 260 , 262 , 264 ) of the housing
- the housing can include at least one retaining member and the pusher can define at least one recess or opening configured to receive the at least one retaining member of the housing.
- the retaining member(s) of the housing can be similar in many respects to any retaining member described herein, and the recess or opening of the pusher can be similar in many respects to any recess or opening of the portion of the housing defining the actuation pathway described herein.
- the dosage delivery device 200 shown and described herein as including a first or top portion 230 with a deformable distal end portion 236 in some embodiments, the second or bottom portion 232 of the housing 210 includes a deformable distal end portion 234 .
- the deformable distal end portion 234 of the second portion 232 can be similar in many respects, or identical, the deformable distal end portion 236 of the first portion 230 of the housing 210 described herein.
- the distal end portion 236 , 234 of both the first portion 230 and second portion 232 , respectively, of the housing are deformable upon actuation of the delivery device 200 .
- the degree or angle of deformation of each of the distal end portions 234 , 236 can be the same or different.
- the degree of deformation of the distal end portion 236 of the first portion 230 of the housing 210 can be greater than, less than, or equal to the degree of deformation of the distal end portion 234 of the second portion 232 of the housing, when the delivery device is in its second configuration.
- the devices and methods are shown and described herein as providing for delivery of a single drug dosage form via a device configured for only a single actuation, in other embodiments, the devices and methods described herein can be applicable for delivery of multiple drug dosage forms, for example, during a single actuation of the device.
- the devices, systems and methods are shown and described herein as providing for delivery of drug dosage forms to the oral mucosa, in other embodiments, the devices, systems and the methods described herein can be applicable for delivery of any suitable therapeutic substance to any portion of the anatomy.
- any of the pushrods, housing or other components can be used in conjunction with a multi-dose delivery device, such as those described in U.S. Pat. No. 8,548,623, entitled “Storage and Dispensing Devices for Administration of Oral Transmucosal Dosage Forms,” which is incorporated herein by reference in its entirety.
- the pusher and/or housing designs described herein can be used in either an actual drug delivery device or a simulated drug delivery device.
- a simulated drug delivery device can, for example, correspond to an actual drug delivery device and can be used, for example, to train a user in the operation of the corresponding actual medicament delivery device.
- Such simulated device can be devoid of actual drug-containing dosage forms.
- such a simulated device can include a placebo dosage form, a plastic tablet (or tablet of any suitable material) having a similar geometry as a drug dosage form, or the like.
Abstract
Description
- This application is a continuation of U.S. application Ser. No. 15/965,285, filed on Apr. 27, 2018, entitled “Apparatus and Methods for Dispensing Oral Transmucosal Dosage Forms”, which is a continuation of International patent application Ser. No. PCT/US2016/059577, filed on Oct. 28, 2016, entitled “Apparatus and Methods for Dispensing Oral Transmucosal Dosage Forms,” which claims priority to and the benefit of U.S. provisional application Ser. No. 62/248,837, filed on Oct. 30, 2015, entitled “Apparatus and Methods for Dispensing Oral Transmucosal Dosage Forms,” the disclosures of which are incorporated herein by reference in their entireties.
- Apparatus and methods described herein relate generally to drug dispensing devices and delivery mechanisms for administration of small-volume drug dosage forms, and more specifically to drug dispensing devices for a single administration of a single drug-containing tablet (or a single drug dosage), for example, to the oral mucosa.
- Commercially available dispensing devices for oral transmucosal delivery of medications are limited. In particular, many known commercially available dispensing devices for dispensing medication, e.g., to a patient's mouth, are for repeatable delivery of inhaled medications, rather than medications in the form of a tablet or other drug dosage form intended to be delivered to the oral mucosa for uptake by the mucosa for systemic delivery of the medication contained therein.
- Additionally, drug dosage forms for oral mucosal drug delivery are typically quite small in size, and thus may be easily dislodged and/or removed from a dispensing device without such tampering being evident to an eventual operator of the dispensing device.
- Known single dose dispensing devices for dispensing a tablet or other dosage form to the oral mucosa, once used to dispense the medication therein, can be reconfigured to resemble an unused device. For example, the dispensing mechanism can be returned to or close to its original pre-dispensing position, thus producing the visual effect to a would-be operator of the device that the dispensing device is unused. Due to the small size of dosage forms for oral mucosal drug delivery, if the used dispensing device were inadvertently re-used in an attempt to dispense a dosage form therefrom, the operator and/or subject intended to receive the medication may not be aware that the medication was not actually dispensed in the subsequent attempt. This is the case, for example, even if a dosage form were present, because the operator may be unable to visually confirm the presence of the dosage form and/or the subject may not be able to feel the dosage form being dispensed onto the subject's oral mucosa.
- Additionally, known single dose dispensing devices may experience friction during operation of the device, thereby causing the dosage form to rotate with respect to the device and be expelled from the device at a speed different from an intended delivery speed. Such inconsistent expulsion speeds for delivery of the dosage form from the device to the subject can result in inconsistent dosing for the subject, as a dosage form that is expelled too quickly from the device can overshoot the subject's oral mucosa and instead be delivered proximate to the subject's throat where the dosage form may be swallowed instead of remaining on the oral mucosa for a sufficient time for uptake of the drug, medication or other active ingredient in the dosage form through the oral mucosa.
- Accordingly, there is a need for an improved single dose dispensing device configured to deliver a drug dosage form to an oral mucosa of subject. A need also exists for a dispensing device that can be permanently deformed upon actuation of the device to deliver the dosage form therefrom. A further need exists for a dispensing device that can prevent the dispensing mechanism from be returned to a pre-dispensation position. An additional need exists for a dispensing device configured to limit rotation of the dosage form with respect to the delivery device, thereby providing for delivery of the dosage form from the device at or close to a predetermined delivery speed.
- Single dose drug dosage form dispensing devices, and methods for operating such devices, are disclosed herein. In one embodiment, an apparatus includes a housing defining an actuation pathway and a pusher. At least a portion of the pusher is disposed within the actuation pathway such that a distal end portion of the pusher and a distal end portion of the housing define a volume configured to contain a drug-containing tablet. The pusher is configured to move relative to the housing in a distal direction from a first position to a second position to expel the drug-containing tablet from the volume. The distal end portion of the pusher can be extended from an opening in the housing when the pusher is in its second position. The housing is configured to limit movement of the pusher relative to the housing in a proximal direction from the second position of the pusher towards the first position of the pusher after the drug-containing tablet is expelled from the volume.
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FIGS. 1A-1B are schematic illustrations of a dosage delivery device according to an embodiment, in a first configuration and a second configuration, respectively. -
FIGS. 1C-1D are schematic illustrations of a dosage delivery device according to an embodiment, in a first configuration and a second configuration, respectively. -
FIG. 2 is a bottom perspective view of a dosage delivery device according to an embodiment. -
FIG. 2A is a cross-sectional view of the dosage delivery device ofFIG. 2 taken alongline 2A-2A -
FIG. 3 is an exploded view of the dosage delivery device ofFIG. 2 . -
FIG. 3A is a side view of a portion of the dosage delivery device ofFIG. 2 . -
FIGS. 4 and 5 are perspective views of a portion of the dosage delivery device ofFIG. 2 in a first configuration and a second configuration, respectively. -
FIG. 6 is a bottom view of a portion of the dosage delivery device ofFIG. 2 . -
FIGS. 7 and 8 are cross-sectional views of a distal end portion of the dosage delivery device ofFIG. 2 showing surface geometries of a portion of a housing of the device according to various embodiments. - Drug delivery devices for administration of solid dosage forms are described herein. In some embodiments, an apparatus includes a housing and a pusher. In some embodiments, an apparatus includes a housing defining an actuation pathway and a pusher. At least a portion of the pusher is disposed within the actuation pathway such that a distal end portion of the pusher and a distal end portion of the housing define a volume configured to contain a drug-containing tablet or dosage form. The pusher is configured to move relative to the housing in a distal direction from a first position to a second position to expel the drug-containing tablet from the volume. The distal end portion of the pusher can be extended from an opening in the housing when the pusher is in its second position. The housing is configured to limit movement of the pusher relative to the housing in a proximal direction from the second position of the pusher towards the first position of the pusher after the drug-containing tablet is expelled from the volume.
- In some embodiments, an apparatus includes a housing and a pusher. The housing has a first portion and a second portion and defines an actuation pathway between the first portion and the second portion. A distal end portion of the first portion of the housing is configured to deform away from a distal end portion of the second portion of the housing to produce an opening for delivery of a drug-containing tablet from the housing. At least a portion of the pusher is disposed within the actuation pathway and is moveable in a distal direction with respect to the housing. The housing and the pusher are collectively configured to limit movement of the distal end portion of the first portion of the housing towards the distal end portion of the second portion of the housing after delivery of the drug-containing tablet from the housing.
- As used in this specification and the appended claims, the singular forms “a,” “an” and “the” include plural referents unless the context clearly dictates otherwise. Thus, for example, the term “a member” is intended to mean a single member or a combination of members, “a material” is intended to mean one or more materials, or a combination thereof. Furthermore, the words “a” or “an” and the phrase “one or more” may be used interchangeably.
- As used herein, the words “proximal” and “distal” refer to direction closer to and away from, respectively, an operator of the drug delivery device. Thus, for example, the end of the dosage delivery device contacting or inserted into the patient's body (e.g. within the mouth) would be the distal end of the dosage delivery device, while the end opposite the distal end would be the proximal end of the dosage delivery device.
- As used herein, the terms “about” and/or “approximately” when used in conjunction with numerical values and/or ranges generally refer to those numerical values and/or ranges near to a recited numerical value and/or range. For example, in some instances, “about 40 [units]” can mean within ±25% of 40 (e.g., from 30 to 50). In some instances, the terms “about” and “approximately” can mean within ±10% of the recited value. In other instances, the terms “about” and “approximately” can mean within ±9%, ±8%, ±7%, ±6%, ±5%, ±4%, ±3%, ±2%, ±1%, less than ±1%, or any other value or range of values therein or therebelow. The terms “about” and “approximately” may be used interchangeably.
- In a similar manner, the term “substantially” when used in connection with, for example, a geometric relationship, a numerical value, and/or a range is intended to convey that the geometric relationship (or the structures described thereby), the number, and/or the range so defined is nominally the recited geometric relationship, number, and/or range. For example, two structures described herein as being “substantially parallel” is intended to convey that, although a parallel geometric relationship is desirable, some non-parallelism can occur in a “substantially parallel” arrangement. By way of another example, a structure defining a volume that is “substantially 0.50 milliliters (mL)” is intended to convey that, while the recited volume is desirable, some tolerances can occur when the volume is “substantially” the recited volume (e.g., 0.50 mL). Such tolerances can result from manufacturing tolerances, measurement tolerances, and/or other practical considerations (such as, for example, minute imperfections, age of a structure so defined, a pressure or a force exerted within a system, and/or the like). As described above, a suitable tolerance can be, for example, of ±1%, ±2%, ±3%, ±4%, ±5%, ±6%, ±7%, ±8%, ±9%, ±10%, or more of the stated geometric construction, numerical value, and/or range. Furthermore, although a numerical value modified by the term “substantially” can allow for and/or otherwise encompass a tolerance of the stated numerical value, it is not intended to exclude the exact numerical value stated.
- While numerical ranges may be provided for certain quantities, it is to be understood that these ranges can include all subranges therein. Thus, the range “from 50 to 80” includes all possible ranges therein (e.g., 51-79, 52-78, 53-77, 54-76, 55-75, . . . , 70-79, etc.). Furthermore, all values within a given range may be an endpoint for the range encompassed thereby (e.g., the range 50-80 includes the ranges with endpoints such as 55-80, 50-75, etc.).
- The dosage delivery devices (also referred to herein as “delivery devices” or “dispensing devices”) described herein can be used, for example, for sublingual administration of a bioadhesive small volume sufentanil-containing drug dosage form. Such dosage forms can be any of the dosage forms shown and described in U.S. Pat. No. 8,753,308, entitled “Methods for Administering Small Volume Oral Transmucosal Dosage Forms Using a Dispensing Device,” and/or U.S. Pat. No. 8,574,189, entitled “Storage and Dispensing Devices for Administration of Oral Transmucosal Dosage Forms,” each of which is incorporated herein by reference in its entirety. Moreover, the delivery devices shown herein can include any of the structure and/or features of any of the delivery devices shown in U.S. Pat. No. 8,574,189, such as, for example, a housing defining an actuation pathway, a delivery member, a safety member (e.g., label) removably coupled to the housing, a deformable bridge member, or the like.
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FIGS. 1A-1B are schematic illustrations of adosage delivery device 100 according to an embodiment. Thedosage delivery device 100 is configured to deliver adosage form 10, such as a drug-containing tablet, to a subject, as described herein. In some embodiments, thedosage delivery device 100 can be a hand-held device configured to deliver thedosage form 10 to an oral mucosal membrane of a subject. More particularly, in some embodiments, thedosage delivery device 100 is configured to deliver thedosage form 10 to a sublingual mucosal membrane of the subject. In some embodiments, thedosage delivery device 100 is configured for a single use. For example, the delivery device can be a single dose applicator (“SDA”) that contains a single drug or medication dose (e.g., a single dosage form) therein. More specifically, thedelivery device 100 can be configured for only a single actuation to deliver a single dosage form to the subject. In this manner, thedelivery device 100 can be characterized as a “one-time use” device, and therefore is disposable. - The
dosage delivery device 100 includes ahousing 110 and apusher 140. Thehousing 110 defines anactuation pathway 112. Thepusher 140 is coupled to thehousing 110 such that at least a portion of thepusher 140 is disposed within theactuation pathway 112 defined by thehousing 110. Adistal end portion 114 of thehousing 110 and adistal end portion 142 of thepusher 140 collectively define avolume 124 configured to contain or receive therein thedosage form 10. - The
actuation pathway 112 of thehousing 110 can be an elongate channel extended through at least a portion of thehousing 110. As described in more detail herein, theactuation pathway 112 is configured to permit movement of thepusher 140 therein for delivery of the drug dosage form. In some embodiments, theactuation pathway 112 is in communication with anopening 122 at a first end portion of the housing, such as theproximal end portion 116 of the housing. Theactuation pathway 112 can extend at least from theopening 122 at theproximal end portion 116 of thehousing 110 to thevolume 124 containing the dosage form. - In some embodiments, before the
device 100 is actuated, theactuation pathway 112 ends, or is closed at, a second end portion of the housing, such as thedistal end portion 114 of the housing. During actuation of thedevice 100, theactuation pathway 112 can be extended, or opened, at the second end portion of the housing. - The
actuation pathway 112 can have any suitable dimensions (e.g., height, width, diameter) for receiving thedosage form 10 andpusher 140 therein. One or more dimensions of theactuation pathway 112 can be configured to prevent the dosage form from turning, flipping or otherwise becoming improperly oriented within the actuation pathway. For example, a distance between opposing surfaces of portions of thehousing 110 defining theactuation pathway 112 can be less than a diameter of thedosage form 10, thereby limiting rotational movement of the dosage form within the actuation pathway 112 (e.g., such that the dosage form is unable to turn or flip over within the actuation pathway). - In some embodiments, the
pusher 140 has a first position in which at least adistal end portion 142 of thepusher 140 disposed within theactuation pathway 112 of thehousing 110, as shown inFIG. 1A , and a second position in which at least thedistal end portion 142 of thepusher 140 is not within theactuation pathway 112 of thehousing 110, as shown inFIG. 1B . For example, in some embodiments, when thepusher 140 is in its second position, the distal end portion of the pusher is external to theactuation pathway 112 and/or thehousing 110, and can be distal to thedistal end portion 114 of thehousing 110, as shown inFIG. 1B . - Movement of the
pusher 140 from its first position to or towards its second position is configured to facilitate expelling the dosage form from thevolume 124. Thedistal end portion 142 of thepusher 140 can have a contour or shape configured to engage (e.g., matingly engage) thedosage form 10 and can move the dosage form in a distal direction with respect to the volume as the pusher is moved to or towards its second position (i.e., in the distal direction with respect to the housing 110). - In some embodiments, the
proximal end portion 144 of thepusher 140 is disposed external to the housing. For example, a portion of thepusher 140 can be disposed in and/or extended through theopening 122 defined by the first portion of the housing such that theproximal end portion 144 of thepusher 140 is external to and/or proximal to theproximal end portion 116 of thehousing 110. In some embodiments, theproximal end portion 144 of thepusher 140 is external to theproximal end portion 116 of thehousing 110 when thepusher 140 is in each of its first position and its second position, as shown inFIGS. 1A-1B . - In some embodiments, the proximal end portion of the pusher is a first distance from the
proximal end portion 116 of thehousing 110 when thepusher 140 is in its first position and is a second distance, less than the first distance, from theproximal end portion 116 of the housing when the pusher is in its second position. For example, in some embodiments, theproximal end portion 144 of thepusher 140 is proximally spaced apart from theproximal end portion 116 of thehousing 110 when thepusher 140 is in its first position and theproximal end portion 144 of thepusher 140 is proximate to or in contact with theproximal end portion 116 of thehousing 110 when thepusher 140 is in its second position. In some embodiments, a portion, such as theproximal end portion 144, of thepusher 140 can be in contact with an outer surface of theproximal end portion 116 of thehousing 110 when the pusher is in its second position. - The
pusher 140 is movable with respect to thehousing 110. More specifically, thepusher 140 is moveable with respect to thehousing 110 from its first position to its second position to expel thedosage form 10 from thevolume 124. For example, thedosage delivery device 100 can be actuated by applying a force to theproximal end portion 144 of thepusher 140 to move thepusher 140 from its first position to its second position. The force can be applied, for example, in a distal direction (shown by arrow AA inFIGS. 1A-1B ) by a hand or finger of an operator of thedevice 100. When thepusher 140 is moved to its second position, or in the distal direction with respect to thehousing 110 towards the pusher's second position, the pusher can contact and expel thedosage form 10 from thevolume 124 of thedelivery device 100. - Although the
pusher 140 is shown and described herein as having a first position and a second position, in some embodiments, the pusher can have three, four, or more positions. For example, in some embodiments, thepusher 140 can have a third position between its first position and its second position. - The
dosage delivery device 100 has a first configuration in which thedevice 100 contains thedosage form 10 and is ready to be actuated for delivery of the dosage form. When thedosage delivery device 100 is in its first configuration, thepusher 140 is in the first position. Thedosage delivery device 100 has a second configuration in which thedosage form 10 has been expelled from the device and the pusher is in the second position (or, in some embodiments, an intermediary position between the pusher's first position and second position). Thedevice 100 can be configured such that it cannot return to its first configuration after the device is in its second configuration. Similarly stated, once thedelivery device 100 is actuated, thedelivery device 100 is locked in its second configuration. In this manner, thedevice 100 is configured to prevent a “used” device, from which the dosage form has been expelled, to be returned to a configuration in which thedevice 100 may appear to an observer to be an “unused” device assumed to contain a dosage form. - The
housing 110 and thepusher 140 can be collectively configured (as described in more detail herein) to inhibit and/or limit movement of thepusher 140 in a proximal direction with respect to thehousing 110. In some embodiments, when the delivery device is in its first configuration and the pusher is in its first position, thehousing 110 and thepusher 140 are collectively configured to inhibit movement of the pusher in a proximal direction with respect to the housing. In some embodiments, when the delivery device is in its second configuration, thehousing 110 and thepusher 140 are collectively configured to inhibit movement of thepusher 140 from its second position to its first position. Said another way, at least one of thehousing 110 and thepusher 140 can be configured to inhibit and/or limit movement of thepusher 140 in a proximal direction with respect to thehousing 110 after thedelivery device 100 is in its second configuration. In this manner, the position of thepusher 140 with respect to thehousing 110 and/or the configuration of thedelivery device 100 each provides a visual indication to the observer regarding whether thedosage delivery device 100 is used or unused. In other words, an observer (e.g., the operator, subject, etc.) can determine that thedosage delivery device 100 is used (i.e., thedosage form 10 has been dispensed therefrom) by observing that thepusher 140 is in its second position and/or that thedelivery device 100 is in the second configuration. Similarly, the observer can reliably presume that thedosage delivery device 100 is unused when thepusher 140 is in its first position and/or thedelivery device 100 is in its first configuration. - The
dosage delivery device 100 can include any suitable locking mechanism to prevent movement of thepusher 140 from its second position to or towards its first position with respect to thehousing 110. For example, in some embodiments, thepusher 140 includes a retainingmember 146. The retainingmember 146 can be, for example, a protrusion extended from thepusher 140. In some embodiments, the retainingmember 146 is biased away from anelongate body portion 148 of thepusher 140. For example, the retainingmember 146 can be biased towards a surface of theactuation pathway 112. - The
housing 110 can define at least one recess (or opening) 118 in communication with and/or defined by theactuation pathway 112. In some embodiments, therecess 118 is configured to receive at least a portion of the retainingmember 146 when thepusher 140 is in its second position. In some embodiments, therecess 118 is configured to receive at least a portion of the retainingmember 146 when thepusher 140 is between its first position and its second position. When a portion of the retainingmember 146 is received in therecess 118, thepusher 140 is prevented from being moved in a proximal direction with respect to the housing. In this manner, an operator of thedevice 100 is unable to move or return thepusher 140 to its first position after actuation of thedevice 100 and delivery of thedosage form 10 therefrom. In use, this helps to ensure that thedosage delivery device 100, once used to deliver thedosage form 10, cannot intentionally or inadvertently be passed off as an unused (i.e., dosage form containing) device. In some embodiments, the retainingmember 146 is biased such that, absent an opposing force, the retainingmember 146 tends to move away from thebody portion 148 of thepusher 140, towards the wall of theactuation pathway 122 and into therecess 118. Although the retainingmember 146 andrecess 118 work together to limit proximal movement of thepusher 140 with respect to thehousing 110, the retainingmember 146 and therecess 118 can be configured to not interfere with movement of thepusher 140 in the distal direction with respect to thehousing 110. - Although the
pusher 140 is illustrated and described herein as including one retainingmember 146, in other embodiments, a dosage delivery device can include any suitable number of retaining members, such as two, three, four or more retaining members. Similarly, although thehousing 110 is illustrated and described herein as including one recess or opening 118 configured to receive at least a portion of the retainingmember 146, in other embodiments, a dosage delivery device can include any suitable number of recesses and/or openings configured to receive the retaining member(s) of a pusher, such as two, three, four or more recesses and/or openings. - In some embodiments, the
delivery device 100 is configured to deform to produce anopening 120 through which thedosage form 10 is expelled from thevolume 124 when the delivery device is moved from its first configuration to its second configuration. For example, in some embodiments, at least a portion of thehousing 110 is configured to deform when thepusher 140 is moved with respect to the housing in the distal direction, as shown inFIG. 1B . - Said another way, at least a portion of the
housing 110 can be deformable such that thedeformable portion 137 deforms (e.g., bends, curves, or otherwise moves) when thepusher 140 is moved from its first position to its second position. In this manner, theopening 120 is produced in thehousing 110 from which thedosage form 10 can be expelled. - For example, in some embodiments, the
housing 110 includes a first, or top,portion 130 and a second, or bottom,portion 132 that are coupled together (e.g., during manufacturing) to form thehousing 110 and define theactuation pathway 112 therebetween. As used herein, references to portions of thedevice 100 as being the “top portion” or “bottom portion” or other similar positionally-oriented descriptors are made for the sake of clarity, and are not intended to imply that the device must be in a particular orientation for proper operation. For example, thedevice 100 can be properly operated to deliver a dosage form to a patient when the “top portion” of thehousing 110 is oriented towards the patient's upper lip, lower lip, left side, and/or right side, and/or any orientation therebetween. - In some embodiments, the first and
second portions second portions second portions - In some embodiments, a
distal end portion 136 of thefirst portion 130 of the housing includes thedeformable portion 137. In this manner, for example, thedistal end portion 136 of thefirst portion 130 of thehousing 110 can be configured to be deformed during actuation of thedosage delivery device 100. For example, when thedelivery device 100 is in its first configuration, thedistal end portion 136 of thefirst portion 130 is proximate to and/or in contact with adistal end portion 134 of thesecond portion 132. When thedelivery device 100 is in its second configuration, thedistal end portion 136 of thefirst portion 130 of thehousing 110 is spaced apart from thedistal end portion 134 of thesecond portion 132, for example, in response to movement of thepusher 140 in the distal direction (e.g., to or towards its second position). In some embodiments, thepusher 140 contacts an inner surface geometry (such as a ramp or protrusion; not shown inFIG. 1A or 1B ) of thefirst portion 130 of thehousing 110 when thepusher 140 is moved in the distal direction with respect to the housing such that thepusher 140 causes thedistal end portion 136 of thefirst portion 130 to deform or move away from thedistal end portion 134 of thesecond portion 132, thereby producing theopening 120 in thehousing 110. In some embodiments, the material forming thedistal end portion 136 is bent when thedistal end portion 136 of the first portion is deformed or moved away from thedistal end portion 134 of thesecond portion 132 of thehousing 110. In some embodiments, thedistal end portion 136 of thefirst portion 130 of thehousing 110 is deformed such that the distal end portion of the first portion of the housing is angularly offset from thedistal end portion 134 of thesecond portion 132 of the housing. In this manner, a non-zero angle is formed between thedistal end portion 136 of thefirst portion 130 of thehousing 110 and thedistal end portion 134 of thesecond portion 132 of the housing when thedistal end portion 136 of thefirst portion 130 of thehousing 110 is deformed. For example, the angle can be within the range of 0.1 degrees to 90 degrees, within the range of 1 degree to 45 degrees, within the range of 1 degree to 10 degrees. In another example, in some embodiments, the angle can be about 1 degree, about 2 degrees, about 3 degrees, about 4 degrees, about 5 degrees, about 6 degrees, about 7 degrees, about 8 degrees, about 9 degrees, or about 10 degrees. For example, in some embodiments the angle is within a range of about 6 to about 7 degrees (e.g., about 6.6 or 6.7 degrees). - The
distal end portion 136 can be permanently deformed upon actuation of thedevice 100 to deliver the dosage form 10 (e.g., whenpusher 140 is moved to its second position). In some embodiments, for example, when thepusher 140 is in its second position, at least a portion of thepusher 140 is disposed within theactuation pathway 112 between thedistal end portion 136 of thefirst portion 130 of thehousing 110 and thedistal end portion 134 of thesecond portion 132 of thehousing 110 such that thepusher 140 inhibits or otherwise limits movement of thedistal end portion 136 of thefirst portion 130 of thehousing 110 towards thedistal end portion 134 of thesecond portion 132. In this manner, thedistal end portion 136 of thetop portion 130 of thehousing 110 is spaced apart from thedistal end portion 134 of thebottom portion 132 of the housing and is inhibited by thepusher 140 from contacting or being moved towards or in closer proximity to thedistal end portion 134 of thesecond portion 132 of thehousing 110. Also in this manner, thedistal end portion 136 of the top (or first)portion 130 of the housing is prevented from returning to its original position prior to actuation of the device 100 (e.g., to the position of thedistal end portion 136 of thetop portion 130 of the housing, when thedelivery device 100 is in its first configuration). - In some embodiments, as schematically shown in
FIGS. 1C-1D , adosage delivery device 150 according to an embodiment includes more than one deformable portion configured to produce an opening through which a dosage form can be expelled from the device. Thedosage delivery device 150 can be similar, or identical, in many respects to thedosage delivery device 100, and so only certain differences therebetween are described in detail herein. Thedosage delivery device 150 is configured to deliver thedosage form 10 to a subject, such as to an oral mucosal membrane of the subject, as described herein. Thedosage delivery device 150 includes ahousing 160 and apusher 190. Thehousing 160 includes afirst portion 180 and asecond portion 182 and defines anactuation pathway 162 therebetween. Thepusher 190 can be coupled to thehousing 160 such that at least a portion of thepusher 190 is disposed within theactuation pathway 162 defined by thehousing 160. Adistal end portion 164 of thehousing 160 and adistal end portion 192 of thepusher 190 collectively define avolume 174 configured to contain or receive therein thedosage form 10. - In some embodiments, the
pusher 190 has a first position in which at least thedistal end portion 192 of thepusher 190 is disposed within theactuation pathway 162 of thehousing 160, as shown inFIG. 1C . Thedelivery device 150 is in a first configuration when thepusher 190 is in the first position. Thepusher 190 has a second position in which at least thedistal end portion 192 of thepusher 190 is not within theactuation pathway 162 of thehousing 160, as shown inFIG. 1D . Thedelivery device 150 is in a second configuration when thepusher 190 is in the second position. Theactuation pathway 162 is configured to permit movement of thepusher 190 therein for delivery of the drug dosage form therefrom. More specifically, movement of thepusher 190 from its first position to or towards its second position is configured to facilitate expelling the dosage form from thevolume 124. - The
delivery device 150 is configured to deform to produce anopening 170 through which thedosage form 10 is expelled from thevolume 174 when thepusher 190 is moved from the first position to or towards the second position. For example, in some embodiments, at least a portion of thehousing 160 is configured to deform when thepusher 190 is moved with respect to the housing in the distal direction, as shown inFIG. 1D . Said another way, at least a portion of thehousing 160 can be deformable such that at least one portion of the housing deforms (e.g., bends, curves, or otherwise moves) when thepusher 190 is moved from its first position to its second position. In this manner, theopening 170 is produced in thehousing 160 from which thedosage form 10 can be expelled. - In some embodiments, a
distal end portion 186 of thefirst portion 180 of thehousing 160 includes a firstdeformable portion 187 and adistal end portion 184 of thesecond portion 182 of the housing includes a seconddeformable portion 189. In this manner, for example, at least one of, or both of, thedistal end portion 186 of thefirst portion 180 of thehousing 160 and thedistal end portion 184 of thesecond portion 182 of the housing can be deformed during actuation of thedosage delivery device 150. For example, when thedosage delivery device 150 is in its first configuration, thedistal end portion 186 of thefirst portion 180 is proximate to and/or in contact with adistal end portion 184 of thesecond portion 182. When thedelivery device 150 is in its second configuration, thedistal end portion 186 of thefirst portion 180 of thehousing 160 is spaced apart from thedistal end portion 184 of thesecond portion 182, for example, in response to movement of thepusher 190 in the distal direction (e.g., to or towards its second position). In some embodiments, thepusher 190 contacts an inner surface geometry (such as a ramp or protrusion; not shown inFIG. 1C or 1D ) of each of thefirst portion 180 of thehousing 160 and thesecond portion 182 of thehousing 160 when thepusher 190 is moved in the distal direction with respect to the housing such that thepusher 190 causes each of thedistal end portion 186 of thefirst portion 180 of the housing and thedistal end portion 184 of thesecond portion 182 of the housing to deform or move away from each other (or, said another way, away from a longitudinal axis L of the actuation pathway 162), as shown inFIG. 1D , thereby producing theopening 170 in thehousing 160. In some embodiments, the material forming thedistal end portions distal end portion - In some embodiments, the
distal end portion 186 of thefirst portion 180 of thehousing 160 is deformed such that the distal end portion of the first portion of the housing is angularly offset from the longitudinal axis L of the actuation pathway. In this manner, a non-zero angle is formed between thedistal end portion 186 of thefirst portion 180 of thehousing 160 and the longitudinal axis L of theactuation pathway 162 of the housing when thedistal end portion 186 of thefirst portion 180 of thehousing 160 is deformed. For example, the angle can be within the range of 0.1 degrees to 90 degrees, within the range of 1 degree to 45 degrees, or within the range of 1 degree to 10 degrees. In another example, the angle can be about 1 degree, about 2 degrees, about 3 degrees, about 4 degrees, about 5 degrees, about 6 degrees, about 7 degrees, about 8 degrees, about 9 degrees, or about 10 degrees. For example, in some embodiments the angle is within a range of about 6 to about 7 degrees (e.g., about 6.6 or 6.7 degrees). In some embodiments, thedistal end portion 184 of thesecond portion 182 of thehousing 160 is deformed such that the distal end portion of the second portion of the housing is angularly offset from the longitudinal axis L of the actuation pathway. In this manner, a non-zero angle is formed between thedistal end portion 184 of thesecond portion 182 of thehousing 160 and the longitudinal axis L of theactuation pathway 162 of the housing when thedistal end portion 184 of thesecond portion 182 of thehousing 160 is deformed. For example, the angle can be within the range of 0.1 degrees to 90 degrees, within the range of 1 degree to 45 degrees, or within the range of 1 degree to 10 degrees. In another example, the angle can be about 1 degree, about 2 degrees, about 3 degrees, about 4 degrees, about 5 degrees, about 6 degrees, about 7 degrees, about 8 degrees, about 9 degrees, or about 10 degrees. For example, in some embodiments the angle is within a range of about 6 to about 7 degrees (e.g., about 6.6 or 6.7 degrees). - At least one of the
distal end portions device 150 to deliver the dosage form 10 (e.g., whenpusher 190 is moved to its second position). In some embodiments, for example, when thepusher 190 is in its second position, at least a portion of thepusher 190 is disposed within theactuation pathway 162 between thedistal end portion 186 of thefirst portion 180 of thehousing 160 and thedistal end portion 184 of thesecond portion 182 of thehousing 160 such that thepusher 190 inhibits or otherwise limits movement of thedistal end portion 186 of thefirst portion 180 of thehousing 160 and thedistal end portion 184 of thesecond portion 182 of the housing towards each other. In this manner, thedistal end portion 186 of thetop portion 180 of thehousing 160 and thedistal end portion 184 of thebottom portion 182 of the housing are spaced apart and inhibited by thepusher 190 from contacting or being moved towards or in closer proximity to the opposingdistal end portion distal end portions delivery device 100 is in its first configuration). - A
dosage delivery device 200 according to an embodiment is shown inFIGS. 2-8 . Thedelivery device 200 includes ahousing 210, apusher 240, adosage form 20 and a lockingmember 280. Thedosage delivery device 200 is a hand-held and manually operable device configured to deliver thedosage form 20 to a subject, as described herein. Thedosage form 20 can be, for example, a drug-containing tablet. In some embodiments, thedosage form 20 can include a dosage of a pain-relieving medicament, such as sufentanil. - The
dosage delivery device 200 is configured to deliver thedosage form 20 to an oral mucosal membrane of a subject. More particularly, in some embodiments, thedelivery device 200 can be configured to deliver thedosage form 20 to a sublingual mucosal membrane of the subject. In some embodiments, thedosage delivery device 200 is configured for a single use. In other words, thedelivery device 200 can be configured for only a single actuation to deliver a single dosage form to the subject. Components of thedosage delivery device 200 can be identical to or similar in many respects to components of anydosage delivery device - The
housing 210 is elongate in form and includes a top portion 230 (shown inFIG. 2 ) and a bottom portion 232 (shown inFIG. 3 ). The top andbottom portions housing 210 can be coupled together using any suitable mechanism described herein. The top andbottom portions housing 210 define anactuation pathway 212 therebetween. Theactuation pathway 212 is a pathway within which a portion of thepusher 240 moves during dispensation of thedosage form 20 from thedelivery device 200. A distance between a surface of thetop portion 230 of the housing and thebottom portion 232 of thehousing 210 can be less than a diameter of thedosage form 20, thereby limiting rotational movement of thedosage form 20 within the actuation pathway 212 (e.g., such that the dosage form is unable to turn or flip over within the actuation pathway) during such dispensation. - The
pusher 240 is coupled to thehousing 210 such that at least a portion of thepusher 240 is disposed within theactuation pathway 212. Thepusher 240 is movable within theactuation pathway 212, such that thepusher 210 can move therein to expel thedosage form 20 from thedelivery device 200. More particularly, before thedelivery device 200 is actuated, thepusher 240 is in a first position such that adistal end portion 242 of thepusher 240 is disposed within theactuation pathway 212 and aproximal end portion 244 of the pusher is disposed external to and proximally spaced apart by a first distance from theproximal end portion 216 of thehousing 210, as shown inFIG. 4 . During actuation of thedelivery device 200, thepusher 240 is moved in a distal direction, shown by arrow BB inFIG. 4 , with respect to thedelivery device 200. After actuation, thepusher 240 is in a second position such that thedistal end portion 242 of thepusher 240 is external to and distally disposed with respect to thedistal end portion 214 of the housing, and theproximal end portion 244 of the pusher is external to and proximally spaced apart by a second distance, less than the first distance, from theproximal end portion 216 of thehousing 210, as shown inFIG. 5 . - In some embodiments, the
delivery device 200 includes one or more mechanisms to prevent inadvertent actuation of thedelivery device 200. Referring toFIGS. 2 and 3 , thedelivery device 200 includes the lockingmember 280, which can be removably coupled to thepusher 240 and is configured to prevent actuation of thedelivery device 200. More specifically, the lockingmember 280 is configured to inhibit or limit movement of thepusher 240 in the distal direction (e.g., from its first position to or towards its second position) when the locking member is coupled to thepusher 240. The lockingmember 280 includes afirst side portion 282, asecond side portion 284, and abridge 286 extending between the first side portion and the second side portion. Thebridge 286 is coupled at opposing ends to theside portions - The locking
member 280 is configured to be at least partially disposed about a portion of thepusher 240. For example, as shown inFIGS. 2 and 2A , the lockingmember 280 is partially disposed about aproximal end portion 244 of thepusher 240 such that the lockingmember 280 is in contact with a first (e.g., bottom)surface 241 of thepusher 240 and such thatflanges second side portions proximal end portion 244 of the pusher and are in contact with a second (e.g., top)surface 243 of the pusher. When the lockingmember 280 is coupled to thepusher 240, aproximal end 287 of the lockingmember 280 is proximate to and/or engaged with anend cap 245 of thepusher 240 and/or adistal end 289 of the locking member is proximate to and/or engaged with a face (not shown) of theproximal end portion 216 of thehousing 210, as shown inFIG. 2 . Said another way, the lockingmember 280 can have a length substantially equal to the first distance between theproximal end portion 244 of thepusher 240 and theproximal end portion 216 of thehousing 210. In this manner, the lockingmember 280 prevents movement of thepusher 240 when the pusher is in its first position and the lockingmember 280 is coupled thereto. Additionally, because the length of the lockingmember 280 is greater than the distance between theproximal end portion 244 of thepusher 240 and theproximal end portion 216 of thehousing 210 when the pusher is in its second position, the lockingmember 280 is prevented from being recoupled to thepusher 240 after actuation of thedelivery device 200. - The first and
second side portions member 280 are configured to be moved towards each other to flex thebridge 286 and move theflanges pusher 240. Although the lockingmember 280 is illustrated and described herein as being completely separable from thepusher 240, in other embodiments, a locking member can be coupled to the pusher and/or housing, such as via a tether, after removal from being disposed about the proximal end portion of the pusher. With the lockingmember 280 removed, thepusher 240 can be moved in a distal direction, shown by arrow BB inFIG. 4 , with respect to thehousing 210 from its first position to its second position. - In another example of mechanisms to prevent inadvertent actuation of the
delivery device 200, the device can include a breakable member that inhibits or limits movement of the pusher in the distal direction with respect to the housing (e.g., from the pusher's first position to or towards its second position). For example, returning toFIG. 3 , thepusher 240 includes anelongate protrusion 248 disposed on thetop surface 243 of theproximal end portion 244 of thepusher 240. Theelongate protrusion 248 can be configured to engage a bridge (or breakable member) 218 of thehousing 210. Thebridge 218 is disposed within achannel 221 defined by the housing, such as by theproximal end portion 216 of the housing. Thechannel 221 of the housing can be in communication with theactuation pathway 212. Thebridge 218 is configured to prevent movement of thepusher 240 in the distal direction absent a sufficient actuation force, as described herein. - When the
pusher 240 is moved in the distal direction with respect to the delivery device (e.g., from the pusher's first position to or towards its second position) in response to a sufficient actuation force (as opposed to a lesser or de minimis amount of force resulting from, for example, an inadvertent contact with the pusher or an abandoned actuation attempt), theelongate protrusion 248 slidably moves in a distal direction within thechannel 221 until theprotrusion 248 engages and presses upon thebridge 218 with sufficient force such that the bridge is at least partially separated from thehousing 210. In some embodiments, thebridge 218 remains attached to thehousing 210 at or by at least a corner portion of the bridge, and the bridge can rotate or otherwise move about the attachment location such that the bridge is at least partially removed or otherwise displaced from thechannel 221. In other embodiments, thebridge 218 can be wholly separated from thehousing 210 during actuation of thedelivery device 200. The housing 210 (e.g., an inner surface of thetop portion 230 of the housing 210) can define arecess 222 adjacent thechannel 221. Therecess 222 can be configured to receive at least a portion of thebridge 218 when the bridge is at least partially separated from thehousing 210. In this manner, theelongate protrusion 248 can continue to move in the distal direction within thechannel 221 when thepusher 240 is moved to or towards its second position. - Returning to
FIG. 4 , thedistal end portion 242 of thepusher 240 is configured to contact thedosage form 20 for delivery of the dosage form from thedelivery device 200. As shown, thedistal end portion 242 of thepusher 240 is contoured and/or shaped to receive and/or matingly engage thedosage form 20. In other embodiments, however, thedistal end portion 242 of the pusher 40 can have any suitable contour and/or shape for conveying or expelling thedosage form 20 from thedelivery device 200. Further, thedistal end portion 214 of thehousing 210 and thedistal end portion 242 of thepusher 240 are shaped to collectively define avolume 224 configured to contain thedosage form 20, e.g., within theactuation pathway 212. - In some embodiments, the
delivery device 200 is configured to deform to produce an opening through which thedosage form 20 can be expelled from thevolume 224 during actuation of thedelivery device 200. When thedelivery device 200 is in its first configuration, thedistal end portion 236 of thetop portion 230 of thehousing 210 is proximate to and/or in contact with a distal end portion 234 of thebottom portion 232 of thehousing 210. In some embodiments, an outer surface of thedistal end portion 236 of thetop portion 230 of thehousing 210 is substantially parallel to an opposing outer surface of the distal end portion 234 of thebottom portion 232 of thehousing 210 when thedelivery device 200 is in its first configuration. When thedelivery device 200 is in its second configuration, thedistal end portion 236 of thetop portion 230 is spaced apart from the distal end portion 234 of thebottom portion 232, for example, in response to movement of thepusher 240 in the distal direction (e.g., to or towards the pusher's second position). - For example, the
delivery device 200 is configured such that, when thepusher 240 is moved from its first position to or towards its second position, a portion of the pusher 240 (e.g., thedistal end portion 242 of the pusher) contacts and presses upon a lower (or inner)surface 231 of thetop portion 230 of thehousing 210. More specifically, in some embodiments, thepusher 240 contacts an inner surface geometry 237 (such as a ramp, slope or protrusion) (shown, for example, inFIG. 6 ), described in more detail herein, of the deformabledistal end portion 236 of thetop portion 230housing 210 when thepusher 240 is moved in the distal direction with respect to the housing such that thepusher 240 causes thedistal end portion 236 of thetop portion 230 to deform or move away from the distal end portion 234 of thebottom portion 232, thereby producing theopening 220 in thehousing 210. - In response to the pressure exerted upon the
inner surface geometry 237 of the deformabledistal end portion 236 of thetop portion 230 of thehousing 210, thedistal end portion 236 deforms (e.g., bends, deflects, or otherwise moves) away from the distal end portion 234 of thebottom portion 232 of thehousing 210 to produce theopening 220. In some embodiments, thedistal end portion 236 of thetop portion 230 of thehousing 210 is deformed such that the distal end portion of the top portion of the housing is angularly offset from the distal end portion 234 of thebottom portion 232 of the housing. In this manner, a non-zero angle is formed between thedistal end portion 236 of thefirst portion 230 of thehousing 210 and the distal end portion 234 of thesecond portion 232 of the housing when thedistal end portion 236 of thefirst portion 230 of thehousing 210 is deformed. For example, the angle can be within the range of 0.1 degrees to 90 degrees, within the range of 1 degree to 45 degrees, within the range of 1 degree to 10 degrees. In another example, in some embodiments, the angle can be about 1 degree, about 2 degrees, about 3 degrees, about 4 degrees, about 5 degrees, about 6 degrees, about 7 degrees, about 8 degrees, about 9 degrees, or about 10 degrees. For example, in some embodiments the angle is within a range of about 6 to about 7 degrees (e.g., about 6.6 or 6.7 degrees). - Although the
dosage delivery device 200 is shown and described herein as having adistal end portion 236 of thetop portion 230 of thehousing 210 that is deformable, in other embodiments a different portion of thehousing 210 can be deformable. For example, in some embodiments adistal end portion 236 of thebottom portion 232 of thehousing 210 can be deformable in a manner similar to that described herein (e.g., with respect todistal end portion 186 of thesecond portion 182 of thehousing 160 of delivery device 250). In some embodiments, a delivery device can include a housing with a deformable portion distinct from either the first or top portion and the second or bottom portion. For example, a delivery device can include a housing with a deformable distal end cap. - As actuation of the
delivery device 200 is continued, and thepusher 240 is moved further towards its second position, at least a portion of thedistal end portion 242 of thepusher 240 can be extended from theopening 220 and at least a portion of the pusher (e.g., at least a portion of the distal end portion of the pusher) is disposed between thedistal end portions 236, 234 of the top andbottom portions housing 210. - The
distal end portion 236 can be permanently deformed upon actuation of thedevice 200 and delivery of the dosage form 20 (e.g., whenpusher 240 is moved to its second position). In some embodiments, for example, when thepusher 240 is in its second position, at least a portion of thepusher 240 is disposed within theactuation pathway 212 between thedistal end portion 236 of thetop portion 230 of thehousing 210 and the distal end portion 234 of thebottom portion 232 of thehousing 210 such that thepusher 240 inhibits or otherwise limits movement of thedistal end portion 236 of thetop portion 230 towards the distal end portion 234 of thebottom portion 232. In this manner, thedistal end portion 236 of thetop portion 230 of thehousing 210 is spaced apart from the distal end portion 234 of thebottom portion 232 of the housing and is inhibited by thepusher 240 from contacting or being moved towards or in closer proximity to the distal end portion 234 of thebottom portion 232 of thehousing 210. - In some embodiments, as shown in
FIGS. 3 and 6 , thedistal end portion 236 of thetop portion 230 of thehousing 210 includes anaperture 226, which can be configured to facilitate deformation of thedistal end portion 236 of thetop portion 230 of thehousing 210. For example, as shown, thetop portion 230 of thehousing 210 defines a curved orU-shaped aperture 226. A cantileveredportion 228 of thehousing 210, described in more detail herein, extends into the curve or “U” of theaperture 226. The portions of thetop portion 230 of thehousing 210 on either side of the ends of the aperture (e.g., free ends of the curve or “U”) act as hinges to facilitate deformation of the distal end portion of thetop portion 230 of the housing away from the distal end portion 234 of thebottom portion 232 of thehousing 210. - In some embodiments, as shown in
FIGS. 3 and 3A , anouter surface 233 of thedistal end portion 236 of thetop portion 230 of thehousing 210 curves downwardly towards the distal end portion 234 of thebottom portion 232 of thehousing 210. This downwardly curved portion can be characterized as anose portion 233. Thenose portion 233 can include downwardly extending side walls on either side, each of which has a sloped, curved, or otherwise angledproximal end face FIGS. 3, 3A and 6 ). Theend face inner surface geometry 237 configured to be contacted or engaged by thepusher 240, as described above. Adistal end face 257 of thepusher 240 can have a complementary slope, angle, or shape to reduce friction from engagement of thepusher 240 with the proximal end faces 238, 238′ of the side walls of thenose portion 233 of thehousing 210 during actuation. When thepusher 240 engages the slopedportions 238 of thetop portion 230 of the housing, thenose portion 233 is moved away from thebottom portion 232 of thehousing 210, thereby forming the opening and exposing the cantileveredportion 228 of thehousing 210. In some embodiments, after actuation and deformation of thedistal end portion 236 of thetop portion 230 of thehousing 210, the side walls of thenose portion 233 oftop portion 230 of thehousing 210 are configured to engage an upper surface of thepusher 240, thereby preventing or limiting movement of thedistal end portion 236 of thetop portion 230 of thehousing 210 towards the distal end portion 234 of thebottom portion 232 of thehousing 210. - In some embodiments, as shown in
FIGS. 7 and 8 , the inner surface of thenose portion 233 is contoured or shaped to limit rotation of thedosage form 20 with respect to thehousing 210 as the dosage form is being expelled (or delivered) from thedevice 200. For example, in some embodiments, aninner surface 235 of thenose portion 233 is curved (e.g., is in the shape of a convex curve), such that thedosage form 20 engages the curvedinner surface 235 during delivery, as shown inFIG. 7 . In another example, aninner surface 235′ of thenose portion 233 is angled to engage a surface (e.g., an upper surface) of thedosage form 20 during delivery, as shown inFIG. 8 . - In some circumstances, as the
pusher 240 moves thedosage form 20 towards the opening 220, the force exerted upon thedosage form 20 by thepusher 240 can cause thedosage form 20 to rotate or lift with respect to the housing 210 (e.g., such that at least one of a leading edge or a trailing edge of thedosage form 20 becomes spaced apart from thebottom portion 232 of the housing as shown inFIGS. 7 and 8 , and/or such that thedosage form 20 turns sideways). Rotation of thedosage form 20 with respect to thehousing 210 can affect the speed at which thedosage form 20 is expelled through theopening 220, and expelling thedosage form 20 at a different (e.g., higher) speed than that which the delivery device is intended to produce can interfere with proper delivery of the dosage form to the patient. For example, if adosage form 20 is expelled too quickly from the delivery device, it may inadvertently be propelled towards the throat of the user instead of an oral mucosal membrane. - The contoured or curved (e.g., convex) inner surface 235 (or 235′) of the
nose portion 233 is configured to limit the degree to which thedosage form 20 can rotate with respect to thehousing 210 before thedosage form 20 is expelled through theopening 220, and thus prevent expelling thedosage form 20 at such higher speeds. The convex curved geometry shown inFIG. 7 , however, in some embodiments, acts to limit rotation of thedosage form 20 to a greater degree than the angled geometry shown inFIG. 8 . Although angled and convexinner surfaces 235′, 235, respectively, of thenose portion 233 are illustrated and described herein, in other embodiments, the inner surface of thenose portion 233 can have any suitable shape or geometry configured to limit rotation of thedosage form 20 with respect to the housing during delivery of the dosage form from the delivery device. In some embodiments, the cantileveredportion 228 of thehousing 210 can also act to limit rotation of thedosage form 20 with respect to thehousing 210. - As discussed above, in some embodiments, the
delivery device 200 is configured for only a single actuation to dispense a single dosage form 20 (or a single dosage of medicament). As such, thedelivery device 200 can include one or more tamper-resistant mechanisms. For example, in some embodiments, thedelivery device 200 is configured to prevent removal of thedosage form 20 from the delivery device without actuating the device such that the device would appear “unused” when it is devoid of the dosage form. In another example, thedelivery device 200 can be configured to prevent movement of the delivery device to its first configuration (e.g., in which the pusher is in its first position) after the delivery device is in its second configuration (e.g., in which the pusher is in its second position). Said another way, the delivery device includes one or more mechanisms to prevent a “used” device from being tampered with or otherwise altered or reconfigured to resemble an “unused” device. - For example, the
pusher 240 can include one ormore retaining members pusher 240 can include one ormore retaining members 246 configured to prevent the pusher being moved from its second position to its first position. The retainingmember 246 can be, for example, a protrusion extended from thepusher 240. - As shown in
FIGS. 3-5 , the pusher includes afirst set 250 of retaining members disposed at a first location of theelongate body portion 249 of thepusher 240. Thefirst set 250 of retaining members includes a first retainingmember 246 extended from a first side of thepusher 240 and asecond retaining member 247 extended from a second side of the pusher opposite the first side. Thepusher 240 includes asecond set 252 of retaining members disposed at a second location of theelongate body portion 249 of the pusher. Thesecond set 252 of retaining members includes athird retaining member 246′ extended from the first side of thepusher 240 and a fourth retainingmember 247′ extended from the second side of the pusher. As shown, the first and second locations of thesets elongate protrusion 248 of thepusher 240. In some embodiments, the first and second locations are at a middle portion of thepusher 240 between itsdistal end portion 242 and itsproximal end portion 244. Also as shown, the first and second locations are distal to theprotrusions housing 210 when thepusher 240 is in its first position. The second location of the pusher'sbody portion 249 can be distal to the first location. A free end of each retainingmember pusher 240. Said another way, the retaining members can each be biased towards a surface of theactuation pathway 212. The retaining members are configured to flex inwardly towards a centerline of thepusher 240 when the pusher is moved in the distal direction with respect to thehousing 210 when constrained within theactuation pathway 212. The retainingmembers - Referring to
FIG. 4 , the housing 210 (e.g., thebottom portion 232 of the housing) defines one or more sets of recesses (or openings). As shown, the housing defines afirst set 260 of recesses, asecond set 262 of recesses, and athird set 264 of recesses. Each recess (or opening) is in communication with theactuation pathway 212 and is configured to receive at least a portion of one or more of the retaining members. At least one retainingmember housing 210 recesses, movement of the pusher in the proximal direction with respect to thehousing 210 is inhibited. - When the pusher is in its first position with respect to the housing, the
first set 250 of retaining members can be at least partially received in thefirst set 260 of recesses and thesecond set 252 of retaining members can be at least partially received in thesecond set 262 of recesses, as shown inFIG. 4 . In this manner, proximal movement of thepusher 240 with respect to thehousing 210 is prevented or limited when the pusher is in its first position. As such, thedelivery device 200 is configured to prevent removal of thepusher 240 from thehousing 210 in the proximal direction. - When the pusher is in its second position with respect to the housing, the
first set 250 of retaining members can be at least partially received in thesecond set 262 of recesses and thesecond set 252 of retaining members can be at least partially received in thethird set 264 of recesses, as shown inFIG. 5 . In this manner, proximal movement of thepusher 240 with respect to thehousing 210 is prevented when the pusher is in its second position. As such, thedelivery device 200 is configured to prevent thepusher 240 from being moved or returned to its first position after actuation and delivery of thedosage form 20 from the device. - Also, in this manner, the
housing 210 and thepusher 240 are collectively configured to limit movement of the distal end portion of the top portion of thehousing 210 towards the distal end portion of the bottom portion of thehousing 210 after delivery of the dosage form from thehousing 210. More specifically, because thepusher 240 is prevented by the retaining members from moving from the pusher's second position to or towards its first position, thedistal end portion 242 of the pusher remains disposed between thedistal end portion 236 of thetop portion 230 of thehousing 210 and the distal end portion 234 of thebottom portion 232 of thehousing 210, thus inhibiting or limiting movement of the distal end portion of the top portion of thehousing 210 to or towards the distal end portion of the bottom portion of thehousing 210. Similarly stated, the distal end portion of thepusher 240 retains the top portion of thehousing 210 in its deformed state (e.g., such that the distal end portion of the top portion of the housing is moved away from the distal end portion of the bottom portion of the housing) after actuation of thedelivery device 200. - Although the
pusher 240 is illustrated and described herein as includingsets elongate body portion 249. For example, in some embodiments, a delivery device includes a pusher having retaining members only on a first side or from a single surface of the pusher'selongate body portion 249. In other embodiments, one or more retaining members can extend from an upper surface of the pusher and/or a lower surface of the pusher. - Similarly, although the housing is illustrated and described herein as including
sets - Although the
delivery device 200 has been illustrated and described herein as including two sets of retaining members on thepusher 240 and three sets of recesses defined by thehousing 210, in other embodiments, a delivery device can include any suitable number of retaining members and/or sets of retaining members (e.g., one, two, three, four or more retaining members and/or sets of retaining members), and any suitable number of recesses and/or sets of recesses (e.g., one, three, four or more recesses and/or sets of recesses). Further, in some embodiments, the retaining members can extend from one, two, three or four surfaces of the pusher. Still further, in some embodiments, a pusher of a delivery device can include a non-equal number of retaining members per surface or side of the pusher, and a housing of the delivery device can include recesses and/or openings corresponding to any suitable configuration of retaining members. - Each of the
top portion 230 and thebottom portion 232 of thehousing 210 is configured to be gripped or otherwise held by an operator during actuation of thedelivery device 200. In some embodiments, each of thetop portion 230 andbottom portion 232 can have aprotrusion elongate housing 210. For example, as shown inFIG. 3 , the top andbottom portions protrusions protrusions delivery device 200 rested thereupon during actuation of the delivery device. In this manner, thedosage delivery device 200 is configured to facilitate single-handed actuation of the device by an operator. Theprotrusions bottom portions housing 210. As shown, when thepusher 240 is moved in the distal direction with respect to thehousing 210, theelongate protrusion 248 of thepusher 240 is configured to contact theprotrusion 270 on the top portion of the housing to limit further movement of the pusher in the distal direction with respect to the housing. Similarly stated, engagement of theelongate protrusion 248 of thepusher 240 with a face or other portion of theprotrusion 270 of thetop portion 230 of thehousing 210 causes movement of the pusher in the distal direction to cease. - In some embodiments, at least one of the
top portion 230 or thebottom portion 232 of the housing includes a texturedouter surface portion 276. For example, as shown, each of thetop portion 230 andbottom portion 232 of thehousing 210 includes atextured surface portion textured surface portions delivery device 200 by an operator during actuation of the device. - In some embodiments, the
delivery device 200 is individually packaged in a container (not shown), for example, until an operator is ready to operate the delivery device to deliver the dosage form therefrom. The container can be, for example, a sealed wrapper, a foil pouch, or the like. The container can also include an oxygen absorber or scrubber therein. A label can be applied to an outer surface of the container with written and/or pictorial instructions for operation of thedelivery device 200. In some embodiments, as described in more detail herein, thedelivery device 200 can be individually packaged in the container such that thepusher 240 is separate or detached from thehousing 210. - In use, a container including the
delivery device 200 is optionally opened and the delivery device is removed therefrom. Optionally, the operator inspects the delivery device to ensure that it is unused, such as looking to see whether the locking member is coupled to the pusher, the bridge (or breakable member) is unbroken or not at least partially separated from the housing, the distal end portion of the housing is deformed, whether a distal end portion of the push rod is extended from an opening at the distal end portion of the housing and/or whether the dosage form is disposed in the housing, as described herein. Once the operator determines that the delivery device is unused, or otherwise does not appear to have been tampered with, the operator continues with the operation of the delivery device. If the delivery device is suspected of being used and/or tampered with, the device can be discarded and a second delivery device can be obtained. In an embodiment in which the pusher was separated from, or otherwise not at least partially received within the actuation pathway of, the housing in the container, the operator can insert at least a portion of the pusher into the actuation pathway of the housing. - Optionally, a locking member is removed from the pusher of the delivery device, thereby permitting the device to be actuated. For example, the first and second side portions of a locking member are moved towards each other (e.g., squeezed together) to remove flange portions of the locking member from being disposed about portions of the pusher, and then the locking member is separated or moved away from the pusher. Optionally, the locking member can be discarded.
- The
delivery device 200 is positioned with respect to a mouth of a subject (which may or may not be the operator of the device) for delivery of the dosage form to the subject's oral mucosa. The operator optionally places first and second fingers (e.g., the index and middle fingers) on the protrusions (e.g., on at least a portion of a distal facing surface of each protrusion) extended from each of the top and bottom portions of the housing, and another finger (e.g., the thumb) on the end cap of the pusher. The operator then applies an actuation force to the pusher (e.g., via the thumb) to move the pusher from its first position towards its second position. A force exerted by the pusher on the bridge of the housing at least partially breaks the bridge. Optionally, the pusher also pushes the bridge into a recess defined by the housing adjacent the channel. - A distal end portion of the pusher contacts a distal end portion of the housing, causing the housing to deform and produce an opening through which the dosage form can be expelled. A contoured surface of the distal end portion of the pusher contacts the dosage form, and moves the dosage form in a distal direction with respect to the housing to expel the dosage form through the opening produced in the housing to the subject's oral mucosa. Optionally, the delivery device is discarded after delivery of the dosage form therefrom.
- In some embodiments, as shown in
FIGS. 3 and 6 , thehousing 210 defines anaperture 278 in communication with theactuation pathway 212. Theaperture 278 can be disposed, for example, proximate to theprotrusion 270 of thetop portion 230 of thehousing 210. Theaperture 278 can be in communication with thechannel 212 defined by thehousing 210. For example, theaperture 278 can be formed by thehousing 210 at a distal end of thechannel 221. Theaperture 278 can be sized to permit passage of thedosage form 20 therethrough. - During manufacturing, the
aperture 278 can be used to pass thedosage form 20 into the actuation pathway for loading the dosage form into the delivery device. Thepusher 240 can be inserted into theactuation pathway 212 via anopening 223 at theproximal end portion 216 of thehousing 210. Thedistal end portion 242 of thepusher 240 picks up the dosage form within theactuation pathway 212 adjacent theaperture 278, and moves the dosage form to the volume at thedistal end portion 214 of the housing. Once thepusher 240 is inserted into the actuation pathway, the retaining members prevent the pusher from being retracted. - The embodiments described herein can be used with any suitable drug dosage form (or drug-containing tablet), for example, those including sufentanil compositions. Such sufentanil compositions can include any of the compositions described in U.S. Pat. No. 8,753,308, entitled “Methods for Administering Small Volume Oral Transmucosal Dosage Forms Using a Dispensing Device,” which is incorporated herein by reference in its entirety. In other embodiments, however, the devices and methods described herein can be used to deliver any other drug composition.
- The embodiments described herein can have any suitable dimensions for delivery of a dosage form to a subject, and more specifically for oral transmucosal delivery of a dosage form to a subject. For example, in some embodiments, the delivery device can include a housing (e.g., housing 210) that is about 5 cm to about 10 cm in length, about 6 cm to about 8 cm in length, or about 6.5 cm in length. The delivery device can include a pusher (e.g., pusher 240) that is about 5 cm to about 10 cm in length, about 7 cm to about 9 cm in length, or about 7.5 cm in length. In some embodiments, the pusher has a greater length than the housing. The pusher can have a height (or thickness) of about 0.05 cm to about 0.1 cm, about 0.07 cm to about 0.09 cm, or about 0.8 cm. In some embodiments, the cantilevered portion (e.g., cantilevered portion 228) of the housing (e.g., housing 210) can have any suitable length, including, but not limited to, a length of about 0.25 cm to about 2.5 cm, and more particularly a length within the range of about 0.6 cm to about 0.8 cm. For example, in some embodiments, the
housing 210 has a length of about 6.5 cm, and the cantileveredportion 228 has a length of about 0.7 cm. - The embodiments described herein can be formed or constructed of one or more biocompatible materials. Examples of suitable biocompatible materials include metals, glasses, ceramics, or polymers. Examples of suitable metals include pharmaceutical grade stainless steel, gold, titanium, nickel, iron, platinum, tin, chromium, copper, and/or alloys thereof. A polymer material may be biodegradable or non-biodegradable. Examples of suitable biodegradable polymers include polylactides, polyglycolides, polylactide-co-glycolides (PLGA), polyanhydrides, polyorthoesters, polyetheresters, polycaprolactones, polyesteramides, poly(butyric acid), poly(valeric acid), polyurethanes, and/or blends and copolymers thereof. Examples of non-biodegradable polymers include nylons, polyesters, polycarbonates, polyacrylates, polymers of ethylene-vinyl acetates and other acyl substituted cellulose acetates, non-degradable polyurethanes, polystyrenes, polyvinyl chloride, polyvinyl fluoride, poly(vinyl imidazole), chlorosulphonate polyolefins, polyethylene oxide, and/or blends and copolymers thereof.
- Further, in some embodiments, at least a portion of the delivery devices described herein can be constructed of a transparent material. For example, in some embodiments, at least a portion of the housing (e.g.,
housing 110, 210) is transparent. In this manner, the presence of the dosage form (e.g.,dosage form 10, 20) in the volume can be visually confirmed through the housing prior to actuating the device. Also in this manner, the position of the push rod can be visually confirmed through at least a portion of the housing. In some embodiments, the housing may be constructed of a non-transparent, or opaque, material, but the housing may include a window, e.g., adjacent the volume to permit visual confirmation of whether a dosage form is contained within the volume. In some embodiments, a delivery device described herein can be configured to provide a different form of indicium (e.g., auditory, tactile) indicative of the dosage form being disposed therein. For example, a delivery device be configured to emit an auditory signal (e.g., a beep, chime, word or set of words, or the like) when the delivery device detects (e.g., via a sensor or the like) the presence of the dosage form therein. In another example, the delivery device can be configured to emit, an optionally amplify, an auditory signal caused by a movement of the dosage form from within the delivery device. - While various embodiments have been described above, it should be understood that they have been presented by way of example only, and not limitation. Where schematics and/or embodiments described above indicate certain components arranged in certain orientations or positions, the arrangement of components may be modified. While the embodiments have been particularly shown and described, it will be understood that various changes in form and details may be made. Although various embodiments have been described as having particular features and/or combinations of components, other embodiments are possible having a combination of any features and/or components from any embodiment described herein.
- For example, although the
dosage delivery device pusher member 146, 196 and ahousing recess 118, 168, in other embodiments, thedosage delivery device dosage delivery device 200. - In another example, although the
pusher 240 is shown as including a contoured distal end surface, in other embodiments, thepusher 240 can include a squared, tapered, or convex distal end surface, or have a differently shaped distal end surface suitable to deliver the dosage form from the delivery device. - In another example, although the
pusher housing pusher actuation pathway delivery device 200 for administration of thedosage form 20, thedistal end portion 242 of thepusher 240 is inserted into theopening 223 at theproximal end portion 216 of thehousing 210. Thedistal end portion 242 can be advanced, or moved distally, within the actuation pathway until the pusher is in a desired position with respect to thehousing 210 and/or thedrug dosage form 20. For example, thedistal end portion 242 of the pusher can be advanced within theactuation pathway 212 until the pusher is in the first position, as described herein. At least one retainingmember pusher 240 can be sufficiently flexible or compressible with respect to theelongate body portion 249 of the pusher to permit such insertion of the pusher into theactuation pathway 212. In other words, one ormore retaining members elongate body portion 249 of the pusher when the portion of the pusher including the retaining member is inserted into the actuation pathway of thehousing 210 such that the retaining member does not interfere with insertion of thepusher 240 into thehousing 210. In some embodiments, after the pusher is inserted into the housing of the delivery device such that the pusher is moved to the first position, the pusher cannot be removed from the housing, for example, due to engagement of at least one retaining member (e.g., retainingmember recess - In another example, although the pusher has been shown and described herein as including at least one retaining member (e.g., retaining
member recess - In still another example, although the
dosage delivery device 200 shown and described herein as including a first ortop portion 230 with a deformabledistal end portion 236, in some embodiments, the second orbottom portion 232 of thehousing 210 includes a deformable distal end portion 234. The deformable distal end portion 234 of thesecond portion 232 can be similar in many respects, or identical, the deformabledistal end portion 236 of thefirst portion 230 of thehousing 210 described herein. In some embodiments, thedistal end portion 236, 234 of both thefirst portion 230 andsecond portion 232, respectively, of the housing are deformable upon actuation of thedelivery device 200. The degree or angle of deformation of each of thedistal end portions 234, 236, can be the same or different. For example, the degree of deformation of thedistal end portion 236 of thefirst portion 230 of thehousing 210 can be greater than, less than, or equal to the degree of deformation of the distal end portion 234 of thesecond portion 232 of the housing, when the delivery device is in its second configuration. - Although the devices and methods are shown and described herein as providing for delivery of a single drug dosage form via a device configured for only a single actuation, in other embodiments, the devices and methods described herein can be applicable for delivery of multiple drug dosage forms, for example, during a single actuation of the device.
- Although the devices, systems and methods are shown and described herein as providing for delivery of drug dosage forms to the oral mucosa, in other embodiments, the devices, systems and the methods described herein can be applicable for delivery of any suitable therapeutic substance to any portion of the anatomy.
- Although the devices, systems and methods are shown and described herein as providing for delivery of a single drug dosage form, in other embodiments, any of the pushrods, housing or other components can be used in conjunction with a multi-dose delivery device, such as those described in U.S. Pat. No. 8,548,623, entitled “Storage and Dispensing Devices for Administration of Oral Transmucosal Dosage Forms,” which is incorporated herein by reference in its entirety.
- In some embodiments, the pusher and/or housing designs described herein can be used in either an actual drug delivery device or a simulated drug delivery device. A simulated drug delivery device can, for example, correspond to an actual drug delivery device and can be used, for example, to train a user in the operation of the corresponding actual medicament delivery device. Such simulated device can be devoid of actual drug-containing dosage forms. For example, such a simulated device can include a placebo dosage form, a plastic tablet (or tablet of any suitable material) having a similar geometry as a drug dosage form, or the like.
- Similarly, where methods and/or events described above indicate certain events and/or procedures occurring in certain order, the ordering of certain events and/or procedures may be modified. While the embodiments have been particularly shown and described, it will be understood that various changes in form and details may be made.
Claims (21)
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EP3682915B1 (en) | 2023-03-22 |
US20180243169A1 (en) | 2018-08-30 |
EP3368097A1 (en) | 2018-09-05 |
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WO2017075532A1 (en) | 2017-05-04 |
ES2784486T3 (en) | 2020-09-28 |
PT3682915T (en) | 2023-06-26 |
DK3368097T3 (en) | 2020-04-20 |
EP3682915A1 (en) | 2020-07-22 |
CN108367105A (en) | 2018-08-03 |
MA52369A (en) | 2021-03-03 |
DK3682915T3 (en) | 2023-06-19 |
EP3368097A4 (en) | 2019-05-15 |
CN108367105B (en) | 2021-04-16 |
CN113143769A (en) | 2021-07-23 |
EP3368097B1 (en) | 2020-03-18 |
ES2947769T3 (en) | 2023-08-18 |
EP4223330A1 (en) | 2023-08-09 |
PT3368097T (en) | 2020-04-22 |
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