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Author

Ulrich Kraft

Bio: Ulrich Kraft is an academic researcher from Shire plc. The author has contributed to research in topics: Infusion pump & Insulin pump. The author has an hindex of 7, co-authored 9 publications receiving 897 citations.

Papers
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Patent
26 Feb 2003
TL;DR: In this article, a medication infusion pump (4) and a hand-held "fob" (6) are used for remote control of the infusion pump and/or measurement device.
Abstract: The systems of the present invention include a medication infusion pump (4) and a hand-held 'fob' (6) for the remote control of the infusion pump and/or measurement device (300). In addition to remotely controlling the insulin pump and the measurement device, the fob provides for the consolidation of blood chemistry data and insulin delivery data over a period of time and maintains such consolidated data for immediate and later retrieval by the user or a physician.

370 citations

Patent
25 Feb 2003
TL;DR: In this paper, the authors present a system for remotely controlling medication delivery to a patient by means of a medication infusion pump and monitoring of physiological fluid analytes such as by a percutaneous measurement device.
Abstract: Devices, systems and methods are provided for remotely controlling medication delivery to a patient by means of a medication infusion pump, such as a subcutaneous infusion pump, and for remotely controlling the monitoring of one or more physiological fluid analytes such as by a percutaneous measurement device. The systems of the present invention include a medication infusion pump and a hand-held "fob" for the remote control of the infusion pump and/or measurement device. In addition to remotely controlling the insulin pump and the measurement device, the fob provides for the consolidation of blood chemistry data and insulin delivery data over a period of time and maintains such consolidated data for immediate and later retrieval by the user or a physician. The methods of the present invention allow a user to customize and optimize an insulin bolus delivery protocol, i.e., bolus volume and delivery duration, by factoring in or compensating for the user's current or substantially current blood chemistry evaluation and/or the user's anticipated and/or actual carbohydrate intake.

168 citations

Patent
20 Apr 2006
TL;DR: In this paper, a method for wireless transmission of data between components of a blood glucose system (1, I1) including a master controller (2, 2') having a receiver (10) and a transmitter (9), and at least one slave device (3) having an external transmitter (18) and an external receiver (19) for a predetermined listening period was proposed.
Abstract: The present invention relates to a method for wireless transmission of data between components of a blood glucose system (1, I1) including a master controller (2, 2') having a receiver (10) and a transmitter (9), and at least one slave device (3) having a receiver (19) and a transmitter (18), and to a corresponding blood glucose system (1, I1) • The slave device (3) is normally operated in a power saving mode in which its receiver (19) is only activated intermittently at a receiver activation frequency for a predetermined listening period The controller (2, 21) transmits a communication initiation data frame to the slave device (3) by means of a signal comprising a preamble signal transmitted for a preamble period Upon receipt of the communication initiation data frame, the slave device (3) is switched to a communication mode in which it transmits a response to the controller (2, 21), and the slave device (3) is switched from the communication mode to the power saving mode Initially the receiver activation frequency is set to a first frequency value upon switching from communication mode to power saving mode, and then to a second frequency value smaller than the first frequency value if no communication initiation data frame is received for a predetermined power saving timeout period The communication initiation data frame is transmitted such that the preamble period exceeds the length of the cycle duration corresponding to the first frequency value, and, in case no response is received by the controller during the response period, the communication initiation data frame is adapted and retransmitted such that the preamble period is increased and exceeds the length of the cycle duration corresponding to the second frequency value

132 citations

Patent
29 Aug 2006
TL;DR: In this paper, a portable memory device, such as a Smart Card or the like, is used to provide information for modifying the control software to the electronic medical device, which can be used for modifying, upgrading, or revising control software, instructions, or algorithms.
Abstract: The present invention provides methods for modifying, upgrading, or otherwise revising control software, instructions, or algorithms of an electronic medical device. A portable memory device, such as a Smart Card or the like is used to provide information for modifying the control software to the electronic medical device.

111 citations

Patent
15 Jun 2007
TL;DR: In this article, a disease management system, methods, and devices are shown and described, and a method to verify a wireless connection between an infusion pump and a remote controller is provided.
Abstract: A disease management system, methods, and devices are shown and described. In one embodiment, the system includes an infusion pump and a remote controller with the ability to be paired to each other. A method to verify a wireless connection between an infusion pump and a remote controller is shown and described herein. In a further embodiment, a method to verify a wireless connection between an infusion pump and a remote controller is provided. In addition, a method of operating a diabetes management system is provided in which the system includes an infusion pump and at least a remote controller.

60 citations


Cited by
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Patent
30 Oct 2007
TL;DR: An analyte monitor includes a sensor, a sensor control unit, and a display unit as discussed by the authors, which is used to display an indication of a level of an analyte, based on the data obtained using the sensor.
Abstract: An analyte monitor includes a sensor, a sensor control unit, and a display unit. The sensor has, for example, a substrate, a recessed channel formed in the substrate, and conductive material disposed in the recessed channel to form a working electrode. The sensor control unit typically has a housing adapted for placement on skin and is adapted to receive a portion of an electrochemical sensor. The sensor control unit also includes two or more conductive contacts disposed on the housing and configured for coupling to two or more contact pads on the sensor. A transmitter is disposed in the housing and coupled to the plurality of conductive contacts for transmitting data obtained using the sensor. The display unit has a receiver for receiving data transmitted by the transmitter of the sensor control unit and a display coupled to the receiver for displaying an indication of a level of an analyte. The analyte monitor may also be part of a drug delivery system to alter the level of the analyte based on the data obtained using the sensor.

1,856 citations

Patent
12 Sep 2005
TL;DR: In this paper, a telemetered characteristic monitor system includes a remotely located data receiving device, a sensor for producing signal indicative of a characteristic of a user, and a transmitter device.
Abstract: A telemetered characteristic monitor system includes a remotely located data receiving device, a sensor for producing signal indicative of a characteristic of a user, and a transmitter device. The transmitter device includes a housing, a sensor connector, a processor, and a transmitter. The transmitter receives the signals from the sensor and wirelessly transmits the processed signals to the remotely located data receiving device. The processor coupled to the sensor processes the signals from the sensor for transmission to the remotely located data receiving device. The data receiving device may be a characteristic monitor, a data receiver that provides data to another device, an RF programmer for a medical device, a medication delivery device (such as an infusion pump), or the like.

750 citations

Patent
18 Dec 2008
TL;DR: In this paper, a body fluid sampling system for use on a tissue site includes a single drive force generator and a plurality of penetrating members are operatively coupled to the force generator.
Abstract: A body fluid sampling system for use on a tissue site includes a single drive force generator. A plurality of penetrating members are operatively coupled to the force generator. The force generator moves each of the members along a path out of a housing with a penetrating member exit, into the tissue site, stops in the tissue site, and withdraws out of the tissue site. A flexible support member couples the penetrating members to define a linear array. The support member is movable and configured to move each of the penetrating members to a launch position associated with the force generator.

720 citations

Patent
25 Dec 2012
TL;DR: In this paper, a lancet driver can be configured to follow a predetermined tissue lancing profile to maintain the patency of the wound tract once the lance has cut into the skin.
Abstract: A tissue penetration device and method of using same. The tissue penetration device may optionally include sampling and analyzing functions, which may be integrated. An embodiment provides control of a lancet used for sampling blood. Electric field coils or solenoids may drive the lancet using electromagnetic force. Advancement and retraction of a lancet may be controlled by a feedback loop monitoring the position and velocity of the lancet embodiments of the lancet driver can be configured to follow a predetermined tissue lancing profile. Embodiments of the invention include a lancet and method for using a lancet to maintain the patency of the wound tract once the lancet has cut into the skin.

601 citations

Patent
30 Apr 2012
TL;DR: In this article, the authors present a system for integrating a continuous glucose sensor, including a receiver, a medicament delivery device, and optionally a single point glucose monitor, in order to assist the user in selecting, inputting, calculating, or validating the amount, type, or time of delivery of glucose values.
Abstract: Systems and methods for integrating a continuous glucose sensor, including a receiver, a medicament delivery device, and optionally a single point glucose monitor are provided. Manual integrations provide for a physical association between the devices wherein a user (for example, patient or doctor) manually selects the amount, type, and/or time of delivery. Semi-automated integration of the devices includes integrations wherein an operable connection between the integrated components aids the user (for example, patient or doctor) in selecting, inputting, calculating, or validating the amount, type, or time of medicament delivery of glucose values, for example, by transmitting data to another component and thereby reducing the amount of user input required. Automated integration between the devices includes integrations wherein an operable connection between the integrated components provides for full control of the system without required user interaction.

600 citations