AU700421B2 - Fluid delivery apparatus - Google Patents

Description

Regutation 3.2 -1-

AUSTRALIA

Patents Act 1990 ~4PIJE 'I'E S P~E C IF I I QJSI S I~AJSI DA~D P2~ E N I~

APPLICANT:

NUMBER:

FILING DATE: SCIENCE INCORPORATED Invention Title: FLUID DELIVERY APPARATUS The following statement is a full description of this invention, including the best method of performing it known to me: FLUID DELIVERY APPARATUS S PE C I F I CATIO N Background of The Invention This is a Continuation In Part Application of co-pending Application serial No. 08/046,438, which is a Continuation In Part of co-pending Application Serial No. 07/987,021 which is a continuation of co-pending Application 07/870,269 which has now issued into Patent No. 5,205,820 and which is, in turn, a Continuation In Part of Application Serial No. 07/642,208 which has now issued to U.S. Patent No. 5,169,389 which is a Continuation In Part of Application Serial No. 07/367,304 Filed June 16, 1990 which has now issued to U.S. Patent No. 5,019,047 Field of The Invention The present invention relates generally to fluid delivery devices. More particularly, the invention concerns an improved apparatus for infusing medicinal agents into an ambulatory patient at specific rates over extended periods of time.

Discussion of The Invention Many medicinal agents require an intravenous route for administration thus bypassing the digestive system and precluding degradation by the catalytic enzymes in the digestive tract and the liver. The use of more potent medications at elevated concentrations has also increased the need for accuracy in controlling the delivery of such drugs. The delivery device, while not an active pharmacologic agent, may enhance the activity of the drug by mediating its therapeutic effectiveness. Certain classes of new pharmacologic agents possess a very narrow range of therapeutic effectiveness, for instance, too small a dose results in no effect, while too great a dose results in toxic reaction.

In the past, prolonged infusion of fluids has generally been accomplished using gravity flow methods, which typically involve the use of intravenous administration sets and the familiar bottle suspended above the patient. Such methods are cumbersome, imprecise and require bed confinement of the patient. Periodic monitoring of the apparatus by the nurse or doctor is required to detect malfunctions of the infusion apparatus.

Devices from which liquid is expelled from a relatively thick-walled bladder by internal stresses within the distended bladder are well-known in the prior art. Such bladder, or "balloon" type, devices are described in U.S. Patent No. 3,469,578, issued to Bierman and in U.S. Patent No.

4,318,400, issued to Perry. The devices of the aforementioned patents also disclose the use of fluid flow restrictors exter- ~nal of the bladder for regulating the rate of fluid flow from *o o. the bladder.

The prior art bladder type infusion devices are not without drawbacks. Generally, because of the very nature of bladder or "balloon" configuration, the devices are unwieldy and are difficult and expensive to manufacture and use. Further, the devices are somewhat unreliable and their fluid discharge rates are frequently imprecise.

The apparatus of the present invention overcomes many of the drawbacks of the prior art by eliminating the bladder and making use of recently developed elastomeric films, expandable foams and similar materials, which, in cooperation with a base defines a fluid chamber that contains the fluid which is to be dispensed. The elastomeric film membrane or the expandable foam member controllably forces fluid within the chamber into fluid flow channels provided in the base.

The elastomeric film materials used as well as various alternate constructions of the'apparatus of the invention are described in detail in U. S. Patent No. 5,205,820 issued to the present inventor. Therefore, U.S. Patent No. 5,205,820 is hereby incorporated by reference in its entirety as though fully set forth herein. Co-pending USSN 08/046,438 filed by the present inventor on April 13, 1993 also describes various types of expandable cellular elastomers and elastomeric foams used in making the expandable member of various physical embodiments of the invention. This co-pending application is also hereby incorporated by reference in its entirety as though fully set forth herein.

The apparatus of the invention can be used with minimal professional assistance in an alternate health care environment, such as the home. By way of example, devices of the invention can be comfortably and conveniently removably affixed to the patient's body and can be used for the continuous infusion of antibiotics, hormones, steroids, blood clotting agents, analgesics, and like medicinal agents. Similarly, the devices can be used for I-V chemotherapy and can accurately deliver'fluids to the patient in precisely the correct quantities and at extended microfusion rates over time.

One of the embodiments of the invention described in this Continuation-In-Part application comprises a rather large infusion device for infusing substantial quantities of fluids into the patient. The device in certain instances can be on the order of eight inches long and four inches wide and, therefore, cannot conveniently be attached to the arms or legs of the ambulatory patient. By providing a relatively soft, pliable device that has a unique, carefully engineered, curvilinear shape such as a kidney shape, a lenticular shape, a mesh of curves, a surface of revolution or any other shape that conforms to the anatomical configuration of the human body, proximate the point of infusion, the device can be comfortably and unobtrusively removably affixed to the patient's upper abdomen. In one form of this novel device, the stored energy source used to expel the fluid from the device includes a unique expandable sponge-like member. In another form of the invention, the device uses a distendable membrane as the stored energy source.

Another novel form of the invention described in this Continuation-In-Part includes first and second cooperating fluid chambers both driven by unique stored energy sources. This embodiment of the invention permits two or more liquid components to be stored within the device and then controllable intermixed at the time of fluid delivery. Similarly, the multi-reservoir design

S..

permits flushing of one of the reservoirs and the cannula 20 with any selected fluid.

Summary of the Invention The present invention aims to provide an alternative go. to known fluid delivery devices.

This invention resides broadly in a fluid delivery device for delivering fluids to a patient at a controlled rate including: a base having first and second portions, the base having a fluid port; a flexible barrier member overlying the base; an expandable member disposed in contact with the barrier member; cover means receivable over the base for sealably enclosing the barrier member and the expandable member, the cover member having a first interior wall portion defining a first chamber superimposed over the first portion of the base and a second interior wall portion defining a second chamber superimposed over the second portion of the base; a fluid passageway interconnecting the first and second portions of the base, the fluid passageway being in communication with the fluid port; and fluid flow means for introducing fluid between the cover means and the barrier member; the barrier member being movable from a first position proximate the first and second interior wall portions of the cover means to a second position upon 0 0 0 introduction of fluid under pressure into the fluid flow o* means, the barrier member moving the expandable member 15 from a first expanded position to a second compressed g position upon the barrier member moving to the second position.

It is preferred that the expandable member includes an elastically deformable cellular structure.

20 Alternatively the expandable member may include a polymer foam.

In a preferred embodiment the device further **includes fluid flow control means for controlling fluid oooe i flow into the fluid passageway. The fluid flow means preferably includes fluid inlet ports provided in the cover means.

In another aspect this invention resides broadly in a fluid delivery device for delivering fluids to a patient at a controlled rate including: a base having first, second and third adjacent portions and a fourth marginal portion circumscribing the first, second and third portions, the base having a fluid port; a distendable elastomeric membrane overlying the first, second and third portions of the base; cover means receivable over the base for 7 encapsulating the membrane, the cover member having a first chamber defining wall superimposed over the first portion of the base, a second chamber defining wall superimposed over the second portion of the base, a third chamber defining wall superimposed over the third portion of the base, and marginal means for urging the membrane into sealing engagement with fourth portion of the base; and a fluid passageway interconnecting the first, second and third chambers; the fluid passageway being in communication with the fluid 0:0 port of the base; the membrane being movable from a first position proximate the base to a second distended position proximate the first, second and third chamber defining walls of the cover means upon introduction of fluid under pressure into the fluid S* port of the base, the membrane in its distended position having a tendency to return to a less distended position.

It is preferred that each of the first, second and S 20 third portions of the base include upstanding protuberances engagable by the membrane when the membrane *4* is in the first position.

fluid delivery device preferably further ""*includes fluid flow control means for controlling fluid flow into the fluid passageway, the flow control means including a plurality of control mechanisms, each including an inwardly deformed wall section of the cover means, the wall section being movable between first position blocking flow into the fluid passageway to a second position permitting flow into the passageway.

It is preferred that the membrane is provided with an aperture located proximate the fluid passageway interconnecting the first, second and third chambers, and in which the device includes closure means for controlling fluid flow into the fluid passageway the closure means including: a frangible membrane superimposed over the aperture in the membrane, the frangible membrane 6.1 blocking fluid flow into the fluid passageway; and manually operable means carried by the cover means for rupturing the frangible membrane to permit fluid to flow into the fluid passageway.

Preferably the manually operable means includes a plunger carried by the cover means proximate the frangible membrane.

In a further aspect this invention resides broadly in a fluid delivery device for delivering fluids to a patient at a controlled rate including: a base having first, second and third adjacent sump-like portions and a fourth marginal portion circumscribing the first, second and third portions, the base having a fluid port; an expandable member receivable within each of the first, second and third sump-like portions; a deformable membrane overlying the expandable members; S 20 cover means receivable over the base for ."encapsulating the membrane and the expandable oooo ".-.."members, the cover member having a first reservoir defining chamber superimposed over the first portion of the base, a second reservoir defining chamber superimposed over the second portion of the base, a third reservoir defining chamber superimposed over the third position and marginal means for urging the membrane into sealing engagement with the fourth marginal portion of the base; the cover means further including first, second and third fluid inlet ports; a fluid passageway interconnecting the first, second and third reservoir defining chambers, the fluid passageway being in communication with the first, second and third inlet ports of the cover means; the membrane being movable from a first position to a second deformed position upon the introduction of fluid 6.2 under pressure into the fluid inlet ports of the cover means, the membrane moving the expandable members from a first position to a second compressed position the members having a tendency to return to their first position.

Preferably the fluid delivery device in accordance with this embodiment further includes fluid flow control means for controlling fluid flow into the fluid passageway.

In another aspect this invention resides broadly in a fluid delivery device for delivering fluids to a patient at a controlled rate including: a base having first and second adjacent portions and a marginal portion circumscribing the first and second portions, the base having a fluid port in communication with a fluid passageway; a distendable elastomeric membrane overlying the first and second portions of the base; cover means receivable over the base for encapsulating the membrane, the cover member having a first chamber defining wall superimposed over the ~first portion of the base, a second chamber defining .".wall superimposed over the second portion of the base, and marginal means for urging the membrane into sealing engagement with the marginal portion of the base; and first fluid introducing means attached to the base for introducing fluid between the distendable membrane and the first and second portions of the base, the fluid introducing means ric L±Luuir-l connector means for interconnection of container means for containing a liquid component; and (ii) container means for containing a liquid component, the container means being connectable with the connector means.

P In this embodiment of the invention the device the i ITr 6.3 connector means preferably has a fluid flow path therethrough in communication with the container means, and additive presentation means disposed within the fluid flow path, the additive presentation means being adapted to present an additive to the fluid flowing through the flow path. it is also preferred that the container means includes a vial having an internal chamber and a penetrable plunger movable within the chamber and that the additive presentation means includes a scaffold having an additive removably carried thereby.

It is also preferred that the connector means '00 further includes a hollow needle- in communication with the fluid flow path, the hollow needle being adapted to pierce the penetrable plunger, and that the fluid introducing means further includes first and second fill port means for introducing fluid between the distendable membrane and the first and second portions of the base.

.0Preferably the fill port means include septal ports.

In a further aspect this invention resides broadly in a fluid delivery device for delivering fluids to a patient at a controlled rate including: a base having first, second and third portions and a marginal portion circumscribing the first, second and third portions, the base having a fluid port in communication with a fluid passageway; a distendable elastomeric membrane overlying the first, second and third portions of the base; cover means receivable over the base for encapsulating the membrane, the cover member having a first chamber defining wall superimposed over the first portion of the base, a second chamber defining wall superimposed over the second portion of the base, a third chamber defining wall superimposed over the third portion of the base; and first fluid introducing means for introducing fluid between the distendable membrane In and the first, second and third portions of the 6.4 base, the fluid introducing means including: connector means for interconnection of container means for containing a fluid; and (ii) container means for containing a fluid, the container means being connectable with the connector means.

In a preferred embodiment of this aspect of the invention the connector means includes a connector chamber having fluid flow path therethrough in communication with the container means, and additive presentation means disposed within the fluid flow path, the additive presentation means including a substrate having an additive removably affixed thereto, whereby the additive will be added to the fluid flowing through the flow.

It is also preferred that the container means includes a vial having an internal chamber containing a diluent and a penetrable plunger movable within the chamber, that the connector means includes a hollow needle in communication with the fluid flow path, the hollow needle being adapted to pierce the penetrable plunger, and that the fluid introducing means further includes first and second fill port means for introducing fluid between the distendable membrane and the first and second portions of the base.

Brief Description of The Drawings Figure 1 is a generally perspective view of one form of the fluid dispensing apparatus of the invention.

Figure 2 is a generally perspective view of the appLaratus of Figure 1 in a assemle configuration.

Figure 3 is a top view of the apparatus.

Figure 4 is a front view of the apparatus.

Figure 5 is an enlarged cross-sectional view taken along lines 5-5 of Figure 4.

Figure 6 is a cross-sectional view similar to Figure but showing expansion of the expandable energy source member to expel fluid from the apparatus.

Figure 7 is a cross-sectional view taken along lines 7-7 of Figure 4.

Figure 8 is a cross sectional view taken along lines 8-8 of Figure 7.

Figure 9 is a generally perspective exploded view of another embodiment of the fluid dispensing apparatus of the present invention.

Figure 10 is a top view of the apparatus shown in Figure 10 in an assembled configuration.

Figure 11 is a cross sectional view taken along lines 11-11 of Figure Figure 11A is a generally perspective, exploded view of yet another form of the invention. Figure 11B is a top plan view of the device..

Figure 11C is a longitudinal, cross-sectional view of the embodiment of Figure 11B.

Figure 11D is a cross-sectional view taken along lines 11D-11D of Figure 11B.

Figure 12 is a generally perspective exploded view of another embodiment of the apparatus of the present invention.

Figure 13 is a generally perspective view of the assembled apparatus illustrated in Figure 12.

Figure 14 is a top plan view of the apparatus of this form of the invention partly broken away to show internal construction.

Figure 15 is a cross-sectional view taken along lines 15-15 of Figure 14.

Figure 16 is an enlarged cross-sectional view taken along lines 16-16 of Figure 14.

Figure 17 is a cross-sectional view taken along lines 17-17 of Figure Figure 18 is a cross-sectional view similar to Figure 17, but showing the closure indentation in a flow permitting configuration.

Figure 19 is an exploded, generally perspective view of yet another embodiment of the invention.

Figure 20 is a plan view of the apparatus partially broken away to show internal construction.

Figure 21 is an enlarged cross-sectional view taken along lines 21-21 of Figure Figure 21A is an enlarged, fragmentary, cross-sectional view of one of the fluid reservoirs and fluid flow control means of the device.

Figure 21B is an enlarged, fragmentary, (ross-sectional view of the septal inlet port of the device.

Figure 22 is an exploded, generally perspective view of still another embodiment of the invention.

9 9 9 9.

.9 9r 9.

Figure 23 broken away to show Figure 24 24-24 of Figure 23.

Figure 25 25-25 of Figure 23.

Figure 26 26-26 of Figure 23.

Figure 27 27-27 of Figure 23.

Figure 28 is a plan view of the apparatus partially internal construction.

is a cross-sectional view taken along lines is a cross-sectional view taken along lines is a cross-sectional view taken along lines is a cross-sectional view taken along lines is a cross-sectional view similar to Figure 27, but showing the closure mechanism in a depressed configuration.

Figure 29 is a cross-sectional view similar to Figure 28 but showing the closure mechanism in a released state.

Figure 30 is a generally perspective, exploded view of yet another embodiment of the fluid dispensing apparatus of the present invention.

Figure 31 is a top view of the apparatus shown in Figure 30 in an assembled configuration.

Figure 32 is a cross-sectional view taken along lines 32-32 of Figure 31.

Figure 33 is a cross-sectional view taken along lines 33-33 of Figure 31.

Figure 33A is a cross-sectional view similar to Figure 33 but showing the stored energy means in a compressed state. Figure 34 is a generally perspective exploded view of another embodiment of the apparatus of the present invention.

Figure 35 is a plan view of the appratus partly broken away to show internal construction.

Figure 36 is a cross-sectional view taken along lines 36-36 of Figure Figure 37 is a cross-sectional view taken along lines 37-37 of Figure Figure 38 is a cross-sectional view taken along lines Description of the Invention :-Referring to Figures 1 through 8, another embodiment of the invention is there shown. The apparatus of this form of the invention is similar in certain respects to the embodiments described in U.S. Patent No. 5,205,820. However, the apparatus of this later form of the invention is of a very simple construction, exhibits a unique configuration and includes a novel expandable sponge-like cellular member which functions as the stored energy source for controllably expelling beneficial agents from the device.

Turning particularly to Figure 1, the apparatus can be seen to comprise a base 12 having a novel curvilinear or kidney like geometry and an operating assembly 14 associated therewith. Operating assembly 14 comprises a thin planar barrier member 16 and a stored energy source, shown here as an expandable sponge like member 18. A cover 20 having an internal chamber 20a and a base flange 20b cooperates with base 12 to enclose the operating assembly in the manner shown in Figure A combination filling means and fluid outlet means is provided on base 12 and is used to fill the fluid reservoirs via flow passageways 21 and ports 21a and 21b p ovided in base 12 (Figures 5 and 7) with either a beneficial agent or parenteral fluid. After the reservoirs are filled, the inlet port 22 of the filling means is closed by a check valve 24 of the character illustrated in Figure 7. Valve 24 acts against a valve seat 26 formed in an outlet fitting, such as a luer fitting 28 which is affixed to base 12. A removable cap normally seals fitting 28. As shown in Figure 8, fitting 28 is provided with a plurality of circumferentially-spaced, axiallyextending flow passageways 29 within which valve member 24 is centered. Passageways 29 communicate with flow passageway 21 to permit the flow of fluid into and out of reservoirs

R.

Base member 12 includes integrally formed barrier member engagement means, or ullage means shown here as a pair of upstanding curved protuberances 34. Each of the curved protuberances 34 is provided with a longitudinally extending first fluid passageway or conduit 36. When the apparatus is assembled in the manner shown in Figure 7, passageways 36 are superimposed over and communicate with passageway 21. As indicated in Figures 5 and 7, protuberances 34 extend upwardly into fluid chambers R so as to define an ullage within the chambers. Protuberances 34 can be integrally formed with base 12 or can be attached thereto for certain applications.

Affixed to the bottom of base 12 is a cushioning means shown here as a thin, planar shaped foam pad 40. Foam pad is provided with adhesive on both its upper and lower surfaces.

the adhesive on the upper surface of pad 40 enables the pad to be affixed to the lower surface of base 12. As indicated in Figures 1 and 2, a peel strip 42 is connected to the bottom surface of foam pad 40 by the adhesive provided thereon. When the device is to be used, peel strip 42 can be sterpped away from pad 40 so that the adhesive on the lower surface of the foam pad 38 can be used to releasably affix the apparatus of the invention to the patient's skin proximately the upper abdomen. The unique shape of the device coupled with its flexibility permits it to comfortably conform to the patient's body.

The various materials that can be used to construct the various components of the device, including the base mem- .ber, the barrier member, the stored energy source and the cover are discussed in detail in Serial No. 08/046,438 which is incorporated herein by reference With the check valve having been opened by a suitable dispensing connector of a character well known in the art, fluid is first introduced into the fluid chambers R via the luer fitting and passageways 21 and 36. During the fluid dispensing step, as expandable sponge-like member 18 attempts to return to its original less compressed configuration (Figure it will force barrier member 16 to move toward engagement with the upper surface of protuberances 34 and in so doing will cause barrier member or membrane 16 to efficiently expel the fluid contained within the reservoirs from the device via passageways 36 and 21.

The configuration of protuberances 34 ensure that substantially all of the fluid within chambers R will be expelled therefrom as the expandable member returns toward its starting, uncompressed configuration. Expandable member 18 can be constructed of various materials and be configured to provide various degrees of expansion rate so as to control the rate of its return to its less compressed state thereby controlling the rate of fluid expulsion.

Cover 20 is preferably constructed from a'yieldably deformable moldable plastic and can include venting means, or apertures V, for venting gases, if any, contained within the medicinal agent. Affixed to the top of cover 20 is a medicant and use instruction label 45 which overlays apertures V and can be used to identify the medicinal fluid contained within chambers R of the device.

Turning now to Figures 9 through 11, yet another form of the apparatus of the invention is there shown. The device of this form of the invention is similar in most respects to the embodiment shown in Figures 1 through 8, save that the .5 stored energy source is not a cellular, elastomeric mass, but rather comprises a distendable membrane 50. Membrane 50 functions as the stored energy source in much the same way as do the distendable membrane constructions disclosed in U.S. Patent No. 5,205,820 which is incorporated herein by reference.

In this latest form of the invention, the operating assembly comprises the distendable membrane 50 which overlays base 12. Base 12 is of the character previously described and like membrane 50 is generally kidney shaped. Disposed between membrane 50 and cover 20 is a semi-rigid, porous structure 52 which, as best seen in Figure 11, includes concave portions 54 having interior surfaces against which membrane 50 expands as it distends into its extended configuration. As before, as membrane 50 is distended from the first position shown in Figure 11 to a position wherein it is in engagement with the interior walls of concave portions 54, internal stresses are built up which tend to return it toward its original non-distended configuration.

Suitable materials for the construction of membrane and the manner in which the membrane functions are discussed in greater detail in co-pending.application SN 08/046, 4 3 8 *:09 i Cover 20 cooperateswith base 12 to enclose the operating assembly in the manner shown in Figure 11 and is provided with combination filling means and fluid outlet means for filling the fluid reservoirs R via flow passageways 21 provided in base 12 (Figures 5 and After the reservoirs are filled, the inlet port 22 of the filling means is closed by a check valve 24 of the character illustrated in Figure 7. As before, valve 24 acts against a valve seat 26 formed in an outlet fitting, such as a luer fitting 28. A removable cap normally seals fitting 28.

Materials suitable for the construction of distendable membrane 50 and porous structure 52 are identified in U.S.

Patent No. 5,205,820 which is incorporated herein by reference.

In operation of the device, fluid is introduced into the fluid chambers R via the luer fitting and passageways 21 and 36 causing membrane 50 to distend into concave portions 54.

During the fluid dispensing step and with the check valve suitably opened by an interacting dispensing connector of a character well known in the art, as distendable membrane 50 attempts to return to its original non-distended configuration (Figure 11), it will move toward engagement with the upper surface of protuberances 34 and in so doing will controllably expel the fluid contained within the reservoirs from the device via passageways 36 and 21.

As best seen in Figure 2, external flow rate control means R-C are provided in infusion line L and function to precisely control the rate of fluid flow toward the patient. As also indicated in Figure 2, porous structure 52, like sponge member 18, is of a character that, in cooperation with cover will function as venting means including apertures V for venting gases, if any, which are contained within the medicinal agent. Affixed to the top of cover 20 is a medicant and use instruction label 45 which may be breathable and covers apertures V and can be used to identify the medicinal fluid contained within chambers R of the device.

As was the case with the previously described embodiment, the unique shape of the device coupled with its flexibility permits it to comfortably conform to the patient's body.

When worn under clothing, the device will not create an unsightly bulge thereby making I ideally suited for use by ambulatory patients.

Referring to Figures 11A through 11D, still another embodiment of the invention is there shown. The apparatus of this form of the invention is similar in many respects to the embodiment shown in Figures 1 through 8 and like numbers are used to identify like components. This latest form of the invention also uses an expandable sponge-like assembly 55 as the stored energy source. However, here the position of the stored energy source and the barrier membrane are reversed so that the fluid within the internal reservoir is visible through the transparent cover member 56. Assembly 55 is here made up of two separate cellular sponge-like members 55a and Turning particularly to Figure 11A, the apparatus of this form of the invention can be seen to comprise a base 57 having a novel curvilinear or kidney like geometry and an operating assembly associated therewith. The operating assembly here comprises a thin planar barrier member 16 which cooperates with the previously identified stored energy source, or expandable sponge-like assembly 55. Cover 56 is provided with an internal chamber 56a and a base flange 56b which cooperates with base 57 to enclose the operating assembly in,0the manner shown in Figures 11C and 11D.

As before, combination filling means and fluid outlet means is provided on base 57 and is used to fill the fluid reservoirs via flow passageways 58 provided in base 57 (Figure 11C) with either a beneficial agent or parenteral 9 fluid. After the reservoirs are filled, the inlet port "IP" of the filling means is closed by a check valve 24 of the character'previously described. Valve 24 acts against a valve seat 26 formed in an outlet filling, such as a luer filling 28 which is affixed to base 57. A removable cap 30 normally sea fitting 28. As before, fitting 28 is provided with a plurality of circumferentially-spaced, axially-extending flow passageways 29 within which valve member 24 is centered (see Figure 8).

In this latest embodiment, cover member 56 rather than the base member, includes integrally formed barrier member engagement means, shown here as a pair of side by side chambers 59a and 59b. Each of the chambers is provided with a longitudinally extending first fluid passageway or conduit When the apparatus is assembled in the manner shown in Figure liC, conduits are superimposed over and communicate with reservoirs Affixed to the bottom of the base 57 is a cushioning means shown here as a thin, planar shaped foam pad 40. A peel strip 42 is connected to the bottom surface of foam pad 40 by the adhesive provided thereon. When the device is to be used, peel strip 42 can be stripped away from pad 40 so that the adhesive on the lower surface of the foam pad can be used to releasably affix the apparatus of the invention to the patient's skin proximately the lower abdomen. Once again, the unique shape of the device coupled with its flexibility permits it to comfortably conform to the patient's body. *1 With the check valve having been opened by.a suitable dispensing connector of a character well known in the art, fluid is first introduced into the fluid chambers via the luer fitting and passageways 58. During the filling step, expandable sponge-like members 55a and 55b are forced by barrier member 16 to move from the extended position shown in Figures 11C and 11D into a more compressed configuration. During the dispensing step, members 55a and 55b force barrier member 16 to move from the position shown by the phantom lines in Figures 11C and 1D outwardlyv and in so doing cause barrier member or membrane. 16 to efficiently expel the fluid contained within the reservoirs from the device via conduits C and passageways 58.

The configuration of chambers 56a and 56b ensure that substantially all of the fluid within chambers will be expelled therefrom as the expandable members return toward their starting, less compressed configuration shown in the drawings.

As previously mentioned, cover member 56 is constructed of materials which are substantially transparent so that the fluid contained within filled reservoirs is visible to the user of the device at the time of infusion or fluid expulsion.

Referring to Figures 12 through 18, another embodiment of the invention is there shown. The apparatus of this form of the invention is similar in certain respects to the last described embodiment. However, the apparatus of this later form of the invention uniquely includes first and second spaced apart reservoirs with first and second liquid components being contained within the reservoirs.

Turning particularly to Figures 12 and 13, the apparatus of this latest form of the invention, which is generally designated by the numeral 60, can be seen to comprise a base 62 having a first portion 64, a second portion 66, a third portion 68, which is disposed intermediate portions 64 and 66, and a fourth marginal portion 70 which circumscribes the first, second and third portions. Base 62 is preferably constructed of a thin moldable thermo plastic material which can be thermo formed into the cross-sectional configuration shown in Figure 15. More particularly, first portion 64 of the base is molded so as to have an upstanding central portion 64a which is provided proximate its center with a depression 64b. Depression 64b is defined by intersecting angularly extending walls 64.

and 64d. Provided in wall 64c is a fluid inlet 74. As best *aad seen in Figure 15, intermediate portion 68 as well as marginal portion 70 is generally flat.

Overlying base 62 is a distendable member shown here o4 6 as an elastomeric, generally planar distendable membrane 77.

Superimposed over base 62 and membrane 77 in a membrane clamping relationship is a formed cover means, or cover assembly 79 which is also preferably constructed of a heat formable thermo plastic material. It is to be understood that both base 62 and cover assembly 79 can be constructed from a wide variety of materials and can be sealably interconnected with membrane 77 in a number of ways well known in the art including mechanical, adhesive and thermo bonding. Affixed to the cover member is a use and instruction label 45 of the character previously described (Figure 14). When cover means 79 is interconnected with base 62 in the manner shown in Figure 13, the cover means sealably encapsulates membrane 77. More particularly, as best seen in Figure 15, the central portion 79a of cover 79 clamps and seals membrane 77 securely against the third intermediate portion 68 of base 62. In similar fashion, the marginal portion 79b of cover 79 sealably clamps the marginal Aortions of membrane 77 against the fourth marginal portion of base 62 which circumscribes portions 64 and 66.

Referring both to Figures 12 and 15, it can be seen that the cover member 77 is provided with a first reservoir defining chamber 82 which is superimposed over portion 64 of base 62 and a second reservoir defining chamber 84 which is .disposed over second portion 66 of base 62. In the manner presently to be described, the inner walls of these chamberdefining portions provide engagement surfaces for engagement by .distendable membrane 77 when membrane is distended from a first position in which it is proximate base 62 to a second distended position in which the membrane moves proximate the interior walls of chamber defining portions 82 and 84 of cover 79. As illustrated in Figures 12, and 15, cover 79 is provided with a fluid inlet port 86 which communicates with the interior of a reservoir R-1. Reservoir R-l is formed between portions 19 66 of base 62 and the interior surface 77a of membrane 77. In similar fashion, when the membrane is in a further distended configuration, the membrane cooperates with first portion 64 of base 62 to define a second reservoir R-2. With this construction, reservoir R-2 can be filled via septal port 74a. As fluid flows into the reservoir, distendable membrane 77 will be distended from the first position wherein it is in engagement with the base to the second position shown in Figure 15 wherein it cooperates with the base to define reservoir R-2. In similar fashion, fluid can be introduced through septal port 86 to move the distendable membrane from a first position in engagement with portion 66 of base 62 into the second position shown in Figure 15 wherein it cooperates with the base to define reservoir R-l.

Reservoirs R-l and R-2 can communicate ,"with each other via a fluid passageway 90 that is provided in.cover 79.

As indicated in Figure 17, passageway 90 is normally closed by a downwardly deformed generally frustoconically shaped wall section 79c provided in cover member 79. This deformed wall section is closely received within a generally hemispherically shaped depression 62a formed in base 62. When wall section 79c is in its deformed configuration, a small section 77b of membrane 77 is sealably clamped against the interior wall of depression 62a in a manner to prevent fluid flow through passageway Turning now to Figure 18, it is to be noted that an :upward manual pressure exerted on the exterior wall of depression 62a in the direction of the solid line arrow in Figure 18, will cause deformed wall section 79c of the cover means to move upwardly from the first position shown in Figure 17 to the second position shown in Figure 18 thereby opening passageway to fluid flow. When passageway 90 is in the open or fluid flow configuration, fluid can flow freely from reservoir R-l to reservoir R-2.

By way of example, in using the device of this latest form of the invention, reservoir R-2 is filled with a first fluid component by means of a fluid conduit 93 which is interconnected with fluid inlet 74 (Figure 15). As fluid flows into inlet 74, distendable membrane 77 will be distended into the configuration shown in Figure 15 thereby filling reservoir R-2 with the first liquid component. Reservoir R-l can be filled with a second fluid component by introducing the second fluid component into fluid inlet 86 provided in cover 79. As the second component flows into inlet 86, it will distend the distendable membrane 77 into the distended configuration shown in Figure 15 thereby filling reservoir R-l with tlke second component. Membrane 77 can be specifically tailoreso as to provide differential stresses and differential areas of stored energy densities as between reservoirs R-l and R-2 and thereby enabling fluid flow between the reservoirs. Initially fluid cannot flow between reservoirs R-l and R-2 because of the S. closure means which is here provided in the form of the deformable wall section 79c of cover 79.

When it is desired to intermix the fluids within R-l and R-2, an upward pressure is exerted against the external surface of depression 62a formed in the base. This causes wall section 79c to move upwardly in the manner shown in Figure 18 so as to open passageway 90 to fluid flow in the manner shown in Figure 18. With the passageway open, fluid under pressure within chamber R-1 can rapidly flow into partially filled reservoir R-2 via rate control means RC-1 and intermix with or provide a washing action to the fluid component contained within reservoir R-2. After the fluid components, which may be beneficial agents of the character defined in USSN 08/046,438, have been intermixed, conduit 93, which has been closed by a standard closure clamp or other valve means 95 of a character well known to those skilled in the art, is opened permitting the intermixed fluid now contained within reservoir R-2 to flow outwardly of the device via rate control RC-2 through conduit 93. Rate control means RC-1 and RC-2 can comprise hydrophillic porous masses of a character well known in the art.

In addition to using the device of this latter form of the invention for fluid mixing and simultaneous delivery of first and second components, the device can also be used for sequentially delivering the first and second components.

Turning now to Figures 19 through 21, yet another embodiment of the invention is there shown and generally designated by the numeral 100. The apparatus of this form of the invention is very similar in construction to the last described embodiment and like components are identified with like numbers. However, the apparatus of this later form of the invention embodies a slightly different closure means for controlling fluid flow through the fluid passageway that connects the two reservoirs of the apparatus. Superimposed over portion 110 of base 102 is a first elastomeric membrane 117.

Superimposed over portion 106 of base 102 is a second elastomeric generally planar distendable membrane 119 which is somewhat smaller that membrane 117. Membranes 117 and 119, which may have different operating characteristics, are provided with indexable apertures 117a and 119a respectively. Disposed intermediate and sealably affixed to membranes 117 and 119 and covering the apertures therein, is a frangible membrane 121, the purpose of which will presently be described.

Superimposed over base 102 and membranes 117, 119 and 121 is a formed cover means, or cover assembly 124 which is also a preferably constructed of a heat formable thermo plastic material. When cover means 124 is interconnected with base 102 in the manner shown in Figure 21, the cover means sealably encapsulates the membranes. More particularly, as best seen in Figures 19 and 21, the central portion 124a of cover 124 clamps membranes 117 and 119 securely against the third intermediate portion 108 of base 102. In similar fashion, the marginal portion 124b of cover 124 sealably clamps the marginal portions of the membranes against the fourth marginal portion of base 102 which circumscribes portions 104 and 106. Once again, the cover means and base can be sealably interconnected with the membranes by various mechanical, bonding and thermo welding techniques. Cover assembly 124 is also provided wiiA suitable vent means for venting reservoirs R-l and R-2. As before, the vent means are covered by a breathable, hydrophobic medicament and use label 45 and a cover patch 45a (see Figure 21A).

Referring both to Figures 19 and 21, it can be seen that the cover member 124 is provided with a first reservoir defining chamber 130 which is superimposed over upraised .port tion 104 of base 102. A second reservoir defining chamber 132 is formed in base 102 below second portion 106. In the manner presently to be described, the inner walls of these two chamber-defining portions provide engagement surfaces for engage- 4ment by distendable membranes 117 and 119 when the membranes are distended from a first planar position to a second more distended position in which the membranes move into proximity with the interior walls of chamber defining portions 130 and 132.

As illustrated in Figure 20, cover 124 is provided with a fluid inlet port 136 which comprises a septal port of standard design which is selably connected to cover 1 24 and base 102 and communicates with the interior of a reservoir R-1.

Reservoir R-l is formed between a top wall portion 137 of cover 127 (Figure 19) and the interior surface 119a of membrane 119.

In similar fashion, when membrane 117 is in its more distended configuration, the membrane cooperates with first portion 104 of base 102 to define a second reservoir R-2. With this construction, reservoir R-2 can be filled through an inlet port 140 which is sealably connected to base 102 and which, as shown in Figure 21B, comprises a septal port 140a pierceable by either a needle or a blunt cannula. As fluid flows into this inlet port, distendable membrane 117 will be further distended from the first position wherein it is in engagemet with the base to the second position shown in Figure 21'.wherein it cooperates with the base to define reservoir R-2. In similar fashion, fluid can be introduced through inlet port 136 to move distendable membrane 119 from a first generally planar position into the second position shown in Figure 22 wherein it cooperates with the cover to define reservoir R-l.

Reservoirs R-l and R-2 can communicate with each other via a fluid passageway 147 (Figure 21) that is provided between base 102 and cover 124. However, passageway 147 is :.normally closed by frangible membrane 121 which covers apertures 117a and 119a and blocks fluid flow therethrough. Turning to Figures 19 and 20, it is to be noted that cover 124 is provided with an upstanding push button like protuberance 149 which is disposed directly over frangible membrane 121. When a downward pressure is exerted on protuberance 149, frangible membrane 121 will be ruptured by member 149a (see Figure 21A) thereby permitting fluid to flow freely through passageway 147 from reservoir R-l to reservoir R-2.

In using the device of this latest form of the invention, reservoir R-2 can be partially filled with a first fluid component via inlet 140 (Figure 20). As fluid flows into inlet 140, distendable membrane 117, which can have a first operating characteristic, will be distended part way into chamber 130 thereby partially filling reservoir R-2 with the first component. Reservoir R-l can be filled with a second fluid component by introducing the second fluid component into fluid inlet 136 provided in cover 124. As the second component flows into inlet 136, it will distend the distendable membrane 119 which can have a second operating characteristic, downwardly into the distended configuration shown in Figure 21 thereby filling reservoir R-l with the second component. Initially fluid cannot flow between reservoirs R-l and R-2 because of the closure means which is here provided in the form of frangible membrane 121.

When it is desired to intermix the fluids within R-l and R-2, a downward pressure is exerted against protuberance 149. This causes member 149a to rupture frangible membrane 121 thereby permitting fluid to flow through apertures 117a and 119a. With the indexed apertures opened to fluid flow, fluid under pressure within chamber R-l can rapidly flow into reser- :"voir R-2 and intermix WA% &he flid component contained within reservoir R-2. The operating characteristics of membrane are designed so that the fluid flowing from reservoir R-l toward reservoir R-2 will be of sufficient pressure to further distend membrane 117 into chamber 130 as the fluids are intermixed.

A

third fluid component can now be introduced into reservoir R-2 via either septal port 136 or 140 and intermixed with the first and second previously mixed components. This step further distends membrane 117 to the position shown in Figure 21.

After the fluid components, which may be medicaments, parenteral liquids, enteral liquids, or beneficial agents of the character as defined in USSN 08/046,438, have been intermixed, outlet 114, which has been closed by a cap 151 (Figure 19) and by a standard check valve 114a of a character well known to those skilled in the art, can be opened. With outlet 114 open to fluid flow, the intermixed fluid now contained within reservoir R-2 can freely flow outwardly of the device as a result of the action of the second stored energy source or distended membrane 117.

Turning now to Figures 22 through 29, yet another embodiment of the invention is there shown. The apparatus of this form of the invention is similar in some respects to the last described embodiment. However, the apparatus of this later form of the invention uniquely includes first, second and third spaced-apart reservoirs that may contain first and third liquid components that may be intermixed for simultaneous delivery or they may be sequentially delivered for certain types of treatment.

Turning particularly to Figures 22, 23 and 24, the apparatus of this latest form of the invention, which is generally designated by the numeral 160, can be seen to comprise a base 162 having a first portion 14, a second portion 166, a third portion 168, which is disposed intermediate portions 164 .000 and 166, a fourth portion 169 and a fifth marginal portion 170 which circumscribes the first, second, third and fourth portions. As before, base 162 is preferably constructed of a thin moldable thermo plastic material which can be thermo formed into the cross-sectional configuration shown in Figure 24.

More particularly, first, second and fourth portions 164, 166 and 169 of the base are molded so as to have upstanding central portions which are provided with fluid passageways 164a, 166a and 169a respectively. Provided in side wall 162a of base 162 are fluid inlets comprising channels 174a, 174b and 174c which are adapted to sealably receive fill port means for filling the reservoirs of the device in a manner presently to be described.

The fill port means are here shown as septum assemblies 177a, 177b and 177c of standard construction (see also Figure As best seen in Figure 24, the portion intermediate of portions 164 and 166 and the portion intermediate of portions 166 and 169, as well as marginal portion 170, are generally flat. Base 162 is provided with a dispensing means or outlet port assembly 180, the configuration of which is best seen in Figures 22, 23, and 26. The details of this outlet port assembly will be described presently.

Overlying base 162 is a deformable member shown here as an elastomeric, generally planar distendable membrane 184.

Superimposed over base 162 and membrane 184 in a membrane clamping relationship is a formed cover means, or cover assem- 9bly 186 which is also preferably constructed of a heat formable thermo plastic material. It is to be understood that both base 162 and cover assembly 186 can be constructed from a wide *99* variety of materials and can be sealably interconnected with Smembrane 184 in a number of ways well known in the art including mechanical, adhesive and thermo bonding. Affixed to the cover member is a use and instruction label 45 of the character previously described. When cover means 186 is interconnected with base 162 in the manner shown in Figure 24, the cover means sealably encapsulates membrane 184. More particularly, as best seen in Figure 24, the central portions of the cover clamp membrane 184 securely against the flat base portions disposed between upstanding portions 164, 166 and 169.

Referring both to Figures 22 and 24, it can be seen that the cover member 186 is provided with a first reservoir defining chamber 190 which is superimposed over portion 164 of base 162, a second reservoir defining chamber 192 which is disposed over second portion 166 of base 162, and a third reservoir defining chamber 194 which is disposed over third portion 169. In the manner presently to be described, the inner walls of these chamber-defining portions provide engagement surfaces for engagement by distendable membrane 184 when the membrane is distended from a first position in which it is proximate base 162 to a second distended position in which the membrane moves into proximity with the interior walls of chamber-defining portions 190, 192, and 194 of cover 186. As be t seen in Figures 22, 23, 24 and 26, outlet port assembly 180 communicates with the interior of reservoirs R-l, R-2 and R-3 via passageway 195 (Figure 23). Reservoirs R-l, R-2 and R-3 are formed between portions 164, 166 and 169 of base 162 and the interior surface 184a of membrane,184 in the manner shown in Figure 24. With this construction, reservoir R-1 can be filled through inlet port or septum 177a, reservoir R-2 can be filled through inlet port or septum 177b and reservoir R-3 can be 999 filled through septum 177c. As fluid is introduced into each iOA ho A~iite nded of the reservoirs, distendable membrane 184 wl be distendedfrom the first position wherein it is proximate the base to the second position shown in Figure 24 wherein it cooperates with the base to define the three reservoirs. It is to be understood that the reservoirs can be filled at any desired time with any desired liquid including parenteral fluids, pharmaceuticals or other types of medicaments or chemical agents.

Reservoirs R-l, R-2, and R-3 communicate with passageway 195 via stub passageways 195a, 195b, and 195c respectively. Each of the stub passageways is provided with check valves 197 which control fluid flow therethrough. Passageways 195a, 195b, and 195c include closure means, shown here as push button type closure mechanisms 100. As best seen in Figures 22 and 27, each of the closure mechanisms comprises a frangible disk 102 which is superimposed over membrane 184 and a molded boss 104 (Figure 22) which is strategically located on base 162. As indicated in Figure 27, disk 102 in cooperation with membrane 184 normally blocks fluid flow through the stub passageway with which it is associated (here shown as 195a). Covering disk 102, membrane 184 and boss 104 is an accordion-like, yieldably deformable cover section 106 which can be depressed downwardly by the user's finger in the manner shown in Figure When section 106 is deformed, frangible cover membrane 107 is ruptured and disk 102 is clamped against membrane 184 and boss 104 causing the disk to be crushed in the manner shown in Figure 28. When pressure on Section 106 is released as shown in Figure 29, fluid can freely flow past boss 104 and inflated membrane 184 through the stub passageway and into passageway 195. Each of the closure mechanisms is of identical construction and operation to that just described so that each of the stub passageways 195a, 195b and 195c can be selectively opened to permit fluid flow into passageway 195. Each of the reser- :voirs can be vented by vent means comprising vent apertures

V-

1, V-2, and V-3 (Figure 22) provided in cover 186. Aperture

V-

1 is covered by breathably label 45 while apertures V-2 and V-3 are covered by vent patches L-l and L-2 respectively.

By way of example, in using the device of this latest 29 form of the invention, reservoir R-l can be filled with a first fluid component by means of septal port 177a. As fluid flows into the reservoir, distendable membrane 184 will be distended into the reservoir. Reservoir R-2 can next be filled with a second fluid component via septal port 177b. As the second component flows into R-2, membrane 184 will distend into the distended configuration shown in Figure 24 thereby filling reservoir R-2 with the second component. Next, reservoir R-3 can be filled with a third.

After the three fluid components, which may be parenteral fluids, beneficial agents or chemical elements of the character defined in USSN 08/046,438, have been introducted into reservoirs R-1, R-2 and R-3, outlet port assembly 180 can be operated to dispense fluid from the device. As seen in Figure 26, assembly 180 which includes a check valy 180a that blocks fluid flow outwardly from the device via the.dispensing port 180b. Assembly 180 is operated by first removing closure cab 180c and opening check valve 180a using a dispensing connector of a type well known to those skilled in the art. With check valve 180a open, fluid will flow outwardly of the device *0 0via port 180b and a cannula connected to the patient due to the urging of distended membrane 184 as it returns to its less distended starting configuration.

In addition to using the device of this latter form Sof the invention for seential delivery of the first, second and third components, the device can also be used for simultaneously delivering the first, second and third components when mechanisms 100 are operated simultaneously.

Referring to Figures 30 through 33, still another embodiment of the invention is there shown. The apparatus of this form of the invention is similar in many respects to the embodiment just described and like numbers are used to identify like components. However, unlike the embodiment of Figures 22 through 29, the apparatus of this later form of the invention does not use a distendable membrane as an energy source to expel fluid from the three reservoirs. Rather, the device of this embodiment includes a novel expandable sponge-like assembly 300 which functions as the stored energy source. Assembly 300 is made up of three sponge-like, cellular members 300a and 300b and 300c.

Turning particularly to Figures 30, 31 and 32, the apparatus of this latest form of the invention, comprises a base 302 having a first sump-like recessed portion 304, a second sump-like recessed portion 306, a third portion 308, which is disposed intermediate portions 304 and 306, a fourth sump-like recessed portion 310 and a fifth marginal portion 312 which circumscribes the first, second, third and fo-rth portions. As before, base 302 is preferably constructed of a thin moldable thermo plastic material,which can be thermo formed into the cross-sectional configuration shown in Figure 32.

First, second and fourth portions 304, 306 and 310 receive sponge members 300a, 300b and 300c respectively and are provided with vent means or vent apertures which are initially o@ covered with breathable sealing patches *As best seen in Figure 31, provided in side wall 317a of cover assembly 317 are fluid inlets comprising channels 320a, 320b and 320c which are adapted to sealably receive fill port means for filling the reservoirs of the device in a manner presently to be described. The fill port means are here shown as septum assemblies 322a, 322b and 322c of standard construction (see also Figure 31). In a manner presently to be described, the fluid inlets communicate with reservoirs R-l, R-2 and R-3.

Overlying sponge members 300a, 300b and 300c is a deformable barrier member shown here as barrier membrane 327.

Superimposed over barrier membrane 327 and base 302 in a membrane clamping relationship is the previously identified cover means, or cover assembly 317 which is preferably constructed of a heat formable thermo plastic material. When cover means 317 is interconnected with base 302 in the manner shown in Figure 32, the cover means sealably encapsulates barrier membrane 327 as well as the stored energy source, or members 300a, 300b, and 300c. More particularly, as indicated in Figure 32, the central portions of the cover clamp membrane 327 securely against the flat base portions disposed between the sponge receiving recesses.

Referring both to Figures 30 and 32, it can be seen that the cover member 317 is provided with a first.reservoir defining chamber 319 which is superimposed over portion 304 of base 302, a second reservoir defining chamber 321 which is disposed over second portion 306 of base 302, and a third reservoir defining chamber 323 which is disposed over fourth portion 310. In the manner presently to be described, the inner walls of these chamber-defining portions provide engagement surfaces for engagement by barrier membrane 327 when the membrane is expanded from a first generally planar position shown by the phantom lines in Figure 32 to a second expanded position in which the membrane resides proximate the interior walls of chamber-defining portions 319, 321, and 323 of cover 317. As best seen in Figures 30 and 31, an outlet port assembly 180, of the character previously described, communicates with the interior of reservoirs R-l, R-2 and R-3 via passageway 195 and aperture 327a provided in membrane 327. With this construction, reservoir R-l can be filled through inlet port or septum 322a via passageway 319a. Reservoir R-2 can be filled through inlet port or septum 322b via passageway 321a and reservoir R-3 can be filled through septum 322c and passageway 323a (see Figure 33A). As fluid is introduced into each of the reservoirs, barrier membrane 327 will compress the sponge members 300a, 300b and 300c from a first extended position shown in Figure 32 to a second more compressed position shown in Figure 33A. It is to be understood that the reservoirs can be filled at any desired time with any desired liquid including parenteral fluids, pharmaceuticals or other types of medicaments or chemical agents.

As before, reservoirs R-l, R-2, and R-3 communicate with passageway 195 via stub passageways 195a, 195b, and 195c respectively. Each of the stub passageways are provided with rate control means 197 which control the rate fluid flow therethrough. Passageways 195a, 195b, and 195c are provided with closure means, shown here as push button type closure mechanisms 100 of the character previously described. Each of the closure mechanisms comprises a frangible disk 102 and each is operated in the same manner as described in connection with the embodiment of the invention shown in Figures 22 through 29.

As was the case with the earlier described embodiment, the device of this latter form of the invention can be .9* used for sequential or simultaneous delivery of first, second and third components.

Turning to Figures 34 through 38, yet another embodiment of the invention is there shown. The apparatus of this form of the invention is a three-reservoir construction similar in some respects to the embodiment described in Figures 22 through 29. However, the apparatus of this later form of the invention uniquely includes means for interconnecting medicament vials with the three reservoirs and for adding to the fluid contained within the vials selected additives of the character described in Serial No. 08/046,438.

Turning particularly to Figures 34, 35 and 36, the apparatus of this latest form of the invention, can be seen to comprise a base 402 having a first portion 404, a second portion 406, a third portion 408, which is disposed intermediate portions 404 and 406, a fourth portion 409 and a fifth marginal portion 410 which circumscribes the first, second, third and fourth portions. As before, base 402 is preferably constructed of a thin moldable thermo plastic material which can be injection molded into the cross-sectional configuration shown in Figure 36. More particularly, first, second and fourth portions 404, 406 and 409 of the base are molded so"as to have upstanding central portions which are provided'.with fluid passageways or fluid channels 404a, 406a and 409a respectively.

Provided on base 402 are connector means for interconnection of container means for containing a liquid component. The connector means are here shown as comprising chambers 414a, 414b and 414c which are adapted to mateably receive container means, such as medicament vials 416, for containing a first liquid component. Vials 416 are adapted to be mated with chambers 414a, 414b, and 414c to accomplish filling the reservoirs of S^ d--evice in a manner presently to be described. The reservoirs can also be filled via fill port means, here shown as septum assemblies 417a, 417b and 417c which are of the standard construction previously described herein.

Base 402 is provided with a dispensing means or outlet port assembly 420, the configuration of which is best seen in Figure 35. The details of this outlet port assembly 34 will be described presently.

Overlying a portion of base 402 is a deformable member shown here as an elastomeric, generally planar distendable membrane 422 which is of the character previously described herein and in Serial No. 08/046,438. Superimposed over a portion of base 402 and membrane 422 in a membrane clamping relationship is a formed cover means, or cover assembly 424 which is preferably.constructed of a heat formable thermo plastic material. Affixed to the cover member are breathable patches 45, L-l and L-2 of the character and function previously described. When cover means 424 is sealably interconnected with base 402 in the manner shown in Figures 35 and 36, the cover means sealably encapsulates membrane 422 which, in turn, is sealably connected at the stratigic areas to base 402 (Figures 35 and 36). Upraised portions 424a, 424b, Ind 424c (Figure 34) are closely received over the neck portions of chambers 414a. 414b, and 414c in the manner indicated in Figure 37.

Q ;Referring to particularly Figure 34, it can be seen that cover member 424 is provided with a first wall defining a first chamber 428 which is superimposed over portion 404 of base 402. Cover member 424 also includes a second wall defining a second chamber 430 which is disposed over second portion 406 of base 402. Third walls define a third chamber 432 which is disposed over portion 409. As before, the inner walls of these chamber-defining portions provide engagement surfaces for engagement by distendable membrane 422 when the membrane is distended from a first position wherein it is proximate base 402 to a second distended position wherein it moves into proximity with the walls defining chambers 428, 430, and 432 of cover 424. As best seen in Figures 34 and 35, outlet port assembly 420 communicates with the interior of reservoirs R-l, R-2 and R-3 via passageway 435 (Figure 35). Reservoirs R-l, R- 2 and R-3 are formed between portions 404, 406 and 409 of base 402 and the interior surface 422a of membrane 422 in the manner shown in Figure 36.

With the construction described, reservoir R-l can be filled via the fluid introducing means of the invention which includes connector means or chamber 414a or it can be filled via septum 417a. Similarly, reservoir R-2 can be filled via the connector means or chamber 414b or alternatively it can be filled via septum 417b. In like manner, reservoir R-3 can be filled via septum 417c or filled via chamber 414c. In certain applications, one or more of the reservoirs can also be filled via septum 435d which is provided at one end of passageway 435 (Figure 35). As fluid is introduced .via the fluid inProducing means between membrane 422 and each of the first, decond and third portions of the base, distendable membrane 422 will be distended from the first position wherein it is proximate the base to the second position shown in Figures 36 and 37 wherein it cooperates with the base to define the three reservoirs of this form of the invention. As indicated in Figure 34, the various septal ports are normally covered by removable caps Reservoirs R-l, R-2, and R-3 communicate with passageway 435 via stub passageways 435a, 435b, and 435c respectively. Each of the stub passageways is provided with flow rate control means which control fluid flow therethrough. The flow rate control means are here shown as control mechanisms 440, each of which comprises an internally threaded, upstanding cylindrical body portion 440a. As best seen in Figure 38, body portion 440a is integrally formed with base 402 and is adapted to threadably receive a control knob 442 having a terminal portion 442a which is substantially sealably receivably within passageway 435. By threading knob 442 inwardly and outwardly of threads portion 442a can be moved inwardly and outwardly of flow passageway 435 and in this way can block or precisely control the rate of flow of fluid flowing through the passageway. An elastomeric 0 ring 440b is provided in portion 440a to prevent leakage past the neck of knob 442.

As before,each of the reservoirs can be vented by vent means comprising vent apertures V-l, V-2, and V-3 (Figure 34) provided in cover 424. Aperture V-l is covered by label while apertures V-2 and V-3 are covered by breathable patches L-l and L-2 respectively.

Referring particularly to Figures 34 and 35, chambers 414b and 414c which form a part of the connector means of the invention, each have an additive-containing chamber!.450 for containing an additive presentation means such as a scaffold or substrate generally designated in Figure 35 by the numeral 452.

The additive presentation means or substrate 452 can be any type of substrate of the character shown in Figure 45 of copending USSN 08/046,438.

Each chamber 414a, 414b and 414c functions as a part of the connector means of the invention and each has a fluid flow path therethrough. Additive presentation means are provided within the fluid flow path of chambers 414b and 414c in the manner shown in Figure 35. Each of the chambers also has first and second ends, one of which communicates with one of the reservoirs and the other of which is initially sealed by a removable, tear-type sterility plastic cap or cover 453 (Figure o 34). The chambers can be integrally molded with base 402 or they can comprise a glass vial connected to the base or, alternatively they can comprise any other suitable sterile container for housing the additive presentation means and for providing means for the interconnection therewith of the container means such as elution vials 416.

Containers, or elution vials 416, may be of the general character described in copending applicaton Serial No.

07/986,375 and illustrated therein in Figures 1, 3, 4, 5 and 8 (numeral 16). Application Serial No. 07/986,375 is incorporated herein by reference. Containers 416 are preferably sterile containers that include a fluid reservoir 416a (Figure for containing the liquid component or parenteral fluid of the character defined in copending Serial Nos. 08/046,438 and 07/983,375.

During the mixing step, containers 416 are telescopically receivable with one of chambers 414b or 411c in the manner shown in Figure 35. In the present form of the invention, each chamber 416a is closed by a penetrable piston 456 which is telescopically movable within chamber 416a from a first forward position to a rearward position proximate the closed end of container 416. Piston 456 is provided with a plurality of circumferentially extending sealing beads 456a which sealably engage the inner walls 416a of container 416 as the piston moves rearwardly.

A tear-away-type removable sterility cap 458 initially closes the open end of the fluid container. After a selected container 416 has been filled with a suitable first component such as a parenteral fluid piston 456 is inserted into the open end of the container and sterility cap 458 is emplaced over the assemblage thus formed so as to maintain the first component in a sterile, sealed condition until time of use.

Provided proximate the outboard end of each chamber 450 of the connector means 414b and'414c is a hollow needle assembly 460 which includes a hollow meedle 462. Hollow needle assembly 460, which communicates with the fluid flow path through the connector means, also includes a housing 460a which supports hollow needle 462. Needle assembly 460 also includes a check valve 460 which prevents retrograde flow through the flow passageway leading to the reservoir (Figure 37). Housing 460a is positioned within chamber 450 so that hollow needle 462 extends outwardly toward the outboard end of the chamber. With this construction, fluid flowing inwardly through hollow needle 462 will flow past check valve 460 and through passageway 465, which forms a part of the fluid flow path. The fluid then flows around, about and through the additive 467 which is presented to the fluid flow by the additive presentation means 452 in the manner indicated by the arrows in Figure In using the apparatus of the invention, caps 453 and 458 are first removed as indicated in Figure 34. Container 416 is then inserted into the open end of a selected connector means or container receiving chamber 414b or 414c. As the contaiher is pushed inwardly, needle 462 will penetrate penetrable plug 456 of the container assembly in the manner shown in Figure 35. Continued inward travel of the container into the connector means causes piston 456 to move inwardly of the container forcing the fluid contained therein to flow outwardly through hollow needle 462 past the check valve and into the fluid flow path within which the additive 467 is strategically positioned. Upon the container seating within the chamber, rotation of the chamber will cause threads 416b provided thereon to move into mateable engagement with threads 415 provided proximate the closed or inner end of the container receiving chamber. Locking tabs 416a provided on the container will then interlock with teeth provided proximate the open end of chambers 414b and 414c (Figure 34) thereby preventing removal of the container. After the fluid has mixed with the additive, the mixture thus formed will flow into the cooperating reservoir, as for example reservoir R-3, causing the distendable membrane to distend outwardly.

Reservoir R-l can also be filled using a diluent vial of the character identified by the numeral 416 which is mated with the connector means or container receiving chamber 414a.

Chamber 414a has a slightly different construction than that of chambers 414b and 414c in that it does not contain an internally disposed additive presentation means receiving chamber.

Rather, needle 462a of this particular connector me as communicates directly with a passageway via check v.alve 460b.

Passageway P, in turn, communicates directly with reservoir R-l in the manner shown in Figure 37.

By mating container 416 with chamber 414a in the manner previously described, reservoir R-l can be filled with a suitable diluent, parenteral or enteral fluid or it can be filled with any other liquid component of the character described in USSN 08/046,438. As fluid flows between membrane 422 and base portion 404, distendable membrane 422 will be distended in the manner shown in Figure 36 to form reservoir R-l.

After the various reservoirs are filled, the fluid can be delivered to the patient via a delivery cannula which is threaded into delivery port 420. The delivery cannula

DC

(Figure 35) includes a delivery spike of a character well known to those skilled in the art.

With reservoirs R-l, R-2, and R-3 filled in the manner described, the fluid contained therein can be delivered to the patient in any desired sequence by sequentially opening flow control mechanisms 440.

Alternatively, part of the fluid contained within reservoir R-3 can be delivered to the patient and then all or a portion of a diluent contained in reservoir R-l can be immediately administered to the patient. By way of example this delivery can then be followed by delivery of all or part of the fluid contained within reservoir R- 2.

In another mode of operation, the delivery cannula DC can be primed using diluent from reservoir R-1. Then medicament from reservoir R-2 can be infused via cannula DC. Following this delivery sequence, cannula DC can be flushed with diluent from R-1 and finally medicament from R-3 can be infused. Subsequently, diluent from R-l can once again be used to flush cannula DC and the patient can be maintained on KVO (keep vein open) via low rate delivery of diluent from R-l.

It will be appreciated that the present invention has a number of advantages over known fluid delivery devices.

The present invention provides an apparatus for .I expelling fluids at a precisely controlled rate which is of a compact, low profile, laminate construction. More particularly, the invention provides such an apparatus which can be used for the precise infusion of pharmaceutical fluids to an ambulatory patient at controlled rates over extended periods of time.

The invention provides an apparatus of the aforementioned character which is highly reliable and easy-to-use by lay persons in a non-hospital environment.

The present invention also provides an apparatus which can be factory prefilled with a wide variety of medicinal fluids or one which can be readily be filled in the field shortly prior to use.

Moreover the present invention provides an infusion device which embodies an expandable foam-like, storedenergy source that functions to precisely deliver medicinal fluids to a patent either at a fixed rate or at variable rates and one which is operational in all altitudes and attitudes.

The invention also provides an apparatus of the class described which is soft, conformable and compliant so as to readily conform to the patient's anatomy proximate the point of infusion. More particularly, one form of the invention is specially configured so that it can be unobtrusively removably connected to the patient's upper abdomen. The device of this form of the invention c an be relatively large but, because of its unique footprint, can be worn by the ambulatory patient without 15 discomfort.

The present invention furthermore provides an apparatus as described in the preceding paragraph which is provided with a thin, flexible foam backing with adhesive for self-attachment so that the apparatus can be unobtrusively worn under clothing. The fluid delivery device of the present invention is low profile and of laminate construction which can be manufactured SoSS ge inexpensively in large volume by automated machinery.

The present invention provides a device of the character described in which fluid id dispelled from the apparatus through either an integral infusion needle, or through a luer type connector, by a thin, distendable membrane cooperatively associated with a thin, plate-like base. The expandable stored energy source is permeable to gases at least in one direction, whereby gases within the medicinal agent can be released from the fluid chamber and not injected into the patient.

The fluid delivery device of the present invention embodies an expandable cellular mass which cooperates with a barrier member and a base to define a fluid chamber having a fluid outlet and in which the expandable cellular mass controllably urges fluid within the fluid chamber outwardly of the fluid outlet of the device.

The present invention also provides a fluid delivery 42 device of the character described in the preceding paragraph in which the cellular mass includes a compressible polymeric foam which functions to controllably expel fluid from the device at precise rate over a predetermined time period.

It is clear that with the unique design of the apparatus of this latest form of the invention, a wide variety of delivery protocals can be devised to deliver numerous types of beneficial agents in various sequences over various time intervals.

Having now described the invention in detail in accordance with the requirements of the patent statutes, those skilled in this art will have no difficulty in making changes and modifications in the individual parts or their relative assembly in order to meet specific requirements or conditions. Such changes and modifications may be made without departing from the ***scope and spirit of the invention, as set forth in the f following claims.

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Claims (29)

1. A fluid delivery device for delivering fluids to a patient at a controlled rate including: a base having first and second portions, said base having a fluid port; a flexible barrier member overlying said base; an expandable member disposed in contact with said barrier member; cover means receivable over said base for *-sealably enclosing said barrier member and said expandable member, said cover member having a first interior wall portion defining a first chamber superimposed over said first portion of said base and a second interior wall portion defining a second chamber superimposed over said second portion of said base; a fluid passageway interconnecting said first and second portions of said base, said fluid passageway being in communication with said fluid ooze o port; and fluid flow means for introducing fluid between said cover means and said barrier member; said barrier member being movable from a first position proximate said first and second interior wall portions of said cover means to a second position upon introduction of fluid under pressure into said fluid flow means, said barrier member moving said expandable member from a first expanded position to a second compressed position upon said barrier member- moving to said second position.

2. A device as defined in Claim 1 in which said expandable member includes an elastically deformable cellular structure.

3. A device as defined in Claim 1 in which said expandable member includes a polymer foam. -71 LA) a 0 0< S S S 5555 5*5*

4. A device as defined in Claim 1 including fluid flow control means for controlling fluid flow into said fluid passageway.

5. A device as defined in Claim 1 in which said fluid flow means includes fluid inlet ports provided in said cover means.

6. A fluid delivery device for delivering fluids to a patient at a controlled rate including: a base having first, second and third adjacent portions and a fourth marginal portion circumscribing said first, second and third portions, said base having a fluid port; a distendable elastomeric membrane overlying said first, second and third portions of said base; cover means receivable over said base for encapsulating said membrane, said cover member having a first chamber defining wall superimposed over said first portion of said base, a second chamber defining wall superimposed over said second portion of said base, a third chamber defining wall superimposed over said third portion of said base, and marginal means for urging said membrane into sealing engagement with fourth portion of said base; and s-I, !uss~~ a fluid passageway interconnecting said first, second and third chambers; said fluid passageway being in communication with said fluid port of said base; said membrane being movable from a first position proximate said base to a second distended position proximate said first, second and third chamber defining walls of said cover means upon introduction of fluid under pressure into said fluid port of said base, said membrane in its distended position having a tendency to return to a less distended position.

7. A device as defined in Claim 6 in which each of said first, second and third portions of said base include upstanding protuberances engagable by said membrane when said membrane is in said first position.

8. A device as defined in Claim 6 further including fluid flow control means for controlling fluid flow into said fluid passageway, said flow control means including a plurality of control mechanisms, each including an inwardly deformed wall section of said cover means, said .wall section being movable between first position blocking flow into said fluid passageway to a second position permitting flow into said passageway.

9. A device as defined in Claim 6 in which said membrane is provided with an aperture located proximate said fluid passageway interconnecting said first, second and third chambers, and in which said device includes 0, 0 closure means for controlling fluid flow into said fluid passageway said closure means including: a frangible membrane superimposed over 000 said aperture in said membrane, said frangible membrane blocking fluid flow into said fluid 0 .0 passageway; and manually operable means carried by said cover means for rupturing said frangible membrane to permit fluid to flow into said fluid passageway.

A device as defined in Claim 9 in which said manually operable means includes a plunger carried by said cover means proximate said frangible membrane.

11. A fluid delivery device for delivering fluids to a patient at a controlled rate including: a base having first, second and third adjacent sump-like portions and a fourth marginal portion circumscribing said first, second and third portions, said base having a fluid port; an expandable member receivable within each of said first, second and third sump-like portions; a deformable membrane overlying said expandable members; cover means receivable over said base for encapsulating said membrane and said expandable members, said cover member having a first reservoir defining chamber superimposed over said first portion of said base, a second reservoir defining chamber superimposed over said second portion of said base, a third reservoir defining chamber '*see, superimposed over said third position and marginal means for urging said membrane into sealing engagement with said fourth marginal portion of said base; said cover means further including first, second and third fluid inlet ports; a fluid passageway interconnecting said first, second and third reservoir defining chambers, said fluid passageway being in communication with ~said first, second and third inlet ports of said cover means; said membrane being movable from a first position to a second deformed position upon the introduction of fluid under pressure into said fluid inlet ports of said cover means, said membrane moving said expandable members from a first position to a second compressed position said members having a tendency to return to their first position.

12. A device as defined in Claim 11 further including fluid flow control means for controlling fluid flow into said fluid passageway.

13. A fluid delivery device for delivering fluids to a patient at a controlled rate including: a base having first and second adjacent portions and a marginal portion circumscribing said first and second portions, said base having a fluid port in communication with a fluid passageway; a distendable elastomeric membrane overlying said first and second portions of said base; cover means receivable over said base for encapsulating said membrane, said cover member having a first chamber defining wall superimposed over said first portion of said base, a second chamber defining wall superimposed over said second foe: portion of said base, and marginal means for urging *i said membrane into sealing engagement with said marginal portion of said base; and first fluid introducing means attached to said base for introducing fluid between said distendable membrane and said first and second portions of said base, said fluid introducing means including: connector means for interconnection *20 of container means for containing a liquid and component; and (ii) container means for containing a liquid component, said container means being connectable with said connector means.

14. A device as defined in Claim 13 in which said connector means has a fluid flow path therethrough in communication with said container means, and additive presentation means disposed within said fluid flow path, said additive presentation means being adapted to present an additive to the fluid flowing through said flow path.

A device as defined in Claim 14 in which said container means includes a vial having an internal chamber and a penetrable plunger movable within said chamber.

16. A device as defined in Claim 14 in which said 0A/ 48 additive presentation means includes a scaffold having an additive removably carried thereby..

17. A device as defined in Claim 15 in which said connector means further includes a hollow needle in communication with said fluid flow path, said hollow needle being adapted to pierce said penetrable plunger.

18. A device as defined in Claim 17 in which said fluid 10 introducing means further includes first and second fill port means for introducing fluid between said distendable i membrane and said first and second portions of said base.

19. A device as defined in Claim. 18 in which said fill port means include septal ports.

A fluid delivery device for delivering fluids to a patient at a controlled rate including: a base having first, second and third 20 portions and a marginal portion circumscribing said first, second and third portions, said base having a fluid port in communication with a fluid passageway; a distendable elastomeric membrane overlying said first, second and third portions of said base; cover means receivable over said base for encapsulating said membrane, said cover member having a first chamber defining wall superimposed over said first portion of said base, a second chamber defining wall superimposed over said second portion of said base, a third chamber defining wall superimposed over said third portion of said base; and first fluid introducing means for introducing fluid between said distendable membrane and said first, second and third portions of said base, said fluid introducing means including: connector means for interconnection of container means for containing a fluid; and (ii) container means for containing a fluid, said container means being connectable with said connector means.

21. A device as defined in Claim 20 in which said connector means includes a connector chamber having fluid flow path therethrough in communication with said container means, and additive presentation means disposed 10 within said fluid flow path, said additive presentation means including a substrate having an additive removably affixed thereto, whereby said additive will be added to the fluid flowing through said flow.

22. A device as defined in Claim 21 in which said container means includes a vial having an internal chamber containing a diluent and a penetrable plunger movable within said chamber. 20

23. A device as defined in Claim 22 in which said connector means includes a hollow needle in communication with said fluid flow path, said hollow needle being adapted to pierce said penetrable plunger.

24. A device as defined in Claim 23 in which said fluid introducing means further includes first and second fill port means for introducing fluid between said distendable membrane and said first and second portions of said base.

25. A fluid delivery device substantially as described with reference to the embodiment illustrated in FIGS 12 to 18.

26. A fluid delivery device substantially as described with reference to the embodiment illustrated in FIGS 19 to 21B. 4". I 0/

27. A fluid delivery with reference to the to 29.

28. A fluid delivery with reference to the to 33. 0

29. A fluid delivery with reference to the to 38. device substantially as described embodiment illustrated in FIGS 22 device substantially as described embodiment illustrated in FIGS 0r 0000 0 0 0000 00 0* 0 0 0 0 0 00 0 *000 00 0000 00 device substantially as described embodiment illustrated in FIGS 34