Control tabs for infusion devices and methods of using the same
An external infusion device that infuses a fluid into an individual's body includes a housing, a reservoir, a drive system, a power supply, electrical elements, and a tab. The reservoir contains the fluid, and the drive system forces the fluid from the reservoir. The electrical elements control the power to the drive system to regulate the rate that fluid is forced from the reservoir. The tab mates with the housing, and contains at least one electrical element. The tab is removable, and may be replaced with a different tab. The different tab may change the rate fluid is forced from the reservoir. A tab may be removed from one external infusion device and installed in a different external infusion device. The tab may be limited to use in a predetermined number of external infusion devices and may include a power supply.
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This application is a continuation of U.S. patent application Ser. No. 09/672,244, filed on Sep. 28, 2000, and entitled “Cost-Sensitive Application Infusion Device,” which is a continuation of U.S. patent application Ser. No. 09/533,578, filed on Mar. 23, 2000, and entitled “Cost-Sensitive Application Infusion Device,” both of which are specifically incorporated by reference herein.
FIELD OF THE INVENTIONThis invention relates to external infusion devices and, in particular embodiments to external infusion devices that control the rate that a fluid is infused into an individual's body.
BACKGROUND OF THE INVENTIONPortable personal infusion devices and systems are relatively well-known in the medical arts, for use in delivering or dispensing a prescribed medication to a patient. Many pharmaceutical agents are delivered into the subcutaneous tissue and the most common is insulin. Currently, more than 70,000 patients in the U.S. and 30,000 more patients worldwide use continuous subcutaneous infusion of insulin (CSII) for the treatment of diabetes mellitus. However, other medications that are infused include HIV drugs, drugs to treat pulmonary hypertension, iron chelation drugs, pain medications, and anti-cancer treatments.
Traditionally, low cost infusion devices have used an elastomeric diaphragm, sponge rubber, balloon or gas generator to expel fluid to be infused into a patient over a period of time at a single, relatively constant rate. A drawback to these devices is that they are only filled with fluid once. When the infusion of fluid is complete, the infusion device is disposed of. Thus, the infusion device must be made at an extremely low cost. Another drawback is that the low cost may not allow for the high quality needed to have sufficient flow rate control accuracy for the delivery of dosage sensitive drugs.
To obviate these drawbacks, infusion devices have been designed with more accurate dosage control, but at a significantly higher cost. To compensate for the relatively high cost, the more accurate infusion devices are designed to be refilled and reused.
In one form, refillable infusion devices comprise a relatively compact housing adapted to receive a syringe or reservoir carrying a prescribed medication for administration to the patient through infusion tubing and an associated catheter or infusion set. Such infusion devices are utilized to administer insulin and other medications, with exemplary infusion device constructions being shown and described in U.S. Pat. Nos. 4,562,751; 4,678,408; 4,685,903; 5,080,653 and 5,097,122, which are incorporated by reference herein.
While the sophisticated electronics and robust mechanics of the more expensive refillable infusion devices provide a more reliable and accurate infusion device, the cost of manufacturing may make the refillable infusion device too expensive for some users or medications. On the other hand, the low cost, one-time-use, constant flow rate infusion devices may not have sufficient flow rate accuracy or the adjustments needed to control the dosage for some users.
SUMMARY OF THE DISCLOSUREAccording to an embodiment of the invention, a reusable external infusion device with a predetermined usage life for infusing a fluid into a body includes a replaceable reservoir, a power supply, a drive system, an electronics system, and a housing. The housing contains the reservoir, power supply, drive system, and electronics system. The replaceable reservoir contains the fluid before infusing and has a usage life substantially shorter than the predetermined usage life of the infusion device. The power supply provides power to the drive system and the electronics system to force fluid from the reservoir. The electronics system regulates the power from the power supply to control the drive system.
In particular embodiments of the present invention, the infusion device includes a control system operatively coupled to the electronics system that adjusts one or more control parameters.
In more particular embodiments, the control system is a supplemental device. In additional embodiments, the supplemental device establishes two way communication with the electronics system. In particular embodiments, the supplemental device has a display.
In preferred embodiments, after the infusion device's predetermined usage life has expired, the infusion device may be refurbished at least once to function for another predetermined usage life. In particular embodiments, when the predetermined usage life for the infusion device expires, the infusion device ceases to infuse fluid. In further particular embodiments, the predetermined usage life for the infusion device is programmed into a software program as a number of times that the replaceable reservoir is replaced in the infusion device.
In preferred embodiments, the drive mechanism of the infusion device contains a DC motor in the drive system. In alternative embodiments, the drive mechanism of the infusion device contains a stepper motor, solenoid motor, a shape memory alloy driven motor, or the like.
According to another embodiment of the present invention, a reusable external infusion device is for infusing a fluid into an individual. In preferred embodiments, the infusion device includes a housing and a replaceable fluid containing reservoir that is inserted into the housing.
In preferred embodiments, the housing contains only one electronics module to control the infusion device. In particular embodiments, the electronics module contained within the housing is produced using chip-on-board construction. In other particular embodiments, the electronics module contained within the housing is produced using ball grid array construction. In further embodiments, the electronics module a flex circuit to control the infusion device. In preferred embodiments, the housing contains a detection device that detects the presence or absence of the replaceable reservoir. In further preferred embodiments, the reusable external infusion device further includes a drive mechanism coupled to an electronics system and the housing includes a button coupled to the electronics system that an individual may push to cause the drive mechanism to deliver a bolus of fluid into the individual.
In additional preferred embodiments, the housing and internal contents are assembled together without screws. In more preferred embodiments, the housing includes at least one feature that is fused using ultrasonic vibrations. In other preferred embodiments, the housing includes a drive mechanism that contains at least one non-metallic gear.
In preferred embodiments, the housing includes a slidable key that provides access to remove and/or replace the replaceable reservoir inside the housing. In particular embodiments, the housing accepts a key that includes a communication device for communicating with a supplemental device. In alternative embodiments, the housing accepts a tab that includes a communication device for communicating with a supplemental device. In further alternative embodiments, the housing accepts a tab/key that includes a communication device for communicating with a supplemental device.
In further preferred embodiments, the housing includes an opening to insert a removable tab that includes a programmable chip that contains at least one control parameter to control the infusion device. In further embodiments, the housing includes an opening to insert a tab that includes at least one electrical terminal that establishes electrical contact between at least one set of electrical terminals inside the housing. In particular embodiments, the housing is adapted to receive at least one of at least two different tabs that are insertable into the housing, and the at least two different tabs each have different electrical terminal configurations that establish electrical contact between different electrical terminals inside the housing, and connects different electrical terminals to cause the external infusion device to dispense fluid at different rates. In still further embodiments, the housing is adapted to receive at least one tab with an optically readable pattern, and the housing includes an optical reader to read the optically readable pattern on the at least one tab to control at least one control parameter of the reusable external infusion device. In alternative embodiments, the housing is adapted to receive at least one tab that includes magnetically stored information, and the housing includes a magnetic reader to read the magnetically stored information from the at least one tab to control at least one control parameter of the reusable external infusion device.
In preferred embodiments, the reusable external infusion device includes at least one lithium magnesium oxide (LiMnO2) battery. In particular embodiments, the reusable external infusion device includes a battery that lasts at least 10 weeks, measured while the reusable external infusion device dispenses up to 40 milliliters of fluid per day and while the alarms draw substantially no power from at least one battery.
In additional particular embodiments, an alarm is activated when the reusable external infusion device needs to be refurbished. In preferred embodiments, the reusable external infusion device has a predetermined usage life and when the predetermined usage life has expired, the reusable external infusion device may be refurbished at least once to function for another predetermined usage life. In particular embodiments, the reusable external infusion device has a predetermined usage life and when the predetermined usage life expires, the reusable external infusion device ceases to infuse fluid.
In further particular embodiments, the reusable external infusion device has a predetermined usage life and the predetermined usage life for the reusable external infusion device is programmed into a software program as a number of times that the replaceable reservoir is replaced in the housing, as a number of days that the reusable external infusion device is in use, as the number of times the battery is replaced in the reusable external infusion device, and/or as the number of times that a key is removed from the reusable external infusion device. In other embodiments, the reusable external infusion device has a predetermined usage life and the predetermined usage life for the reusable external infusion device is expired when the amount of electrical power consumed to empty a reservoir exceeds a predetermined amount programmed into a software program.
According to an embodiment of the invention, an external infusion device for infusing a fluid into a body includes a housing, a reservoir, a drive system, at least one power supply, one or more electrical elements, and a tab. The housing contains the reservoir and the drive system. The reservoir contains the fluid, and the drive system forces the fluid from the reservoir. The drive system is powered by the at least one power supply. The one or more electrical elements are coupled to the power supply and the drive system to regulate the rate that the drive system forces fluid from the reservoir. The tab mates with the housing, and contains at least one of the one or more electrical elements. In preferred embodiments, the tab is removable, and in particular embodiments is replaceable with a different tab. In some embodiments, the different tab changes the rate that the drive system forces fluid from the reservoir. In particular embodiments, the tab may be removed from one external infusion device and mated with a different external infusion device to affect the operation of the different external infusion device. In other particular embodiments, the tab may only be used in a predetermined number of external infusion devices. In further embodiments, the tab includes at least one of the at least one power supply.
In preferred embodiments, the tab is insertable into an opening in the housing, and may include a seal to improve resistance to water or contaminants entering the housing. Alternatively, the tab is attachable to the exterior of the housing. In alternative embodiments, the housing includes a seal that is in contact with the tab to improve resistance to water or contaminants entering the housing.
In alternative embodiments, the tab is disposable, and in some embodiments, the tab, once it is installed, is not removable from the housing. In other embodiments, the reservoir of the external infusion device can only be filled once.
In preferred embodiments, the tab affects whether a medicament filling apparatus can mate with the infusion device. In alternative embodiments, the tab affects whether or not a fluid path between a medicament filling apparatus and the reservoir is open.
In particular embodiments, the tab includes all of the one or more electrical elements. In other embodiments, the tab includes at least a portion of the drive system. In still other embodiments, the tab includes the drive system. In yet another embodiment, the tab includes one or more components that are sensitive to sterilization treatments. And in still another embodiment, the tab includes one or more components that are reusable.
In particular embodiments, the tab includes one or more indicators. In preferred embodiments, the one or more indicators indicate that the drive system is powered. In other embodiments, the one or more indicators indicate that fluid delivery is in process. And in still other embodiments, the one or more indicators indicate a power supply status.
According to an embodiment of the invention, a tab for an external infusion device having a housing containing a reservoir for fluid to be infused into a body and a drive system to force the fluid from the reservoir powered by at least one power supply and controlled by one or more electrical elements includes a support structure and at least one of the one or more electrical elements. The support structure mates with the housing of the external infusion device, and the at least one of the one or more electrical elements is attached to the support structure. In preferred embodiments, the tab affects the rate that the fluid is infused into the body. Furthermore, the tab is insertable into an opening in the housing, and includes a seal to improve resistance to water or contaminants entering the housing. In alternative embodiments, the tab is attachable to the exterior of the housing. In other alternative embodiments, once the tab is installed, it contacts a seal on the housing that improves resistance to water or contaminants entering the housing.
In preferred embodiments, the tab is removable, and in some embodiments, the tab may be removed form one external infusion device and mated with a different external infusion device to affect at least one control parameter of the different external infusion device. In particular embodiments, the tab may only be used in a predetermined number of external infusion devices.
In alternative embodiments, the tab is disposable and in some embodiments, after it is installed, the tab is not removable from the housing. In further alternative embodiments, the tab can only be used once. In other alternative embodiments, the tab includes at least one of the at least one power supply. In further embodiments, the tab includes at least a portion of the drive system.
In some embodiments, the tab affects whether a medicament filling apparatus can mate with the infusion device. In other embodiments, the tab affects whether or not a fluid path between a medicament filling apparatus and the reservoir is open.
Other features and advantages of the invention will become apparent from the following detailed description, taken in conjunction with the accompanying drawings, which illustrate, by way of example, various features of embodiments of the invention.
BRIEF DESCRIPTION OF THE DRAWINGSA detailed description of embodiments of the invention will be made with reference to the accompanying drawings, wherein like numerals designate corresponding parts in the several figures.
As shown in the drawings for purposes of illustration, the invention is embodied in a reusable external infusion device for infusing a fluid into an individual's body and methods of manufacturing the same. The infusion device controls the rate that fluid flows from a reservoir inside a housing, through an external tube, and into the individual's body. In preferred embodiments, the infused fluid is insulin. In alternative embodiments, many other fluids may be administered through infusion such as, but not limited to, HIV drugs, drugs to treat pulmonary hypertension, iron chelation drugs, pain medications, anti-cancer treatments, vitamins, hormones, or the like.
In preferred embodiments, as shown in
The control system 18 provides a method for the user or another qualified person to adjust one or more control parameters that the electronics system 16 uses to calculate and issue commands to the drive system 14. Control parameters include, for example, one or more basal rates, one or more bolus rates, maximum and minimum delivery rates, one or more alarm criteria, or the like.
In preferred embodiments, the electronics system 16 is a compilation of one or more electrical elements designed to carryout commands as specified by the control parameters. Electrical elements may include, but are not limited to, resistors, capacitors, amplifiers, diodes, semiconductor circuits, traces, wires, antennae, buttons, sound emanating devices, light emitting devices, receivers, transmitters, switches, or the like. In preferred embodiments, the electrical elements are attached to a single electronics board to form an electronics module. In particular embodiments, an electronics module 30 is a “popsickle stick” design, as shown in
In alternative embodiments, the electrical elements of the electronics module are mounted on a flex circuit. Preferably, the flex circuit has one or more flex circuit leads 34 that run to various locations within the housing 22 to minimize or eliminate the need for wires. An example of one embodiment of a flex circuit 32 is shown in
In preferred embodiments, the electronics module 30 includes chip-on-board construction. In alternative embodiments, the electronics module 30 includes ball grid array (BGA) packages or leaded chip construction.
In preferred embodiments, the electronics system 16 includes one or more LEDs 40 to indicate specific conditions about the infusion device 10, such as whether the fluid is being dispensed, the battery power level, the fluid level in the reservoir 12, whether the electronics system 16 is functioning, warnings regarding how soon the infusion device 10 will require servicing, or the like. In preferred embodiments, the electronics system 16 includes one or more alarms. Preferably, an alarm is a piezo electric sound device. In alternative embodiments, the one or more alarms includes a vibrator, a light, a sound emanating device, or the like.
In preferred embodiments, as shown in
In preferred embodiments, the one or more gears 52 external to the motor/gear box 48 have a one-to-one gear ratio. However, in alternative embodiments, the gears may have different gear rations such as 1.5:1, 2:1, 3:1, 5:1, or the like depending on the motor control resolution and the minimum dosage requirement for the fluid. In particular embodiments, the gears 52 are made of molded plastic. In alternative embodiments, the gears 52 are made of metal, epoxy, laminates, or other suitably strong materials. In alternative embodiments, mechanical power is transferred from the motor/gear box 48 to the lead screw 54 using one or more of a belt, timing belt, chain, gears, rack or the like.
As shown on
As shown in
In preferred embodiments, the power supply is a battery 44. In particular embodiments, the power supply is a lithium magnesium oxide (Li Mn O2) battery 44, as shown in
In preferred embodiments, the battery 44 and reservoir 12 are removable through an opening 82 in the housing 22, and the opening 82 may be closed by sliding a key 84 into a slot 83 formed in the housing 22 so that the key 84 covers the battery 44 and slides over the shoulder 86 of the reservoir 12, as shown in
In preferred embodiments, the key 84 has a conductive trace 85 that connects a battery terminal 88 of the battery 44 to a power lead 87 on the electronics module 30 (see
In preferred embodiments, a switch 89 (shown in
In preferred embodiments, the infusion device 10 is disabled by the electronics system 16 when a predetermined usage life is expired. For instance, the electronics system 16 keeps track of the number of times the reservoir 12 is replaced and compares that number to a specified number that is programmed into a software program in the electronics system 16. Thus, the electronics system 16 will shut down the infusion device 10, stopping the flow of fluid, after the reservoir 12 is replaced a specified number of times. In preferred embodiments, the predetermined life of the infusion device 10 is expired when the reservoir 12 has been replaced sixty times. In alternative embodiments, the number of times that the reservoir 12 may be replaced before the predetermined life of the infusion device 10 is expired may be as many as one hundred and fifty times or as few as twenty times due to the durability of the components that might wear, how carefully individuals handle the infusion device 10, the types of climates the infusion device 10 is subjected to, or the like. In additional alternative embodiments, other measurements are used to detect when the infusion device's predetermined life is expired such as, the number of days of use, the number of times the battery 44 is replaced, an increase in the amount of battery power consumed to empty a reservoir 12, the number of times a key 84 is removed from the infusion device 10, or the like.
In preferred embodiments, the infusion device 10 may be refurbished and returned to the user to be used again after the electronics system 16 has disabled the infusion device 10 due to exceeding its predetermined life. In particular embodiments, the infusion device 10 can be refurbished at least once before its total life is expired. In particular embodiments, the predetermined life may increase or decrease after refurbishing due to a change in the quality of a replacement part, a new lubrication method, new information about the durability of the infusion device 10, how well the user cares for the particular infusion device, or the like. In alternative embodiments, the infusion device 10 is not refurbishable. In other alternative embodiments, the infusion device 10 may be refurbished at least 2 times and up to an indefinite number of times before its total life is expired and it can no longer be used. In particular embodiments, measurements are taken to determine if the total life of the infusion device 10 has expired such as, a significant physical shock detected by an accelerometer (perhaps a shock greater than 2.5 gs, depending on the amount of shock the infusion device 10 can handle), an increase in the amount of battery power consumed to empty a reservoir 12, a maximum temperature such as 120 degrees F. has been exceeded, the reservoir has been replaced too many times (such as 1,000 times), or the like.
In preferred embodiments, the electronics system 16 stores the control parameters, and default control parameters are programmed into the electronics system 16 during manufacturing. Preferably, the control parameters may be changed by an individual using the control system 18. In preferred embodiments, the control system 18 of the infusion device 10 has buttons 42 accessible through the housing 22. In particular embodiments, a button 42 is used to command a bolus. In other particular embodiments, additional buttons 42 may provide additional control features such as to undo a previous command, confirm a command, activate a function, initialize a software program, initialize a new reservoir 12, reset one or more control parameters to a default value, modify a control parameter, withdraw the piston 56, or the like. In preferred embodiments, LEDs indicate that control parameters have been modified by turning on or off, flashing, changing color, sequencing, or the like. In alternative embodiments, the electronics system includes a LCD, LED display, or other displays to show the status of control parameters and/or indicate to the user, which control parameters, are being modified. In other alternative embodiments, other feedback methods such as sounds, vibrations, or the like are used to indicate the status of control parameters.
In other embodiments, a supplemental device 90 is used as, or is used in addition to, the control system 18 to adjust, change, modify, program, input, or the like, one or all of the control parameters. The supplemental device 90 interfaces with the electronics system 16 as shown in
In particular embodiments, the supplemental device 90 is a computer system 200 that communicates with an infusion device 210. The computer system 200 has a monitor 202 as the display, a keyboard 204 as the input system, and the computer 206 and wires 208 as the communication system, as shown in
In alternative embodiments, the communication system 102 in the supplemental device 90 uses JR signals, optical signals, direct electrical contact, laser signals, combinations of carrier frequencies, or the like. In further alternative embodiments, the display 98 is monitor, a touch screen, LEDs, lights, or the like. In more alternative embodiments, the input system 100 includes a keyboard, a button, a touch screen, a touch pad, a dial, a switch, a microphone, a joystick, a computer mouse, a roller ball, or the like.
In particular alternative embodiments, a communication key is used that includes portions of the communication system. For example, a communication key 601 has a radio frequency transmitter 603 and receiver 605, shown in
In another embodiment, control parameters such as the basal and/or bolus levels, maximum or minimum basal rate or the like, are set in an infusion device 103 when a tab 104, with at least one conductive trace 108, is inserted into a slot 106 on the housing 107, such as shown in
In alternative embodiments, the tab is in the form of a tab/key 110 that slides into slot 83 on an infusion device 111 to hold the battery 44 and/or reservoir 12 in place as shown in
In other embodiments, a tab 116 has a programmable chip 118, such as shown in
In alternative embodiments, the tab is in the form of a tab/key 128 and has a programmable chip 130 such as shown in
In additional alternative embodiments, a tab/key, normally used to establish control parameters as described above, may be a communication key. The communication key enables the infusion device to communicate with a supplemental device 90 to change control parameters or transfer data. In particular embodiments, a tab/key that is not a communication key is reinserted into the infusion device for normal operation after the communication key has completed the communication with the supplemental device 90. In other particular embodiments, the communication key is left in the infusion device or a different tab/key is used after the communication device is removed.
In other particular embodiments, the tab/key includes communication devices. For example, a tab/key with a computer chip (such as tab/key 128 described above) may include a slot to accept a connector such as communication key 501 shown in FIGS. 19(a) and 19(b). Other communication devices such as IR, RF, ultrasonic, or the like may be included on a tab/key. In particular embodiments, the supplemental device 90 can reprogram computer chips included on the tab/key. In alternative embodiments, a communication device is included on a tab that does not serve as the key that covers the battery 44 and the reservoir 12.
In preferred embodiments, the tabs are color coded to identify the basal rate or other control parameters they are programmed to command. In alternative embodiments, other identification methods may be used to indicate the basal rate, and/or other control parameters, associated with a particular tab such as, a code number, a serial number, a lot number, a batch number, a name, or the like. Methods of applying the identification include, stamping, silk-screening, printing, typing, labels, embossing, imprinting, molding, or the like. In additional alternative embodiments, other means are used to identify tabs that have different control parameters from each other such as, surface textures, flexibility, materials, a raised patterns, printed patterns, or the like.
Tabs may be used to modify characteristics of other infusion devices as well, such as those described in U.S. Pat. Nos. 4,562,751; 4,685,903; 5,080,653; 5,505,709; 5,785,688; 5,814,020 and 5,097,122; and disclosed in U.S. patent application Ser. No. 09/334,858 (attorney docket PD-0294), filed Jun. 17, 1999 and entitled “Infusion Pump With Remote Programming and Carbohydrate Calculator Capabilities”, and Ser. No. 09/429,352 (attorney docket PD-0286), filed Oct. 28, 1999 and entitled “Compact Pump Drive System”, which are hereby incorporated by reference. In particular embodiments, tabs are used in disposable infusion devices, such as shown in FIGS. 23(a)-24(b) and U.S. Pat. Nos. 5,814,020 and 5,785,688. The infusion device 800, shown in FIGS. 23(a) and (b), has a housing 818, a reservoir 812, a gas generator 814, one or more batteries 816, and a tab 802 that contains one or more electronic elements (not shown). When the tab 802 is installed into an opening 804 on the infusion device 800, one or more conductive traces 806 come in contact with one or more electrical terminals 808 to provide an electrical contact between the infusion device 800 and the tab 802. A seal 810 closes the opening 804 in the infusion device 800 to prevent contaminants from entering and/or to improve water resistance of the infusion device 800.
In other embodiments, one or more batteries 916 are stored in a tab 902 that mates with an infusion device 900, such as shown in FIGS. 24(a) and (b). The infusion device 900 has a housing 918, a reservoir 912, a gas generator 914, and an opening 904 to receive the tab 902. The tab 902 contains the one or more batteries 906 and one or more electronic elements (not shown). When the tab 902 is inserted into the opening 904 one or more conductive traces 906 come into electrical contact with one or more electrical terminals 908 on the infusion device 900. A seal 910 closes the opening 904 in the infusion device 900 to prevent contaminates from entering and/or to improve water resistance of the infusion device 900.
In still other embodiments, one or more components that are included with the tab are reusable and/or sensitive to sterilization treatments such as, radiation, heat, gas, fog or mist (such as hydrogen peroxide), chemical washes or soaks, and the like. The infusion device without the tab can be processed through a sterilization process before the tab is inserted. Thus, the tab, and any components included with the tab, are excluded from a sterilization process, since these components do not come in contact with fluids or materials infused into the body and do not need to be sterilized.
In some embodiments, the tab may be used in one infusion device, and then removed from the infusion device and installed into another infusion device. For example, a tab may be mated with an infusion device that has been sterilized, and then the infusion device is used for infusing a fluid into an individual. When the infusion device is ready to be replaced due to, for example, a low reservoir, housing damage, or for any other reason, the tab may be removed. Once the tab is removed, the infusion device may be disposed of or re-sterilized. The tab may be reused with a new infusion device or a newly sterilized infusion device, or the tab may be disposed of when no longer useable.
In preferred embodiments, the tab must be inserted into the infusion device for the infusion device to operate. And removal of the tab causes the infusion device to stop fluid delivery. In alternative embodiments, the infusion device continues to operate independent of whether a tab is installed or not.
In preferred embodiments, an LED (light emitting diode) or other indicator may be used on the infusion device or on the tab to indicate that the tab is inserted properly, the drive system is powered, fluid delivery is in process, the power supply status, and the like.
In preferred embodiments, the tab may include, for example, portions of, or all of: an electronics system, drive system, power supply, communication system, output device (such as an LCD, one or more LED's, speaker, sound making device, vibrator, and the like), input devices (such as a key pad, a touch screen, or the like), or the like.
In a particular embodiment, one or more batteries 1016, an electronics system 1018, and a drive system 1014 are included in a tab 1002 that mates with an infusion device 1000, such as shown in FIGS. 25(a) and (b). The infusion device 1000 has a housing 1018, a reservoir 1012, and an opening 1004 to receive the tab 1002. When the tab 1002 is inserted into the opening 1004, one or more conductive traces 1006 come into electrical contact with one or more electrical terminals 1008 on the infusion device 1000. A seal 1010 closes the opening 1004 in the infusion device 1000 to prevent contaminates from entering and/or to improve water resistance of the infusion device 1000. In alternative embodiments, some of the elements 1016, 1018, or 1014 may be omitted entirely.
In alternative embodiments, a tab may be shaped to attach to the external surface of the infusion device. In other embodiments, the tabs may be formed in different shapes and the seals may be omitted, placed in a different position on the tab, or placed on or incorporated in the infusion device.
In some embodiments, the tabs are coded so that tabs with different characteristics (such as electrical elements that cause a different infusion rate, or work with different types of insulin, or add or subtract features, or affect different control parameters) may be identified from one another. For example, the tabs may be different colors, have bar codes or markings, include numbers, letters and/or names, have bumps, be different shapes, have textures or patterns, or the like.
In other embodiments, the tabs may affect the infusion device filling process. In some embodiments, the tab must be installed into the infusion device before the infusion device reservoir is filled with medicament. For instance the tab may activate a valve to open the fluid path, or the tab may include a port for a filling apparatus to mate with the infusion device, of the shape of the tab may limit the shape of the filling apparatus that can be mated with the infusion device to fill the reservoir with medicament, or the like. In these embodiments, different concentrations or different types of medicament may be packaged in different filling apparatuses so that each type of tab will only permit a particular filling apparatus to mate with the infusion device, if the filling apparatus contains medicament that is compatible with the tab. In alternative embodiments, the tab may provide a code or signal to the infusion device indicating which filling apparatuses are compatible with the tab. Alternatively, each filling apparatus may provide a code or signal to the infusion device. If the filling apparatus is not compatible with the tab, the filling apparatus cannot connect with the infusion device and/or the fluid path to the reservoir is not opened to permit filling. Conversely, if the filling apparatus is compatible with the tab, it will connect with the infusion device and the fluid path to the reservoir is opened to permit filling.
In other embodiments, each tab has a limited usage life. In particular embodiments, the tab is removable from the infusion device and may be installed into a different infusion device to affect at least one control parameter of the infusion device. In some embodiments, the tab may only be re-installed into a different infusion device a predetermined number of times, which determines the usage life. Once the usage life is exceeded, the tab will not permit the infusion device to function. In other embodiments, the tab will work for a limited amount of time or until a predetermined amount of medicament is expelled from the infusion device reservoir, or until the reservoir has been emptied a predetermined number of times, or the like.
Tabs may also be used to calibrate or control various features of characteristic or analyte monitor systems such as those described in U.S. patent application Ser. No. 09/465,715 (attorney docket PD-0291), filed Dec. 17, 1999 and entitled “Telemetered Characteristic Monitor System And Method Of Using The Same”; and Ser. No. 09/246,661 (attorney docket PD-0321), filed Feb. 5, 1999 and entitled “An Analyte Sensor And Holter-Type Monitor System And Method Of Using The Same”; and also Ser. No. 09/334,996 (attorney docket PD-0338), filed Jun. 17, 1999 and entitled “Characteristic Monitor With A Characteristic Meter And Method Of Using The Same”, which are all hereby incorporated by reference herein.
In preferred embodiments, substantially all parts of the infusion device 10 are designed to slide or snap together during assembly. In particular embodiments, no screws are used on the infusion device 10. In preferred embodiments, the housing 22 is plastic and is sealed using ultrasonic fusing. In alternative embodiments, other methods are used to seal the housing 22 such as gluing, bonding, fusing, melting, snapping, pressing, or the like. In other alternative embodiments, the housing 22 is made of other materials such as metal, rubber, resin, foam, or the like. Refurbishing of the infusion pump 10 may require destruction of the housing 22.
While the description above refers to particular embodiments of the present invention, it will be understood that many modifications may be made without departing from the spirit thereof. The accompanying claims are intended to cover such modifications as would fall within the true scope and spirit of the present invention.
The presently disclosed embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims, rather than the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.
Claims
1-41. (canceled)
42. An external infusion system for infusing a fluid into a body, the infusion system comprising:
- an external infusion device comprising: a housing adapted for use on an exterior of the body; a reservoir contained in the housing for containing the fluid before infusing; a drive system for delivering the fluid from the reservoir into the body; and an electronics system coupled to the drive system that uses a plurality of control parameters to regulate the drive system to deliver the fluid from the reservoir into the body; wherein the infusion device has a predetermined usage life, and when the predetermined usage life for the infusion device expires, the infusion device ceases to deliver the fluid from the reservoir into the body; and
- a supplemental device comprising: an input device for inputting data to adjust at least one of the control parameters of the infusion device; a display coupled to the input device for displaying the at least one of the control parameters of the infusion device; and a communication system coupled to the input device and the display that interfaces with the electronics system of the infusion device to adjust the at least one of the control parameters of the infusion device.
43. The infusion system of claim 42, wherein the predetermined usage life for the infusion device is programmed into the electronics system as a number of days the infusion device is in use.
44. The infusion system of claim 42, wherein the predetermined usage life for the infusion device is programmed into the electronics system as a number of times the reservoir is replaced in the infusion device.
45. The infusion system of claim 42, wherein the infusion device further comprises a power supply coupled to the drive system and the electronics system for providing power to the drive system and the electronics system.
46. The infusion system of claim 45, wherein the power supply of the infusion device is a battery, and the predetermined usage life for the infusion device is programmed into the electronics system as a number of times the battery is replaced in the infusion device.
47. The infusion system of claim 42, wherein the drive system of the infusion device comprises a shape memory alloy driven motor.
48. The infusion system of claim 42, wherein the drive system of the infusion device comprises a DC motor.
49. The infusion system of claim 42, wherein the supplemental device communicates with the infusion device using a wireless connection.
50. The infusion system of claim 49, wherein the supplemental device communicates with the infusion device using RF frequencies.
51. The infusion device of claim 42, wherein the infusion device further comprises an alarm that is activated when the predetermined usage life for the infusion device expires.
52. The infusion system of claim 42, wherein the communication system of the supplemental device further interfaces with the electronics system of the infusion device to receive data from the infusion device.
53. The infusion system of claim 52, wherein the display of the supplemental device further displays the data received from the infusion device.
54. The infusion system of claim 52, wherein the supplemental device further comprises an alarm that is activated when the communication system receives data from the infusion device indicating that the predetermined usage life for the infusion device has expired.
55. The infusion system of claim 42, wherein the fluid to be infused into the body is insulin.
56. The infusion system of claim 55, wherein the at least one of the control parameters of the infusion device adjusted by the supplemental device is a basal rate of the insulin to be infused into the body.
57. The infusion system of claim 55, wherein the at least one of the control parameters of the infusion device adjusted by the supplemental device is a bolus of the insulin to be infused into the body.
58. An external infusion device for infusing a fluid into a body, the infusion device comprising:
- a housing adapted for use on an exterior of the body;
- a reservoir contained in the housing for containing the fluid before infusing;
- a drive system including a shape memory alloy driven motor for delivering the fluid from the reservoir into the body; and
- an electronics system coupled to the drive system that uses a plurality of control parameters to regulate the drive system to deliver the fluid from the reservoir into the body and that is adapted to interface with a supplemental device to adjust at least one of the control parameters of the infusion device;
- wherein the infusion device has a predetermined usage life that is programmed into the electronics system as a number of days the infusion device is in use.
59. The infusion device of claim 58, wherein when the predetermined usage life for the infusion device expires, the infusion device ceases to deliver the fluid from the reservoir into the body.
60. The infusion device of claim 58, wherein the electronics system is adapted to interface with the supplemental device using a wireless connection.
61. The infusion device of claim 60, wherein the electronics system is adapted to interface with the supplemental device using RF frequencies.
62. The infusion device of claim 58, wherein the fluid to be infused into the body is insulin.
63. The infusion device of claim 62, wherein the at least one of the control parameters of the infusion device adjusted by the supplemental device is a basal rate of the insulin to be infused into the body.
64. The infusion device of claim 62, wherein the at least one of the control parameters of the infusion device adjusted by the supplemental device is a bolus of the insulin to be infused into the body.
Type: Application
Filed: Nov 6, 2006
Publication Date: May 3, 2007
Applicant:
Inventors: James Causey (Simi Valley, CA), William Stutz (Eagle Rock, CA), Clyde Nason (Valencia, CA), Sheldon Moberg (Granada Hills, CA), Jay Yonemoto (Diamond Bar, CA), Richard Purvis (Pasadena, CA), Cary Talbot (Santa Clarita, CA)
Application Number: 11/593,210
International Classification: A61M 1/00 (20060101);