US20130245503A1 - Patient Monitoring System with Unitary Structure and Method - Google Patents
Patient Monitoring System with Unitary Structure and Method Download PDFInfo
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- US20130245503A1 US20130245503A1 US13/872,906 US201313872906A US2013245503A1 US 20130245503 A1 US20130245503 A1 US 20130245503A1 US 201313872906 A US201313872906 A US 201313872906A US 2013245503 A1 US2013245503 A1 US 2013245503A1
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- Prior art keywords
- patient monitoring
- monitoring system
- unitary
- switch
- loudspeaker
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/103—Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
- A61B5/11—Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
- A61B5/1113—Local tracking of patients, e.g. in a hospital or private home
- A61B5/1115—Monitoring leaving of a patient support, e.g. a bed or a wheelchair
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/103—Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
- A61B5/11—Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
- A61B5/1113—Local tracking of patients, e.g. in a hospital or private home
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/103—Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
- A61B5/11—Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
- A61B5/1116—Determining posture transitions
- A61B5/1117—Fall detection
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/68—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient
- A61B5/6887—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient mounted on external non-worn devices, e.g. non-medical devices
- A61B5/6892—Mats
-
- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B21/00—Alarms responsive to a single specified undesired or abnormal condition and not otherwise provided for
- G08B21/18—Status alarms
- G08B21/22—Status alarms responsive to presence or absence of persons
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B2562/00—Details of sensors; Constructional details of sensor housings or probes; Accessories for sensors
- A61B2562/02—Details of sensors specially adapted for in-vivo measurements
- A61B2562/0247—Pressure sensors
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B2562/00—Details of sensors; Constructional details of sensor housings or probes; Accessories for sensors
- A61B2562/02—Details of sensors specially adapted for in-vivo measurements
- A61B2562/0252—Load cells
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B2562/00—Details of sensors; Constructional details of sensor housings or probes; Accessories for sensors
- A61B2562/04—Arrangements of multiple sensors of the same type
- A61B2562/046—Arrangements of multiple sensors of the same type in a matrix array
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B2562/00—Details of sensors; Constructional details of sensor housings or probes; Accessories for sensors
- A61B2562/24—Hygienic packaging for medical sensors; Maintaining apparatus for sensor hygiene
- A61B2562/247—Hygienic covers, i.e. for covering the sensor or apparatus during use
Definitions
- This invention relates generally to devices and methods for monitoring the location of a person, and more particularly to a self-contained audible alarm system, and corresponding method, that detects when a person, such as a patient in a hospital, moves from a position in a bed, wheelchair, or other furnishing.
- a person recovering from surgery may be confined to bed rest for a predetermined amount of time.
- a person recovering from a broken leg may be confined to a wheelchair until the leg sufficiently heals.
- Elderly patients may need the assistance of a nurse before moving on their own.
- patients that are heavily medicated or sedated may be prone to slippage or falls, and may thus be sequestered to a bed or chair.
- infrared light to monitor a person's location.
- infrared sensors attempt to detect this movement, thereby sending a notification signal to a remotely located control unit.
- the problem with these systems is that they generally must be positioned a good distance away from the patient so as to monitor the patient's full body. As such, a patient may be completely out of the bed or falling to the ground before the alarm sounds. Further, caregivers often falsely trip the infrared beams.
- the potential also exists for a person to defeat the system by maneuvering in a manner in which to avoid the infrared beam's detection.
- FIG. 1 illustrates one example of a unitary patient monitoring system in accordance with embodiments of the invention.
- FIG. 2 illustrates an exploded view of one example of a unitary patient monitoring system in accordance with embodiments of the invention.
- FIG. 3 illustrates one example of patient monitoring system operation, such as may be suitable for coding in firmware or configuring mechanically, in accordance with embodiments of the invention.
- FIG. 4 illustrates another example of patient monitoring system operation, such as may be suitable for coding in firmware or configuring mechanically, in accordance with embodiments of the invention.
- FIGS. 5 and 6 illustrate one illustrative application for a patient monitoring pad in accordance with embodiments of the invention.
- FIGS. 7 and 8 illustrate one illustrative application for a patient monitoring pad in accordance with embodiments of the invention.
- FIG. 9 illustrates one method of using a patient monitoring system in accordance with embodiments of the invention.
- FIG. 10 illustrates one method of using a patient monitoring system having an interrupt switch and/or autosensing actuation capability in accordance with embodiments of the invention.
- FIG. 11 illustrates one method of using a patient monitoring system having an interrupt switch and/or autosensing actuation capability in accordance with embodiments of the invention.
- Embodiments of the invention provide a unitary, pressure-sensing, system that emits an audible alarm when a person removes their weight from a weight sensitive switch.
- embodiments of the invention work as a fall prevention system, alerting healthcare workers when a patient gets out of a bed or wheelchair.
- the system incorporates a weight sensitive switch that can be configured in various sizes for bed, chair, and floor applications, and a battery powered audible alarm. Both the alarm and switch are provided as a one-piece unit, and are encapsulated by a cover member.
- the audible alarm broadcasts a signal to notify caregivers that a person, such as a hospital patient or nursing home resident, is either falling from a bed or wheelchair or is attempting to walk away from their bed or chair without a caregiver's assistance.
- Embodiments of the present invention can be employed in situations where a caregiver, be they a skilled professional, a family member, or friend, needs assistance in determining when a patient has gotten out of a bed or chair. For example, where a person has a history of falling or is deemed to be at risk for falling is attempting to make an unassisted bed or chair exit, systems in accordance with embodiments of the invention provide advance notice of that fact.
- a loudspeaker which is operable with a weight sensitive switch, actuates when a person formerly lying or sitting on the weight sensitive switch removes their weight from the switch. The loudspeaker then provides a local, audible alarm.
- the loudspeaker, associated control circuitry, the weight sensitive switch, and an energy source are encapsulated within a sealed cover member so as to form a “mat” or “pad.”
- the mat can be configured in various sizes. For instance, smaller sizes accommodate the seating section of a wheelchair, while larger sizes can be used in beds. Even larger sizes can be placed on the floor if a caregiver needs to know when the person steps out of bed or a chair in an attempt to walk.
- the weight sensitive switch comprises electrodes disposed on opposite sides of a compliant member, such as a rubber foam separator.
- a compliant member such as a rubber foam separator.
- the compliant member compresses, thereby allowing the electrodes to touch. Once the person removes their weight, the electrodes separate.
- Control circuitry operable with the electrodes, then actuates the loudspeaker, which in one embodiment is a piezo-electric audio device.
- the pressure-sensitive mat is hard wired to an electronic piezo buzzer that sounds an alarm when the closed electric circuit reopens as a person removes their weight from the pressure-sensing mat.
- Embodiments of the invention can be provided with a master switch to turn the system on or off.
- embodiments of the invention can include an interrupt switch with which a caregiver can temporarily suspend actuation of the loudspeaker. Further, embodiments of the invention can be configured with autosensing actuation such that the loudspeaker is not capable of actuation until a patient has placed his weight upon the mat.
- One advantage embodiments of the present invention offer over prior art systems is that the unitary structure provides a complete system in a one piece format. As noted above, prior art systems use multiple, separated components. These components are generally tethered together with many wires, which are cumbersome and unwieldy.
- Additional benefits include that some embodiments of the present invention are disposable. Once the energy source is depleted, the healthcare provider can simply return the system to the manufacturer for another complete unit. This provides a more convenient format than having to switch out control boxes and mats as with prior art systems. Further, the absence of wires makes embodiments of the present invention more convenient for patients as there is no potential for tangling arms, legs, and clothing with the wires.
- An additional advantage includes the fact that a new system may be used with each patient.
- Some embodiments of the invention additionally include disease and bacteria retardants, such as anti-microbial coatings. Rather than risking cross contamination between patients, as in prior art systems, embodiments of the present invention allow each patient to have a new alarm system.
- Another subtle advantage is that the one-piece system makes it easier to train healthcare providers. There is no longer a need to teach the healthcare provider where to connect which wire, and so forth. Additionally, there is less risk of lost components as with multi-component systems.
- FIG. 1 illustrated therein is one embodiment of a unitary patient monitoring system 100 in accordance with the invention.
- the cover member 101 can be seen.
- the cover member 101 encapsulates and surrounds the internal components of the unitary patient monitoring system 100 , which can include a loudspeaker, an energy source, weight sensitive switches, and so forth.
- the cover member 101 in one embodiment, is configured to include a switch compartment 102 and an alarm compartment 103 .
- Each compartment is a pocket or pouch that is surrounded by the cover member material.
- Internal components of the system are disposed within these components. For example, as will be described in more detail in FIG. 2 , a weight sensitive switch may be disposed within the switch compartment 102 , while control circuitry, batteries, and alarm devices may be disposed in the alarm compartment 103 .
- the cover member 101 is configured as a T-shape. Such an embodiment is shown in FIG. 1 .
- the T-shape works well when the unitary patient monitoring system 100 is to be used in applications such as in a bed or in the seat of a wheel chair.
- the alarm compartment 103 extends from the switch compartment 102 so as to form the “trunk” of the T-shape. In so doing, the patient can sit or lie atop the switch compartment 102 while the alarm compartment 103 hangs off the edge of the patient's chair or bed.
- the alarm mechanism which in one embodiment is a piezo-electric loudspeaker disposed in the alarm compartment 103 , can freely emit an audible alarm as the alarm compartment 103 is dangling from the patient's furniture. Further, electronics disposed within the alarm compartment 103 will not be harmed when the user sits on the unitary patient monitoring system 100 .
- the switch compartment 102 and the alarm compartment 103 meet to form a single chamber within the cover member 101 .
- the alarm compartment 103 is generally sealed from the switch compartment 102 by an optional interior wall 104 .
- the interior wall 104 can permit wires and other electronic conduit to pass through the interior wall 104 , thereby linking the switches in the switch compartment 102 to circuitry in the alarm compartment 103 .
- the cover member 101 can be made from a single type of material or from multiple types of material.
- the alarm compartment 103 may be made from a first material, such as a porous material configured to permit sounds waves emitted from a loudspeaker pass through, while the switch compartment 102 is made from a second material, such as a waterproof material.
- the entire cover member 101 is made from a single material, such as a waterproof material.
- Certain waterproof materials such as Gore-Tex® for example, permit more sound waves to pass through than do others, such as rubber or vinyl.
- acoustic holes may be added to permit sound waves to pass through.
- additional layers of the same or alternate materials may be used to ensure that moisture does not enter the alarm compartment 103 where acoustic holes are added.
- the cover member 101 is manufactured from a waterproof material, at least around the switch compartment 102 .
- a waterproof or water resistant material can be advantageous where there is a risk of spillage or the release of bodily fluids on the unitary patient monitoring system 100 .
- the use of waterproof or water resistant material helps to ensure that components disposed within the unitary patient monitoring system 100 do not become inoperable due to localized flooding. Further, the use of a waterproof or water resistant material helps to prevent bacteria growth within the cover member 101 .
- the cover member 101 includes an antimicrobial coating, illustrated in FIG. 1 as dots 105 .
- Antimicrobial coatings are designed to combat microbes and to prevent the growth or migration of bacteria. Such coatings are advantageous in that they help reduce the risk that a patient will contract a new illness while undergoing treatment.
- the entire outer surface of the unitary patient monitoring system 100 can be treated with such a coating. Further, after each patient's use, the care giver can dispose of the system. This is advantageous when compared to prior art, multi-component systems that do not include antimicrobial coatings and that are reused from patient to patient.
- Antimicrobial coatings can be applied to the outer surface of the cover member 101 , or may be integrated into the material of the cover member 101 during manufacture of the material.
- antimicrobial coatings such as those manufactured by DuPont, Inc. are offered in various colors, textures, and chemistries.
- Application can take the form of powder coatings that are applied to the cover member 101 and cured. Such coatings protect the cover member 101 from the growth of bacteria, mold and mildew. Examples of such coatings include U.S. Pat. Nos. 6,093,407 and 6,432,416, which are incorporated herein by reference.
- the cover member 101 is sealed about a perimeter of the cover member 101 .
- both the switch compartment 102 and the alarm compartment 103 can be sealed during manufacture.
- the cover member 101 is manufactured from vinyl
- the perimeter of the cover member 101 can be sealed by a thermal weld.
- the cover member 101 can be sealed by sewing.
- either the alarm compartment 103 or switch compartment 102 may have a sealable door that is selectively openable.
- a washable cover 106 is disposed about the cover member 101 .
- the washable cover 106 which may be a different material from that of the cover member 101 , is selectively removable in one embodiment.
- the cover member 101 may be manufactured from a waterproof material
- the washable cover 106 may be manufactured from a material designed for added patient comfort, such as cotton.
- the cover member 101 includes a comfort component integrated therein.
- the comfort component can take the place of the washable cover 106 , or alternatively can be used in conjunction with the washable cover 106 .
- the cover member is manufactured from a waterproof material such as vinyl, the vinyl can have formed therein faux suede on its outer surface.
- suitable applications for the unitary patient monitoring system 100 include chairs and beds. Further, the unitary patient monitoring system 100 can be used in a wheelchair, as will be illustrated in FIGS. 5 and 6 .
- the dimensions of the unitary patient monitoring system 100 can be configured to work in specific applications. For example, where the application of use is a wheelchair, the major faces 107 of the switch compartment 102 may measure between fourteen and eighteen inches in depth and between sixteen and twenty inches in width. In one embodiment, the major face 107 of the switch compartment 102 measures sixteen inches by eighteen inches so as to fit within the seat of a wheelchair. Other applications may require alternate dimensions.
- the major faces 107 of the switch compartment maybe extended in length and width so as to correspond to a bed width or a predetermined length of a patient's torso.
- the alarm compartment 103 will be smaller than the switch compartment 102 .
- FIG. 2 illustrated therein is an exploded view of one embodiment of a unitary patient monitoring system 100 , configured as a patient monitoring pad, in accordance with the invention.
- the internal components of the unitary patient monitoring system 100 can more readily be seen.
- the internal components are encapsulated by the cover member 101 so as to form a single, closed outer housing about the system.
- the internal components of the unitary patient monitoring system 100 include a weight sensitive switch 201 and corresponding circuitry 202 .
- the circuitry 202 includes a loudspeaker 203 that is configured to emit an audible alarm upon actuation and an energy source, shown in FIG. 2 as a battery, such as a lithium, alkaline, cadmium, or nickel-metal-hydride cell.
- the circuitry 202 including the loudspeaker 203 , would be disposed within the alarm compartment 103 of the cover member 101 , while the weight sensitive switch 201 is disposed within the switch compartment 102 of the cover member 101 .
- the loudspeaker 203 and circuitry 202 may be positioned in a first portion of the T-shape, such as the alarm compartment 103 , while the weight sensitive switch 201 is disposed in a second portion of the T-shape, such as the switch compartment 102 .
- a first portion of the T-shape such as the alarm compartment 103
- the weight sensitive switch 201 is disposed in a second portion of the T-shape, such as the switch compartment 102 .
- Such a configuration permits the first portion of the T-shape to hang orthogonally relative to a horizontal surface supporting the patient, upon which the second portion is placed.
- the weight sensitive switch 201 is illustratively shown as a first contact array 205 and a second contact array 206 separated by a layer 207 of compliant material such as rubber foam.
- the resilience of the compliant material is selected such that the layer 207 of compliant material is configured to permit at least portions of the contact arrays 205 , 206 to touch upon the application of at least a predetermined force. Requiring at least a predetermined force, such as 60 or 80 pounds, adds hysteresis to the system and prevents nuisance tripping of the alarm system.
- the layer 207 of compliant material includes a plurality of apertures 208 .
- a predetermined force such as 80 pounds or so
- this application of force compresses the layer 207 of compliant material sufficiently that at least one contact from the first contact array 205 touches at least one contact from the second contact array 206 .
- this contact actuates the circuitry 202 , thereby waking the system.
- the layer 207 of compressible material expands, thereby separating the contacts that were formerly touching.
- the circuitry 202 detects this separation and actuates the alarm, which in FIG. 2 is a loudspeaker 203 .
- the weight sensitive switch 201 is configured to actuate the loudspeaker 203 when the person's weight is removed from the system.
- the audible alarm tells a caregiver that the person is no longer sitting or lying on the unitary patient monitoring system 100 .
- the intensity of the audible alarm is sufficient such that a caregiver down the hall or in another room will be altered to the patient's move. Experimental research has shown that an audible alarm of between 70 and 100 decibels is generally sufficient for this purpose.
- weight sensitive switch 201 is shown illustratively in FIG. 2 as two contact arrays 205 , 206 separated by a layer 207 of compressible foam, it will be clear to those of ordinary skill in the art having the benefit of this disclosure that the invention is not so limited.
- Other weight sensitive switch technologies can also be used, including force sensing resistor arrays or capacitive sensing technologies.
- the circuitry 202 includes at least an alarm and an energy source.
- the circuitry 202 may simply be a loudspeaker 203 , an energy source such as battery 204 coupled to the loudspeaker 203 , and the weight sensitive switch 201 coupled between the energy source and the loudspeaker 203 .
- the making and braking of the circuit due to the compression of the layer 207 of compliant material and the resulting contact connection/parting can actuate the alarm.
- a manufacture may desire to include a master switch 211 .
- a caregiver may wish to disable the unitary patient monitoring system 100 while taking a bath. As the alarm is actuated when the patient rises from the pad, the caregiver may wish to disable the alarm through actuation of the master switch 211 .
- the master switch is coupled between the loudspeaker 203 and the energy source (cell 204 ). When the master switch 211 is in a first position, the loudspeaker 203 is capable of actuation. When the master switch 211 is in a second position, the loudspeaker 203 is incapable of actuation.
- the master switch 211 is encapsulated within the cover member 101 .
- a slider switch, having a tactile feel through the cover member 101 is one example of a suitable master switch device for such a configuration.
- no master switch 211 will be used.
- the unitary patient monitoring system 100 in such an embodiment will rather be “self sensing,” in that the system is actuated when a person applies their weight to the system, rather than by actuation of a master switch 211 .
- Such configurations will generally include control circuitry 209 .
- control circuitry 209 which can include a processing circuit 210 such as a microprocessor or programmable logic, can be configured to be operable with the weight sensitive switch 201 .
- the control circuitry 209 through embedded executable code or programmed logic, can be configured to actuate the loudspeaker 203 only upon application of, and successive removal, of at least a predetermined weight from the unitary patient monitoring system 100 .
- the control circuitry 209 can be configured with the self-sensing feature that activates the system upon application of the person's weight to the switch compartment 102 .
- control circuitry 209 can be configured to emit the audible alarm only for a predetermined duration or time period.
- the control circuitry 209 can be configured to emit the audible alarm for three, five, or ten minutes, for instance, upon removal of the person's weight from the unitary patient monitoring system 100 . Another suitable time period may be longer, such as between fifteen and sixty minutes.
- the control circuitry 209 can be configured to emit the audible alarm until the predetermined weight is again applied to the weight sensitive switch 201 .
- Another feature that can be added is delayed alarm sounding.
- the control circuitry 209 can be configured to actuate the alarm only after this predetermined time has lapsed.
- the control circuitry 209 includes an interrupt switch 212 that is operable with the control circuitry 209 or processing circuit 210 , where one is used.
- the control circuitry 209 can be configured to prevent the loudspeaker 203 from emitting the audible alarm upon actuation of the interrupt switch 212 until at least the predetermined weight is applied to, and removed from, the unitary patient monitoring system 100 once again after actuation of the interrupt switch 212 .
- a caregiver may desire to give a patient a bath. The patient gets up, thereby causing actuation of the alarm.
- the caregiver then actuates the interrupt switch 212 , thereby quieting the alarm. Once the patient returns and places his weight on the system, the system is actuated once again. When the patient gets up, the alarm sounds. Further, the caregiver may wish to press the interrupt switch 212 prior to the patient getting up. In so doing, the caregiver prevents the alarm from actuating, thereby reducing noise and confusion in the surrounding area.
- control circuitry 209 can be configured to provide a nurse call alert in addition to sounding the audible alarm.
- an optional port 213 is provided for connecting the unitary patient monitoring system 100 to a nurse call alert system, such as those found in hospitals and other care facilities.
- the control circuitry 209 is configured to deliver the nurse call alert at the same time.
- FIGS. 3 and 4 illustrated therein are methods of operation of a unitary patient monitoring system ( 100 ) in accordance with embodiments of the invention.
- Such methods are suitable for configuration as executable code that is operable with the processing circuit 210 or control circuitry 209 , or that works as programmed logic in the same.
- the methods can be configured in state machines or in hardware configurations.
- FIG. 3 illustrates a method 300 associated with an embodiment of a unitary patient monitoring system ( 100 ) employing a master switch ( 211 ).
- the unitary patient monitoring system ( 100 ) is OFF.
- a caregiver actuates the system by toggling the master switch ( 211 ) from a first position to a second position, which is detected at decision 302 .
- the system determines whether a predetermined weight, such as 40, 60, or 80 pounds, has been applied to the system via the weight sensitive switch ( 201 ) at decision 303 . Where this is the case, the system monitors the weight, detecting its removal at decision 304 . Upon removal of the predetermined weight, the system sounds the audible alarm at step 305 .
- a predetermined weight such as 40, 60, or 80 pounds
- FIG. 4 illustrates a method 400 associated with an alternative embodiment of the unitary patient monitoring system ( 100 ) employing an interrupt switch ( 212 ) and the auto-activation feature of the control circuitry ( 209 ).
- the system is idle, as the interrupt switch ( 212 ) has been actuated. This state is suitable for shipping the unitary patient monitoring system ( 100 ) or initially storing the unitary patient monitoring system ( 100 ).
- control circuitry ( 209 ) detects whether a predetermined weight has been applied to the unitary patient monitoring system ( 100 ). Where it has, the system becomes active.
- the control circuitry ( 209 ) detects whether the predetermined weight has been removed from the unitary patient monitoring system ( 100 ). Where it has, the alarm is actuated at step 404 .
- a caregiver can silence the alarm by actuating the interrupt switch, which is detected at decision 405 . In some situations, the patient may even silence the sounding alarm by actuating the interrupt switch, such as when they momentarily rise and sit or lie back down.
- control circuitry ( 209 ) can be configured to emit the audible alarm only for a predetermined duration. Where a system includes this feature, the presence of a timer is determined at decision 406 , and its expiration at decision 407 . Where the system does not include this feature, these decisions will be omitted.
- the alarm Upon actuation of the interrupt switch ( 212 ), the alarm will remain incapable of actuation until the application of, and removal of, a predetermined weight as detected at decisions 402 , and 403 , respectively.
- FIGS. 5 and 6 illustrated therein is one application for a unitary patient monitoring system 100 in accordance with embodiments of the invention.
- the application illustrated in FIGS. 5 and 6 is that of an alarm to let caregivers know when a person has exited a wheelchair 501 .
- the unitary patient monitoring system 100 is configured in shape and size to match the seat 502 of the wheelchair 501 .
- the unitary patient monitoring system 100 may have a switch compartment 102 that is generally rectangular in shape and measures roughly 16′′ ⁇ 18′′ so as to fit within the seat 502 of a standard wheelchair 501 .
- the cover member 101 of the unitary patient monitoring system 100 is substantially T-shaped.
- a first portion of the T-shape, shown in FIG. 5 as the switch compartment 102 is placed within the seat 502 of the wheelchair 501 .
- a second portion of the T-shape, shown in FIG. 6 as the alarm compartment 103 can then hang down from the seat 502 behind the wheelchair 501 .
- the alarm operates as an integral part of the unitary patient monitoring system 100 with the alarm away from and behind the patient. Further, the caregiver has access to the alarm compartment 103 without having to move the patient.
- FIGS. 7 and 8 illustrated therein is another application for a unitary patient monitoring system 100 in accordance with embodiments of the invention.
- the application illustrated in FIGS. 7 and 8 is that of an alarm to let caregivers know when a person has exited a bed 701 .
- the unitary patient monitoring system 100 can be configured in a larger shape and size than that of FIGS. 5 and 6 , so as to generally match the mattress 702 of the bed 701 .
- the unitary patient monitoring system 100 may have a switch compartment 102 that is generally rectangular in shape and measures roughly the width of the bed by 24 to 36 inches in length.
- the cover member 101 of the unitary patient monitoring system 100 is substantially T-shaped.
- a first portion of the T-shape, shown in FIG. 7 as the switch compartment 102 is placed along the mattress 702 .
- a second portion of the T-shape, shown in FIG. 7 as the alarm compartment 103 can then hang down from the mattress 702 .
- the alarm compartment 103 can hang substantially orthogonally from the switch compartment 102 beside the patient 801 .
- the patient 801 is free to move or turn over without obstructing the alarm in the alarm compartment 103 . Further, there are no wires with which to become tangled. Additionally, the caregiver has access to the alarm compartment 103 without having to move the patient.
- FIG. 9 illustrated therein is one method 900 of using a unitary patient monitoring system ( 100 ) in accordance with embodiments of the invention.
- the method 900 of FIG. 9 would be suitable, for instance, with the application shown in FIGS. 5 and 6 .
- this unitary patient monitoring system ( 100 ) will have a cover member ( 101 ) disposed about the system, and will include a loudspeaker ( 203 ) in an alarm region of the cover member ( 101 ), such as the switch compartment ( 102 ), and a weight sensitive switch ( 201 ) in a switch region of the cover member ( 101 ), such as the switch compartment ( 102 ).
- step 902 the caregiver opens any packaging in which the unitary patient monitoring system ( 100 ) was stored or shipped.
- step 903 is used where the unitary patient monitoring system ( 100 ) includes a master switch ( 211 ). Specifically, where a master switch ( 211 ) is included, the caregiver switches on the master switch ( 211 ) at step 903 . Where no master switch ( 211 ) is included, step 903 is omitted.
- the caregiver places the switch region of the unitary patient monitoring system ( 100 ) in the seat of a wheelchair or on the mattress of a bed.
- the caregiver drapes the alarm region either off the mattress or between the seat and back of a wheelchair such that the alarm region dangles.
- the alarm region of the unitary patient monitoring provides the caregiver with access to the alarm region and prevents the patient from obstructing or interfering with the alarm region.
- the caregiver assists or directs the patient onto the switch region of the unitary patient monitoring system ( 100 ), thereby causing the patient to sit or lie on the switch region.
- control circuitry ( 209 ) having auto-sensing functionality is included with the unitary patient monitoring system ( 100 )
- the corresponding application of the patient's weight on the switch region activates the unitary patient monitoring system ( 100 ).
- the alarm sounds When the patient removes his weight from the switch region, the alarm sounds.
- FIG. 10 illustrated therein is a method 1000 of using a unitary patient monitoring system ( 100 ) after the alarm has been actuated by the patient removing his weight from the switch region.
- the alarm is sounding.
- the caregiver checks to see if the patient is okay. Once the patient's safety is taken care of, and where the unitary patient monitoring system ( 100 ) includes an interrupt switch ( 212 ), the caregiver may stop the alarm from sounding by pressing the interrupt switch ( 212 ) at step 1003 .
- the caregiver can reposition the unitary patient monitoring system ( 100 ).
- the caregiver can assist or direct the patient to place his weight back on the switch region, thereby reactivating the unitary patient monitoring system ( 100 ).
- FIG. 11 illustrated therein is a method 1100 of permitting a patient to remove himself from a unitary patient monitoring system ( 100 ) having an interrupt switch ( 212 ) in accordance with embodiments of the invention without setting off the alarm.
- the method 1100 of FIG. 11 can be used, for example, where a patient needs to get up to go to the bathroom with the caregiver's assistance.
- the caregiver causes the patient to apply his weight to the switch region of the unitary patient monitoring system ( 100 ) by sitting on the switch region or lying on the switch region. This application of weight causes the system to be actuated.
- the caregiver actuates the interrupt switch ( 212 ) thereby preventing the alarm from sounding.
- the caregiver causes the patient to remove his weight from the switch region of the unitary patient monitoring system ( 100 ), perhaps by assisting the patient from the wheelchair or bed.
- the caregiver assists the patient with the necessary activity, be it going to the bathroom, exercising, eating a meal, or bathing.
- the caregiver assists the patient back onto the switch region of the unitary patient monitoring system ( 100 ), thereby resetting the alarm.
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Abstract
Description
- This application is a continuation of U.S. application Ser. No. 12/263,588, filed Nov. 3, 2008, which is incorporated by reference for all purposes.
- 1. Technical Field
- This invention relates generally to devices and methods for monitoring the location of a person, and more particularly to a self-contained audible alarm system, and corresponding method, that detects when a person, such as a patient in a hospital, moves from a position in a bed, wheelchair, or other furnishing.
- 2. Background Art
- There are many situations in which a person is directed not be ambulatory. For example, a person recovering from surgery may be confined to bed rest for a predetermined amount of time. Similarly, a person recovering from a broken leg may be confined to a wheelchair until the leg sufficiently heals. Elderly patients may need the assistance of a nurse before moving on their own. Further, patients that are heavily medicated or sedated may be prone to slippage or falls, and may thus be sequestered to a bed or chair.
- It can therefore be problematic when a person who should be confined to a wheelchair or bed tries to get up. They may slip and fall, thereby injuring themselves or exacerbating existing injuries. Additionally, if a patient falls out of a bed or wheelchair, they may render themselves unable to call for help. As there are generally many more patients than staff in a healthcare facility, it is often impossible to watch each patient all the time. A need exists, therefore, for a monitoring system that provides a warning to the caregiver when a patient has exited his chair or bed.
- Several manufacturers have attempted to solve this problem. For instance, mechanical restraints can be used to physically confine a person to a bed or wheelchair. The problem with the use of these restraints, in addition to potentially violating patient rights and affecting patient dignity, is that the restraints may cause additional injury by binding the patient. Further, the patient in restraints may not be able to complete simple tasks such as feeding himself or changing the television channel.
- Another attempt to solve the problem involves a system using magnetic tab alarms. These alarms feature a bulky control unit that is coupled to a plurality of tabs by way of tether cords. One end of the tether cord attaches to the control unit, while the other attaches to the patient's clothing. An alarm in the control unit sounds when the person moves sufficiently from the control unit as to cause the magnet or tab to dislocate from the control unit. A drawback to these systems is that they often emit false alarms as the tabs can become dislocated from simple actions such as the patient turning over. Additionally, the tether cord can become tangled with the patient's arms and legs. Next, the control unit can easily be dropped on the floor, thereby rendering it inoperable. As the control units are generally quite expensive, breakage by dropping results in significantly increased costs for the healthcare facility.
- Another prior art solution involves the use of infrared light to monitor a person's location. When a person moves, infrared sensors attempt to detect this movement, thereby sending a notification signal to a remotely located control unit. The problem with these systems is that they generally must be positioned a good distance away from the patient so as to monitor the patient's full body. As such, a patient may be completely out of the bed or falling to the ground before the alarm sounds. Further, caregivers often falsely trip the infrared beams. The potential also exists for a person to defeat the system by maneuvering in a manner in which to avoid the infrared beam's detection.
- There is thus a need for an inexpensive, reliable system for monitoring a person's position in a bed or chair that is reliable, resistant to breakage, not prone to nuisance tripping, and that is not easily circumvented by the person.
-
FIG. 1 illustrates one example of a unitary patient monitoring system in accordance with embodiments of the invention. -
FIG. 2 illustrates an exploded view of one example of a unitary patient monitoring system in accordance with embodiments of the invention. -
FIG. 3 illustrates one example of patient monitoring system operation, such as may be suitable for coding in firmware or configuring mechanically, in accordance with embodiments of the invention. -
FIG. 4 illustrates another example of patient monitoring system operation, such as may be suitable for coding in firmware or configuring mechanically, in accordance with embodiments of the invention. -
FIGS. 5 and 6 illustrate one illustrative application for a patient monitoring pad in accordance with embodiments of the invention. -
FIGS. 7 and 8 illustrate one illustrative application for a patient monitoring pad in accordance with embodiments of the invention. -
FIG. 9 illustrates one method of using a patient monitoring system in accordance with embodiments of the invention. -
FIG. 10 illustrates one method of using a patient monitoring system having an interrupt switch and/or autosensing actuation capability in accordance with embodiments of the invention. -
FIG. 11 illustrates one method of using a patient monitoring system having an interrupt switch and/or autosensing actuation capability in accordance with embodiments of the invention. - Skilled artisans will appreciate that elements in the figures are illustrated for simplicity and clarity and have not necessarily been drawn to scale. For example, the dimensions of some of the elements in the figures may be exaggerated relative to other elements to help to improve understanding of embodiments of the present invention.
- Before describing in detail embodiments that are in accordance with the present invention, it should be observed that the embodiments reside primarily in combinations of method steps and apparatus components related to monitor the position or location of a patient or person. Accordingly, the apparatus components and method steps have been represented where appropriate by conventional symbols in the drawings, showing only those specific details that are pertinent to understanding the embodiments of the present invention so as not to obscure the disclosure with details that will be readily apparent to those of ordinary skill in the art having the benefit of the description herein.
- As embodiments of the invention are now described in detail, referring to the drawings, like numbers indicate like parts throughout the views. As used in the description herein and throughout the claims, the following terms take the meanings explicitly associated herein, unless the context clearly dictates otherwise: the meaning of “a,” “an,” and “the” includes plural reference, the meaning of “in” includes “in” and “on.” Relational terms such as first and second, top and bottom, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, reference designators shown herein in parenthesis indicate components shown in a figure other than the one in discussion. For example, talking about a device (10) while discussing figure A would refer to an element, 10, shown in figure other than figure A.
- Embodiments of the invention provide a unitary, pressure-sensing, system that emits an audible alarm when a person removes their weight from a weight sensitive switch. In so doing, embodiments of the invention work as a fall prevention system, alerting healthcare workers when a patient gets out of a bed or wheelchair. In one embodiment, the system incorporates a weight sensitive switch that can be configured in various sizes for bed, chair, and floor applications, and a battery powered audible alarm. Both the alarm and switch are provided as a one-piece unit, and are encapsulated by a cover member. The audible alarm broadcasts a signal to notify caregivers that a person, such as a hospital patient or nursing home resident, is either falling from a bed or wheelchair or is attempting to walk away from their bed or chair without a caregiver's assistance.
- Embodiments of the present invention can be employed in situations where a caregiver, be they a skilled professional, a family member, or friend, needs assistance in determining when a patient has gotten out of a bed or chair. For example, where a person has a history of falling or is deemed to be at risk for falling is attempting to make an unassisted bed or chair exit, systems in accordance with embodiments of the invention provide advance notice of that fact.
- A loudspeaker, which is operable with a weight sensitive switch, actuates when a person formerly lying or sitting on the weight sensitive switch removes their weight from the switch. The loudspeaker then provides a local, audible alarm. In one embodiment, the loudspeaker, associated control circuitry, the weight sensitive switch, and an energy source are encapsulated within a sealed cover member so as to form a “mat” or “pad.” The mat can be configured in various sizes. For instance, smaller sizes accommodate the seating section of a wheelchair, while larger sizes can be used in beds. Even larger sizes can be placed on the floor if a caregiver needs to know when the person steps out of bed or a chair in an attempt to walk.
- In one embodiment, the weight sensitive switch comprises electrodes disposed on opposite sides of a compliant member, such as a rubber foam separator. When a person places at least a predetermined amount of weight on the mat, the compliant member compresses, thereby allowing the electrodes to touch. Once the person removes their weight, the electrodes separate. Control circuitry, operable with the electrodes, then actuates the loudspeaker, which in one embodiment is a piezo-electric audio device. The pressure-sensitive mat is hard wired to an electronic piezo buzzer that sounds an alarm when the closed electric circuit reopens as a person removes their weight from the pressure-sensing mat. Embodiments of the invention can be provided with a master switch to turn the system on or off. Alternatively, embodiments of the invention can include an interrupt switch with which a caregiver can temporarily suspend actuation of the loudspeaker. Further, embodiments of the invention can be configured with autosensing actuation such that the loudspeaker is not capable of actuation until a patient has placed his weight upon the mat.
- One advantage embodiments of the present invention offer over prior art systems is that the unitary structure provides a complete system in a one piece format. As noted above, prior art systems use multiple, separated components. These components are generally tethered together with many wires, which are cumbersome and unwieldy.
- Additional benefits include that some embodiments of the present invention are disposable. Once the energy source is depleted, the healthcare provider can simply return the system to the manufacturer for another complete unit. This provides a more convenient format than having to switch out control boxes and mats as with prior art systems. Further, the absence of wires makes embodiments of the present invention more convenient for patients as there is no potential for tangling arms, legs, and clothing with the wires.
- Another benefit of embodiments of the present invention is the fact that when in use, systems in accordance with the invention are not readily visible by others. As such, patient dignity is improved as no bulky control box is prominently displayed with wires tethered about the patient.
- An additional advantage includes the fact that a new system may be used with each patient. Some embodiments of the invention additionally include disease and bacteria retardants, such as anti-microbial coatings. Rather than risking cross contamination between patients, as in prior art systems, embodiments of the present invention allow each patient to have a new alarm system.
- Another subtle advantage is that the one-piece system makes it easier to train healthcare providers. There is no longer a need to teach the healthcare provider where to connect which wire, and so forth. Additionally, there is less risk of lost components as with multi-component systems.
- Turning now to
FIG. 1 , illustrated therein is one embodiment of a unitarypatient monitoring system 100 in accordance with the invention. InFIG. 1 , thecover member 101 can be seen. Thecover member 101 encapsulates and surrounds the internal components of the unitarypatient monitoring system 100, which can include a loudspeaker, an energy source, weight sensitive switches, and so forth. - The
cover member 101, in one embodiment, is configured to include aswitch compartment 102 and analarm compartment 103. Each compartment is a pocket or pouch that is surrounded by the cover member material. Internal components of the system are disposed within these components. For example, as will be described in more detail inFIG. 2 , a weight sensitive switch may be disposed within theswitch compartment 102, while control circuitry, batteries, and alarm devices may be disposed in thealarm compartment 103. - In one embodiment, the
cover member 101 is configured as a T-shape. Such an embodiment is shown inFIG. 1 . The T-shape works well when the unitarypatient monitoring system 100 is to be used in applications such as in a bed or in the seat of a wheel chair. Thealarm compartment 103 extends from theswitch compartment 102 so as to form the “trunk” of the T-shape. In so doing, the patient can sit or lie atop theswitch compartment 102 while thealarm compartment 103 hangs off the edge of the patient's chair or bed. In such a configuration, the alarm mechanism, which in one embodiment is a piezo-electric loudspeaker disposed in thealarm compartment 103, can freely emit an audible alarm as thealarm compartment 103 is dangling from the patient's furniture. Further, electronics disposed within thealarm compartment 103 will not be harmed when the user sits on the unitarypatient monitoring system 100. - In one embodiment, the
switch compartment 102 and thealarm compartment 103 meet to form a single chamber within thecover member 101. In another embodiment, thealarm compartment 103 is generally sealed from theswitch compartment 102 by an optionalinterior wall 104. In such a configuration, theinterior wall 104 can permit wires and other electronic conduit to pass through theinterior wall 104, thereby linking the switches in theswitch compartment 102 to circuitry in thealarm compartment 103. - The
cover member 101 can be made from a single type of material or from multiple types of material. For example, thealarm compartment 103 may be made from a first material, such as a porous material configured to permit sounds waves emitted from a loudspeaker pass through, while theswitch compartment 102 is made from a second material, such as a waterproof material. In another embodiment, theentire cover member 101 is made from a single material, such as a waterproof material. Certain waterproof materials, such as Gore-Tex® for example, permit more sound waves to pass through than do others, such as rubber or vinyl. Where a sound-retardant material is used about thealarm compartment 103, acoustic holes may be added to permit sound waves to pass through. Further, additional layers of the same or alternate materials may be used to ensure that moisture does not enter thealarm compartment 103 where acoustic holes are added. - In one embodiment, the
cover member 101 is manufactured from a waterproof material, at least around theswitch compartment 102. Using a waterproof or water resistant material can be advantageous where there is a risk of spillage or the release of bodily fluids on the unitarypatient monitoring system 100. The use of waterproof or water resistant material helps to ensure that components disposed within the unitarypatient monitoring system 100 do not become inoperable due to localized flooding. Further, the use of a waterproof or water resistant material helps to prevent bacteria growth within thecover member 101. - In one embodiment, the
cover member 101 includes an antimicrobial coating, illustrated inFIG. 1 asdots 105. Antimicrobial coatings are designed to combat microbes and to prevent the growth or migration of bacteria. Such coatings are advantageous in that they help reduce the risk that a patient will contract a new illness while undergoing treatment. As embodiments of the present invention are unitary and disposable, the entire outer surface of the unitarypatient monitoring system 100 can be treated with such a coating. Further, after each patient's use, the care giver can dispose of the system. This is advantageous when compared to prior art, multi-component systems that do not include antimicrobial coatings and that are reused from patient to patient. - Antimicrobial coatings can be applied to the outer surface of the
cover member 101, or may be integrated into the material of thecover member 101 during manufacture of the material. For example, antimicrobial coatings such as those manufactured by DuPont, Inc. are offered in various colors, textures, and chemistries. Application can take the form of powder coatings that are applied to thecover member 101 and cured. Such coatings protect thecover member 101 from the growth of bacteria, mold and mildew. Examples of such coatings include U.S. Pat. Nos. 6,093,407 and 6,432,416, which are incorporated herein by reference. - In one embodiment, the
cover member 101 is sealed about a perimeter of thecover member 101. As one embodiment of the unitarypatient monitoring system 100 is that of a sealed, disposable unit, both theswitch compartment 102 and thealarm compartment 103 can be sealed during manufacture. For example, where thecover member 101 is manufactured from vinyl, the perimeter of thecover member 101 can be sealed by a thermal weld. Where thecover member 101 is manufactured from a textile, thecover member 101 can be sealed by sewing. Alternatively, either thealarm compartment 103 orswitch compartment 102 may have a sealable door that is selectively openable. - In one embodiment, a
washable cover 106 is disposed about thecover member 101. Thewashable cover 106, which may be a different material from that of thecover member 101, is selectively removable in one embodiment. For example, while thecover member 101 may be manufactured from a waterproof material, thewashable cover 106 may be manufactured from a material designed for added patient comfort, such as cotton. - In another embodiment, the
cover member 101 includes a comfort component integrated therein. The comfort component can take the place of thewashable cover 106, or alternatively can be used in conjunction with thewashable cover 106. For example, where the cover member is manufactured from a waterproof material such as vinyl, the vinyl can have formed therein faux suede on its outer surface. - As noted above, suitable applications for the unitary
patient monitoring system 100 include chairs and beds. Further, the unitarypatient monitoring system 100 can be used in a wheelchair, as will be illustrated inFIGS. 5 and 6 . The dimensions of the unitarypatient monitoring system 100 can be configured to work in specific applications. For example, where the application of use is a wheelchair, the major faces 107 of theswitch compartment 102 may measure between fourteen and eighteen inches in depth and between sixteen and twenty inches in width. In one embodiment, themajor face 107 of theswitch compartment 102 measures sixteen inches by eighteen inches so as to fit within the seat of a wheelchair. Other applications may require alternate dimensions. For example, when being used in a bed, the major faces 107 of the switch compartment maybe extended in length and width so as to correspond to a bed width or a predetermined length of a patient's torso. In most applications, thealarm compartment 103 will be smaller than theswitch compartment 102. - Turning now to
FIG. 2 , illustrated therein is an exploded view of one embodiment of a unitarypatient monitoring system 100, configured as a patient monitoring pad, in accordance with the invention. In this view, the internal components of the unitarypatient monitoring system 100 can more readily be seen. The internal components are encapsulated by thecover member 101 so as to form a single, closed outer housing about the system. - In the illustrative embodiment of
FIG. 2 , the internal components of the unitarypatient monitoring system 100 include a weightsensitive switch 201 andcorresponding circuitry 202. Thecircuitry 202 includes aloudspeaker 203 that is configured to emit an audible alarm upon actuation and an energy source, shown inFIG. 2 as a battery, such as a lithium, alkaline, cadmium, or nickel-metal-hydride cell. In one embodiment, thecircuitry 202, including theloudspeaker 203, would be disposed within thealarm compartment 103 of thecover member 101, while the weightsensitive switch 201 is disposed within theswitch compartment 102 of thecover member 101. Where thecover member 101 is configured as a T-shape, theloudspeaker 203 andcircuitry 202 may be positioned in a first portion of the T-shape, such as thealarm compartment 103, while the weightsensitive switch 201 is disposed in a second portion of the T-shape, such as theswitch compartment 102. Such a configuration permits the first portion of the T-shape to hang orthogonally relative to a horizontal surface supporting the patient, upon which the second portion is placed. - The weight
sensitive switch 201 is illustratively shown as afirst contact array 205 and asecond contact array 206 separated by alayer 207 of compliant material such as rubber foam. The resilience of the compliant material is selected such that thelayer 207 of compliant material is configured to permit at least portions of thecontact arrays - In the illustrative embodiment of
FIG. 2 , thelayer 207 of compliant material includes a plurality ofapertures 208. When a person applies at least a predetermined force, such as 80 pounds or so, to the unitarypatient monitoring system 100 by sitting or lying on theswitch compartment 102, this application of force compresses thelayer 207 of compliant material sufficiently that at least one contact from thefirst contact array 205 touches at least one contact from thesecond contact array 206. In one embodiment, this contact actuates thecircuitry 202, thereby waking the system. - When the person removes the predetermined force from atop the
switch compartment 102, thelayer 207 of compressible material expands, thereby separating the contacts that were formerly touching. Thecircuitry 202 detects this separation and actuates the alarm, which inFIG. 2 is aloudspeaker 203. As such, the weightsensitive switch 201 is configured to actuate theloudspeaker 203 when the person's weight is removed from the system. The audible alarm tells a caregiver that the person is no longer sitting or lying on the unitarypatient monitoring system 100. In one embodiment, the intensity of the audible alarm is sufficient such that a caregiver down the hall or in another room will be altered to the patient's move. Experimental research has shown that an audible alarm of between 70 and 100 decibels is generally sufficient for this purpose. - While the weight
sensitive switch 201 is shown illustratively inFIG. 2 as twocontact arrays layer 207 of compressible foam, it will be clear to those of ordinary skill in the art having the benefit of this disclosure that the invention is not so limited. Other weight sensitive switch technologies can also be used, including force sensing resistor arrays or capacitive sensing technologies. - The
circuitry 202, in one embodiment, includes at least an alarm and an energy source. For example, in a simple embodiment, thecircuitry 202 may simply be aloudspeaker 203, an energy source such asbattery 204 coupled to theloudspeaker 203, and the weightsensitive switch 201 coupled between the energy source and theloudspeaker 203. Upon application of a person's weight, and successive removal from, the unitarypatient monitoring system 100, the making and braking of the circuit due to the compression of thelayer 207 of compliant material and the resulting contact connection/parting can actuate the alarm. - In such a simple embodiment, a manufacture may desire to include a
master switch 211. For instance, a caregiver may wish to disable the unitarypatient monitoring system 100 while taking a bath. As the alarm is actuated when the patient rises from the pad, the caregiver may wish to disable the alarm through actuation of themaster switch 211. To accommodate, in one embodiment, the master switch is coupled between theloudspeaker 203 and the energy source (cell 204). When themaster switch 211 is in a first position, theloudspeaker 203 is capable of actuation. When themaster switch 211 is in a second position, theloudspeaker 203 is incapable of actuation. In one embodiment, themaster switch 211 is encapsulated within thecover member 101. A slider switch, having a tactile feel through thecover member 101, is one example of a suitable master switch device for such a configuration. - In another embodiment, no
master switch 211 will be used. The unitarypatient monitoring system 100 in such an embodiment will rather be “self sensing,” in that the system is actuated when a person applies their weight to the system, rather than by actuation of amaster switch 211. Such configurations will generally includecontrol circuitry 209. - In another embodiment,
control circuitry 209, which can include aprocessing circuit 210 such as a microprocessor or programmable logic, can be configured to be operable with the weightsensitive switch 201. For instance, thecontrol circuitry 209, through embedded executable code or programmed logic, can be configured to actuate theloudspeaker 203 only upon application of, and successive removal, of at least a predetermined weight from the unitarypatient monitoring system 100. Further, thecontrol circuitry 209 can be configured with the self-sensing feature that activates the system upon application of the person's weight to theswitch compartment 102. - Where
control circuitry 209 is used, additional features can be added as well. For example, thecontrol circuitry 209 can be configured to emit the audible alarm only for a predetermined duration or time period. Thecontrol circuitry 209 can be configured to emit the audible alarm for three, five, or ten minutes, for instance, upon removal of the person's weight from the unitarypatient monitoring system 100. Another suitable time period may be longer, such as between fifteen and sixty minutes. Alternatively, thecontrol circuitry 209 can be configured to emit the audible alarm until the predetermined weight is again applied to the weightsensitive switch 201. - Another feature that can be added is delayed alarm sounding. There are applications, for example, where a caregiver may wish to have the alarm sound only after a person has been off the unitary
patient monitoring system 100 for some predetermined amount of time, such as 10 seconds. In such a scenario, thecontrol circuitry 209 can be configured to actuate the alarm only after this predetermined time has lapsed. - To accommodate the situation where a caregiver wants to temporarily disable the alarm, such as for giving the patient a bath, in one embodiment the
control circuitry 209 includes an interruptswitch 212 that is operable with thecontrol circuitry 209 orprocessing circuit 210, where one is used. In such a configuration, thecontrol circuitry 209 can be configured to prevent theloudspeaker 203 from emitting the audible alarm upon actuation of the interruptswitch 212 until at least the predetermined weight is applied to, and removed from, the unitarypatient monitoring system 100 once again after actuation of the interruptswitch 212. This is best illustrated by way of example: A caregiver may desire to give a patient a bath. The patient gets up, thereby causing actuation of the alarm. The caregiver then actuates the interruptswitch 212, thereby quieting the alarm. Once the patient returns and places his weight on the system, the system is actuated once again. When the patient gets up, the alarm sounds. Further, the caregiver may wish to press the interruptswitch 212 prior to the patient getting up. In so doing, the caregiver prevents the alarm from actuating, thereby reducing noise and confusion in the surrounding area. - In one embodiment, the
control circuitry 209 can be configured to provide a nurse call alert in addition to sounding the audible alarm. In such a configuration, anoptional port 213 is provided for connecting the unitarypatient monitoring system 100 to a nurse call alert system, such as those found in hospitals and other care facilities. In this embodiment, when the alarm sounds, thecontrol circuitry 209 is configured to deliver the nurse call alert at the same time. - Turning now to
FIGS. 3 and 4 , illustrated therein are methods of operation of a unitary patient monitoring system (100) in accordance with embodiments of the invention. Such methods are suitable for configuration as executable code that is operable with theprocessing circuit 210 orcontrol circuitry 209, or that works as programmed logic in the same. Alternatively, the methods can be configured in state machines or in hardware configurations. -
FIG. 3 illustrates amethod 300 associated with an embodiment of a unitary patient monitoring system (100) employing a master switch (211). Atstate 301, the unitary patient monitoring system (100) is OFF. A caregiver actuates the system by toggling the master switch (211) from a first position to a second position, which is detected atdecision 302. - Where the master switch (211) is on, the system determines whether a predetermined weight, such as 40, 60, or 80 pounds, has been applied to the system via the weight sensitive switch (201) at
decision 303. Where this is the case, the system monitors the weight, detecting its removal atdecision 304. Upon removal of the predetermined weight, the system sounds the audible alarm atstep 305. -
FIG. 4 illustrates amethod 400 associated with an alternative embodiment of the unitary patient monitoring system (100) employing an interrupt switch (212) and the auto-activation feature of the control circuitry (209). - At
state 401, the system is idle, as the interrupt switch (212) has been actuated. This state is suitable for shipping the unitary patient monitoring system (100) or initially storing the unitary patient monitoring system (100). - At
decision 402, the control circuitry (209) detects whether a predetermined weight has been applied to the unitary patient monitoring system (100). Where it has, the system becomes active. - At
decision 403, the control circuitry (209) detects whether the predetermined weight has been removed from the unitary patient monitoring system (100). Where it has, the alarm is actuated atstep 404. A caregiver can silence the alarm by actuating the interrupt switch, which is detected atdecision 405. In some situations, the patient may even silence the sounding alarm by actuating the interrupt switch, such as when they momentarily rise and sit or lie back down. - In some embodiments, as mentioned above, the control circuitry (209) can be configured to emit the audible alarm only for a predetermined duration. Where a system includes this feature, the presence of a timer is determined at
decision 406, and its expiration atdecision 407. Where the system does not include this feature, these decisions will be omitted. - Upon actuation of the interrupt switch (212), the alarm will remain incapable of actuation until the application of, and removal of, a predetermined weight as detected at
decisions - Turning now to
FIGS. 5 and 6 , illustrated therein is one application for a unitarypatient monitoring system 100 in accordance with embodiments of the invention. The application illustrated inFIGS. 5 and 6 is that of an alarm to let caregivers know when a person has exited awheelchair 501. In such a configuration, the unitarypatient monitoring system 100 is configured in shape and size to match theseat 502 of thewheelchair 501. For example, the unitarypatient monitoring system 100 may have aswitch compartment 102 that is generally rectangular in shape and measures roughly 16″×18″ so as to fit within theseat 502 of astandard wheelchair 501. - As shown in
FIGS. 5 and 6 , thecover member 101 of the unitarypatient monitoring system 100 is substantially T-shaped. A first portion of the T-shape, shown inFIG. 5 as theswitch compartment 102, is placed within theseat 502 of thewheelchair 501. A second portion of the T-shape, shown inFIG. 6 as thealarm compartment 103, can then hang down from theseat 502 behind thewheelchair 501. As such, the alarm operates as an integral part of the unitarypatient monitoring system 100 with the alarm away from and behind the patient. Further, the caregiver has access to thealarm compartment 103 without having to move the patient. - Turning now to
FIGS. 7 and 8 , illustrated therein is another application for a unitarypatient monitoring system 100 in accordance with embodiments of the invention. The application illustrated inFIGS. 7 and 8 is that of an alarm to let caregivers know when a person has exited abed 701. In such a configuration, the unitarypatient monitoring system 100 can be configured in a larger shape and size than that ofFIGS. 5 and 6 , so as to generally match themattress 702 of thebed 701. For example, the unitarypatient monitoring system 100 may have aswitch compartment 102 that is generally rectangular in shape and measures roughly the width of the bed by 24 to 36 inches in length. - As shown in
FIGS. 7 and 8 , thecover member 101 of the unitarypatient monitoring system 100 is substantially T-shaped. A first portion of the T-shape, shown inFIG. 7 as theswitch compartment 102, is placed along themattress 702. A second portion of the T-shape, shown inFIG. 7 as thealarm compartment 103, can then hang down from themattress 702. Specifically, as shown inFIG. 8 , thealarm compartment 103 can hang substantially orthogonally from theswitch compartment 102 beside thepatient 801. Thepatient 801 is free to move or turn over without obstructing the alarm in thealarm compartment 103. Further, there are no wires with which to become tangled. Additionally, the caregiver has access to thealarm compartment 103 without having to move the patient. - Turning now to
FIG. 9 , illustrated therein is onemethod 900 of using a unitary patient monitoring system (100) in accordance with embodiments of the invention. Themethod 900 ofFIG. 9 would be suitable, for instance, with the application shown inFIGS. 5 and 6 . - At
step 901, the caregiver obtains a unitary patient monitoring system (100). In one embodiment, this unitary patient monitoring system (100) will have a cover member (101) disposed about the system, and will include a loudspeaker (203) in an alarm region of the cover member (101), such as the switch compartment (102), and a weight sensitive switch (201) in a switch region of the cover member (101), such as the switch compartment (102). - At
step 902, the caregiver opens any packaging in which the unitary patient monitoring system (100) was stored or shipped.Optional step 903 is used where the unitary patient monitoring system (100) includes a master switch (211). Specifically, where a master switch (211) is included, the caregiver switches on the master switch (211) atstep 903. Where no master switch (211) is included,step 903 is omitted. - At
step 904, the caregiver places the switch region of the unitary patient monitoring system (100) in the seat of a wheelchair or on the mattress of a bed. Atstep 905, the caregiver drapes the alarm region either off the mattress or between the seat and back of a wheelchair such that the alarm region dangles. By dangling, the alarm region of the unitary patient monitoring provides the caregiver with access to the alarm region and prevents the patient from obstructing or interfering with the alarm region. - At
step 906, the caregiver assists or directs the patient onto the switch region of the unitary patient monitoring system (100), thereby causing the patient to sit or lie on the switch region. Where control circuitry (209) having auto-sensing functionality is included with the unitary patient monitoring system (100), the corresponding application of the patient's weight on the switch region activates the unitary patient monitoring system (100). When the patient removes his weight from the switch region, the alarm sounds. - Turning now to
FIG. 10 , illustrated therein is amethod 1000 of using a unitary patient monitoring system (100) after the alarm has been actuated by the patient removing his weight from the switch region. - At
step 1001, the alarm is sounding. Atstep 1002, the caregiver checks to see if the patient is okay. Once the patient's safety is taken care of, and where the unitary patient monitoring system (100) includes an interrupt switch (212), the caregiver may stop the alarm from sounding by pressing the interrupt switch (212) atstep 1003. - At
step 1004, the caregiver can reposition the unitary patient monitoring system (100). Atstep 1005, the caregiver can assist or direct the patient to place his weight back on the switch region, thereby reactivating the unitary patient monitoring system (100). - Turning now to
FIG. 11 , illustrated therein is amethod 1100 of permitting a patient to remove himself from a unitary patient monitoring system (100) having an interrupt switch (212) in accordance with embodiments of the invention without setting off the alarm. Specifically, themethod 1100 ofFIG. 11 can be used, for example, where a patient needs to get up to go to the bathroom with the caregiver's assistance. - At
step 1101, the caregiver causes the patient to apply his weight to the switch region of the unitary patient monitoring system (100) by sitting on the switch region or lying on the switch region. This application of weight causes the system to be actuated. - At
step 1102, the caregiver actuates the interrupt switch (212) thereby preventing the alarm from sounding. Atstep 1103, the caregiver causes the patient to remove his weight from the switch region of the unitary patient monitoring system (100), perhaps by assisting the patient from the wheelchair or bed. Atstep 1104, the caregiver assists the patient with the necessary activity, be it going to the bathroom, exercising, eating a meal, or bathing. Atstep 1105, the caregiver assists the patient back onto the switch region of the unitary patient monitoring system (100), thereby resetting the alarm. - In the foregoing specification, specific embodiments of the present invention have been described. However, one of ordinary skill in the art appreciates that various modifications and changes can be made without departing from the scope of the present invention as set forth in the claims below. Thus, while preferred embodiments of the invention have been illustrated and described, it is clear that the invention is not so limited. Numerous modifications, changes, variations, substitutions, and equivalents will occur to those skilled in the art without departing from the spirit and scope of the present invention as defined by the following claims. Accordingly, the specification and figures are to be regarded in an illustrative rather than a restrictive sense, and all such modifications are intended to be included within the scope of present invention. The benefits, advantages, solutions to problems, and any element(s) that may cause any benefit, advantage, or solution to occur or become more pronounced are not to be construed as a critical, required, or essential features or elements of any or all the claims.
Claims (20)
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US8009056B2 (en) * | 2008-09-25 | 2011-08-30 | United Security Products, Inc. | Movement monitor for medical patients |
US20100073179A1 (en) * | 2008-09-25 | 2010-03-25 | United Security Products, Inc. | Movement Monitor for Medical Patients |
US8451129B2 (en) * | 2008-11-03 | 2013-05-28 | Medline Industries, Inc. | Patient monitoring system with unitary structure and method |
US10499834B2 (en) * | 2013-02-01 | 2019-12-10 | Parasol Medical LLC | Patient movement notification device |
US9129513B1 (en) * | 2013-07-31 | 2015-09-08 | Ronald P. Clarke | Floor mat system |
US11064677B2 (en) * | 2015-06-23 | 2021-07-20 | Matthew Friscia | Lighted pet bed |
US20190304283A1 (en) | 2017-08-03 | 2019-10-03 | Tidi Products, Llc | Integrated Belt And Sensor For Alarm For Patient Furniture |
US20210254644A1 (en) | 2017-08-03 | 2021-08-19 | Tidi Products, Llc | Integrated Belt and Sensor for Alarm for Patient Furniture |
JP2020530353A (en) | 2017-08-10 | 2020-10-22 | パラソル・メディカル・エルエルシーParasol Medical Llc | Patient movement and incontinence notification system |
TWM615870U (en) * | 2021-03-10 | 2021-08-21 | 劉文雄 | A wheelchair safety melody apparatus |
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US20100109879A1 (en) | 2010-05-06 |
US8451129B2 (en) | 2013-05-28 |
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