WO2000029047A1

WO2000029047A1 - Portable device and method for the mobile supply of medicaments with wireless transmission of data for control or programming purposes

Info

Publication number: WO2000029047A1
Application number: PCT/DE1999/003678
Authority: WO
Inventors: Ok-Kyung Cho; Yoon Ok Kim
Original assignee: Phiscience Gmbh, Entwicklung Von Sensoren
Priority date: 1998-11-18
Filing date: 1999-11-18
Publication date: 2000-05-25
Also published as: EP1131118A1; KR20010081028A

Abstract

The invention relates to a portable device and a method for supplying medicaments by a mobile, portable, non-implantable means with wireless operation or programming. The device preferably consists of a delivery unit, which is directly connected to the body of the patient by a cannula or is indirectly connected by means of a catheter, and an operating unit for operating the device, programming or inputting data. This operating unit wirelessly communicates with the delivery unit. The operating unit preferably consists of a wristwatch, which in addition to performing its normal time or date functions, can be used for inputting data and for operating, monitoring and programming the delivery unit. The operating unit enables the delivery unit to control the delivery of medicaments in terms of time and quantity, in relation to a basal rate or a basal profile, and bolus doses.

Description

Portable device and method for mobile medication supply with wireless transmission of data for control or programming

DESCRIPTION

Technical field

The invention relates to a portable device and a method for mobile, portable, non-implantable medication supply for basal rates or basal profiles and / or bolus doses with a wireless operation or programming.

State of the art

US 4585439 describes a "portable infusion unit" in which the piston of an ampoule is moved forward by means of a threaded rod which can be moved in the longitudinal direction by means of a rotatable sleeve. The description shows that a stepper motor is used as the drive. In US 5637095 a flexible piston rod is used instead of the threaded rod, which enables a smaller design. US 5665065 presents an infusion device which has an automatic data input for values of the blood glucose concentration of the patient by means of an implantable glucose sensor. In US 5716343, a biased membrane is used as the driving force in order to administer the infusion liquid. A remote control or an outsourced control unit is neither provided nor mentioned in all the fonts listed.

US 5735887 describes an implantable medical device. The control data is entered by radio transmission. The implantable device has a receiver for external control signals, but there is no indication that the implantable device itself also has a transmitter.

US 5843139 presents a communication system for communicating with an implanted medical device, while US 5314453 describes an antenna for transmitting operating energy to an implanted medical device.

In all three cases, an implantable device is used, which requires a surgical intervention which, like all invasive applications, carries considerable risks. The aspect of simple, unobtrusive operability of the external control unit has so far not been taken into account.

In the case of external (ie non-implantable) commercially available insulin pumps, the control elements are usually located on the pump itself. On the one hand, this requires a corresponding amount of space, since the control elements must have a certain minimum size for ease of use, and on the other hand the patient is forced to make settings, for example for additional bolus injections to be made directly on the pump. The latter means a psychological burden for the patient, which should not be underestimated in public, since this makes him immediately recognizable as a diabetic and unfortunately, such permanent health impairment is still not completely accepted by the population. In order to reduce this psychological pressure, which is a burden on the patient in addition to the health situation, the pump should be as small and inconspicuous as possible, along with unobtrusive operability. However, developments to date have been limited primarily to smaller drives and smaller medication reservoirs. Smaller reservoir sizes, however, require a more frequent replacement of the reservoirs (ampoules), which is also not desirable because, among other things, it increases the feeling of dependency.

US 5376070 (Purvis, et al.) Describes a "data transfer system for an infusion pump" which enables the infusion pump to be programmed without affecting the function of the pump during the programming process. To achieve this, Purvis uses optical communication between the pump and a docking station, into which the infusion pump is inserted or to which it must at least be in a "predetermined position". Although the work of the pump is not impaired during the transfer of the data, an unobtrusive operation of the infusion pump is not possible due to the docking station used. In addition, the optical transmission prevents the pump during the Programming hidden, for example under clothing, can be worn.

Presentation of the invention

The invention has for its object to provide a device that is inconspicuous in terms of comfort and operation, and which also requires no surgical intervention with the associated risk of infection and anesthesia.

An inventive solution to this problem is specified in claim 1. Further developments of the invention are the subject of claims 2 and following.

The device according to the invention preferably consists of two components: delivery unit (non-implantable) and operating unit.

In commercial insulin pumps, in addition to the medication reservoir (eg ampoule) and the drive (eg motor), the operating and control elements take up the most space. The relocation of an operating unit (apart from minimal emergency operating elements such as an emergency stop and an emergency bolus button) to a location that is spatially separate from the remaining delivery unit, therefore means a considerable space saving with respect to the delivery unit and enables a smaller and therefore smaller size less conspicuous design. The regular operation of the pump should not have to be done on the pump itself, nor should the operating unit require that the delivery unit be kept ready in a conspicuous manner or even with it the control unit must be physically connected (e.g. via cable). The patient should be able to make all the necessary entries and settings so that they are so inconspicuous that other people with whom he comes together, for example in a restaurant, in a conference or otherwise, do not notice this and therefore do not recognize his illness can. Although these requirements have existed for a long time, the device according to the invention provides for the first time a correspondingly inconspicuous device which takes the diabetic another big step on the way to a normal, unencumbered life.

Dispensing unit and operating unit therefore both have both transmitting and receiving devices and communicate wirelessly with one another. The delivery unit also contains at least one medication reservoir (e.g. ampoule, tank, etc.), an energy supply (battery, rechargeable battery, etc.), the drive for medication delivery (e.g. motor with spindle, micropump, etc.), the electronic control (e.g. the drive, the operation of said transmitting and receiving device, etc.), a system clock and, if necessary, further components (for example, said emergency operating elements in order to ensure rudimentary basic functions, alarm devices such as buzzer or beeper, etc.). The control unit is used to perform the following tasks: operation, control and programming of the device, display (for example of previously administered doses or amounts as well as programming, control and other data) or data input. For this purpose, it has appropriate means, including at least one microprocessor and also a system clock. It is housed in an inconspicuous everyday item, which can also perform other functions appropriate to it (e.g. wristwatch, pocket calculator, electronic pocket database, "hand-held computer", "palm-top computer" or similar miniature computer, key fob , Pocket cosmetic set, wallet, etc.).

One embodiment provides that the dispensing unit is programmed and / or remotely controlled via an internal or external control unit, wherein the emitting unit can be worn on the body and has the shape of a wristwatch, for example. Both said transmitter unit and the device itself have transmitting and receiving units via which they can communicate with one another. The device (dispensing unit 1 can be programmed with complex dispensing patterns for the liquid to be administered, for example continuously, discontinuously with uniform or non-uniform intervals. The operating unit, which, as mentioned above, preferably consists of a wristwatch (analog and / or digital), also enables the normal clock and date functions, the input of data as well as the operation and programming of the dispensing unit. The operating unit thus transmits to the dispensing unit all the necessary data for the quantitative and temporal control of the medication dispensing, for example in the form of a basal rate or a basal profile, and for additional, from User-selectable bolus doses and the control unit controls the Dispensing unit on the basis of data regularly exchanged by means of the communication devices. In addition, the control unit and / or the delivery unit has alarm functions (eg for appointments and possible malfunctions or malfunctions). Communication between the operating unit and the delivery unit works in both directions and is preferably carried out using encrypted data protocols.

In a development of the embodiment, the delivery unit is connected directly to the body of a patient by means of a cannula or indirectly by means of a catheter. To deliver liquid medication from an ampoule, the torque of a motor is transferred to a rotatable spindle, which preferably has a worm drive, via a suitable gear. The rotation of the spindle moves a carriage towards the plunger piston, causing the plunger to deliver liquid from the ampoule.

In a modified embodiment, instead of the motor with gear and spindle, a micropump, preferably a micromembrane pump, is provided to convey liquid medication from any reservoir (tank, ampoule, etc.).

In a further modified embodiment, the operating unit is instead of a wristwatch in another inconspicuous everyday object, for example a pocket calculator, an electronic pocket database or an electronic organizer, a "hand-held computer", a "palm-top computer"" or a similar miniature computer, but also a key chain, a wallet or, for women, also in a pocket cosmetic set, etc., the objects or devices mentioned continuing to perform their normal functions or their functions being integrated into the operating unit.

In a preferred embodiment, the transmitters and receivers are a transceiver system.

In a further embodiment, the transmitters and receivers are a transponder system.

In one embodiment, the operating unit consists of a wristwatch in which the elements for operating or controlling the dispensing unit are integrated in the dial.

In a further embodiment, the elements for operating or checking the dispensing unit can be folded out or pulled out of the watch case.

In a further development of the above-mentioned embodiments, in addition to an operating unit and a delivery unit, the device also consists of one or more external sensors for measuring body functions, which can likewise communicate with the operating unit and transmit data to the latter. The operating unit can display, save or further process this data (for example by forming mean values, relationships, time derivatives, comparing various parameters, etc.). Said means of Measuring body functions are sensors for measuring body temperature (e.g. one or more resistance thermometers, thermocouples, thermopiles etc.), blood pressure (e.g. cuff with microphone, etc.), blood circulation (e.g. induction current or voltage sensor, thermal sensors, etc. .), the pulse (for example microphones, optical absorption methods, electrodes, etc.), the blood glucose concentration or the insulin level (for example biosensors) and possibly other or other measuring devices known to the person skilled in the art.

The possibility of measuring and displaying body functions is desirable in this connection in order to allow the user of the device according to the invention to control the success of the application or to be able to better assess his physical condition, which gives him more security and so on Contributes to improving his quality of life.

In a further modification of the aforementioned embodiments, the operating unit additionally contains an interface which makes it possible to connect the operating unit to a telecommunication device suitable for data transmission, for example a mobile telephone (cell phone), and the data transmitted from the sensors to the operating unit and possibly further processed by the latter to another place (e.g. the attending doctor). The connection via the interface can also be made to a computer, for example for long-term storage or further use of the data. In a preferred variation of the above embodiments, the dispensing unit has emergency operating elements (for example an emergency stop and an emergency bolus button).

In a further preferred variation of the above embodiments, the delivery unit and / or operating unit have alarm devices (e.g. buzzer, beeper, etc.) which give an alarm in critical situations (e.g. no connection between delivery unit and operating unit for a long time).

In a basic preferred variation of the above embodiments, the mutual data transmission between operating unit and delivery unit is individually coded (for example by means of the serial number) in order to ensure that only parts belonging to one and the same device communicate with one another. In order to avoid cross-sensitivity to other devices, several channels are available in the case of radio transmission, so that channel multiplexing is used in addition to time multiplexing. In addition, the range can be limited (e.g. to a maximum of one meter distance). As part of the control, the device has means to automatically regulate the respective transmission power or the sensitivity of the respective receiver so that the lowest possible transmission power is used in each case. This ensures that the communication of the parts of the device with one another does not interfere with other devices as far as possible. In yet another preferred variation of the above embodiments, the delivery unit has "intelligent" electronics. This means that if there is a significant change in time zones by more than two hours (e.g. transatlantic flight), after changing the system clock (on the part of the user), the delivery unit only gradually shifts a preset basal profile according to medical recommendations (e.g. by two hours per day) . In addition, bolus doses administered by the user are registered by the device in the delivery unit and / or the operating unit and checked for regularity. If, for example, the patient regularly gives a bolus (snack) between 4 p.m. and 5 p.m., this is saved. If the bolus is then missed in one day, the device emits a signal (for example with a built-in beeper) to inform the patient of a possible omission. The patient then decides whether the bolus has just been forgotten or whether it was not required. He can then take appropriate measures.

If necessary, the system clock can also be changed automatically, for example after radio polling of the current local time from a cellular network (e.g. using said interface) or by using time signal transmitters in conjunction with a geo-positioning system (GPS).

Claims

claims

1. Device for mobile, portable, non-implantable medication supply for basal rates or basal profiles and / or bolus doses, consisting of at least one dispensing unit for liquid medication and at least one operating unit for inputting data and for wireless operation, control and programming of the dispensing unit and for displaying Data (for example of previously administered doses or amounts as well as programming, control and other data) and, if appropriate, one or more sensors for measuring body functions, characterized in that

The operating unit and the dispensing unit are spatially separated from one another and have no physical contact with one another, the operating unit and the dispensing unit each have means for mutual wireless communication with one another, the operating unit is integrated in an inconspicuous everyday object, the shape and function of which are essentially preserved.

2. Device according to claim 1, characterized in that the operating unit can be worn on the body and has, for example, the shape and also the function of a wristwatch and the dispensing unit is programmed and / or operated remotely via an operating unit.

3. Apparatus according to claim 1, characterized in that said inconspicuous object of daily use is a calculator, an electronic pocket database or an electronic organizer, a "hand-held computer", a "palm-top computer" or a similar miniature computer but also a keychain, a wallet, a pocket cosmetic set or similar, suitable object.

4. Device according to one of claims 1 to 3, characterized in that the delivery unit is an insulin pump.

5. Device according to one of claims 1 to 4, characterized in that said means for mutual wireless communication between the control unit and the dispensing unit consist of ultrasonic transmitters, magnetic pulse transmitters or radio transmitters and corresponding receivers and together form a system, for example a transceiver system, so that Both said operating unit and the delivery unit can communicate with one another via these transmitting and receiving units.

6. Device according to one of claims 1 to 5, characterized in that said means for mutual wireless communication between the control unit and delivery unit consist of a transponder system.

7. Device according to one of claims 1 to 6, characterized in that the elements for operating or controlling the dispensing unit and for function or data display are integrated in the housing of the operating unit.

8. Device according to one of claims 1 to 6, characterized in that the elements for operating or controlling the dispensing unit from the housing of the operating unit are mounted on a fold-out element or on a pull-out slide.

9. Device according to one of claims 1 to 8, characterized in that means for encrypting the communication data between the operating unit and the delivery unit are provided, which enable the use of encrypted data protocols (e.g. by means of a serial number).

10. Device according to one of claims 1 to 9, characterized in that means for generating alarm signals are available, the alarm functions perceive due to appointments and / or possible malfunctions or malfunctions.

11. Device according to one of claims 1 to 10, characterized in that said external sensors are means for measuring body functions, which can also communicate with the control unit and transmit data to the control unit.

12. Device according to one of claims 1 to 11, characterized in that said means for measuring body functions sensors for measuring body temperature, blood pressure, blood flow, pulse, blood glucose concentration or insulin level and / or others or others to the expert are known measuring devices.

13. The apparatus according to claim 12, characterized in that the operating unit additionally has means for displaying, storing and further processing the data transmitted by the sensors.

14. Device according to one of claims 9 or 13, characterized in that the operating unit additionally has an interface which makes it possible to connect the operating unit with a telecommunication device suitable for data transmission, for example a mobile telephone (cell phone) or also with a computer, and to transmit the data transmitted from the sensors to the operating unit and possibly further processed by the latter to another location.

15. The device according to one of claims 1 to 14, characterized in that the dispensing unit has emergency controls (e.g. an emergency stop and an emergency bolus button).

16. The device according to one of claims 1 to 15, characterized in that the dispensing unit and / or operating unit have alarm devices (eg buzzer, beeper, etc.) which give alarm in critical situations (eg malfunction, no connection for a long time between the dispensing unit and operating unit, Etc.) .

17. The device according to any one of claims 1 to 16, characterized in that the dispensing unit has a suitable electronic circuit, for example a microprocessor, which with a substantial change of time zones (eg transatlantic flight) after changing the system clock (on the part of the user) a preset Basalpro fil is only gradually shifted (e.g. by two hours per day) in accordance with current medical recommendations and, in addition, bolus administered manually by the user is registered by the device in the dispensing unit and / or the operating unit and checked for regularity and in the absence of a normally administered bolus emits a signal beyond a certain time (for example by said means for generating alarm signals).

18. Device according to one of claims 1 to 17, characterized in that said radio transmitter and receiver are multi-channel, so that in order to avoid cross-sensitivities with other devices in addition to time multiplexing, a channel multiplexing is also possible and that the device also has means, which automatically regulate the respective transmission power or the sensitivity of the respective receiver so that the lowest possible transmission power is used, thereby ensuring that the device does not interfere with other devices as far as possible.

19. A method for mobile, portable, non-implantable medication supply for basal rates or basal profiles and / or bolus doses, characterized in that the device consists of an operating unit and a delivery unit and optionally one or more sensors, the operating unit and the delivery unit are spatially separated from one another are, control unit and delivery unit can communicate wirelessly with one another, the control unit into an inconspicuous everyday object, for example a wristwatch, a pocket calculator, an electronic pocket database or an electronic organizer, a "hand-held computer", a "palm-top" - Computer "or a similar miniature computer but also a key chain, one Wallet, a pocket cosmetic set or a similar, suitable object is integrated, the shape and function of which are essentially preserved.

20. The method according to claim 19, characterized in that the user is enabled to make adjustments to the device unobtrusively, i.e. the user can operate the device in such a way that his privacy, in this case given by his state of health, is preserved, which is achieved, among other things, by the fact that the operating unit e.g. can be oriented as desired by using radio transmission.

21. The method according to claim 20, characterized in that the communication between the control unit and delivery unit is encrypted (for example by means of a serial number) and that in addition both time and channel multiplexing is used to avoid cross-sensitivity to other devices and that also the respective transmission power or the sensitivity of the respective receiver is automatically regulated so that the lowest possible transmission power is used in each case.

22. The method according to any one of claims 19 to 21, characterized in that the operating unit receives data that it receives from said sensors shows, saves and / or further processed (e.g. by forming mean values, relationships, time derivatives, comparing different parameters, etc.).

23. The method according to any one of claims 19 to 22, characterized in that when changing time zones (eg transatlantic flight) after changing the system clock (on the part of the user), a preset basal profile is only gradually adapted to the time change in accordance with common medical recommendations ( e.g. by two hours a day) and that, in addition, bolus administered manually by the user is registered by the device in the delivery unit and / or the control unit and checked for regularity and, if there is no normal bolus administered for a certain time, a signal ( e.g. with a built-in beeper).