Patent application number | Description | Published |
20100115279 | Method for pairing and authenticating one or more medical devices and one or more remote electronic devices - A method for authenticating a medical device and a remote electronic device may include generating a PIN code by one device, capturing the generated PIN code with the other device, checking authentication of the PIN code, which is based at least in part on the captured PIN code, by the one device, generating a strong key by the one device, sending the strong key encrypted to the other device, checking authentication of the sent strong key by the one device, and upon successful authentication, storing the strong key in a memory of the one device and the other device. The roles of the medical device and the remote electronic device may be reversed in the authenticating method. The authenticating method may be preceded by a pairing process and/or followed by a binding process. | 05-06-2010 |
20100156633 | Liquid infusion pump - A method is provided for controlling change access to a display menu of an ambulatory liquid infusion pump. A programmed menu of the infusion pump may be displayed and a menu lock flag may be monitored. Changes to at least one active item of the programmed menu may be disabled if the menu lock flag is activated. | 06-24-2010 |
20100160759 | Combination communication device and medical device for communicating wirelessly with a remote medical device - An electronic device may selectively disable a bolus advice process according to which the electronic device recommends delivery of a bolus amount of a drug to a body of a user based on a plurality of factors including glucose concentration of the user. The electronic device may include a glucose measuring facility configured to measure glucose concentration of a body fluid sample, and a processor including a memory having instructions stored therein that comprise the bolus advice process. The memory may further have instructions stored therein that are executable by the processor to request a glucose concentration measurement by the glucose measurement facility prior to executing, or as part of, the bolus advice process, and to disable execution of the bolus advice process if a glucose concentration value resulting from the requested glucose concentration measurement is less than a threshold value. | 06-24-2010 |
20100160860 | Apparatus and method for remotely controlling an ambulatory medical device - An electronic device may remotely control a medical device. The electronic device may include a wireless communication circuit configured to wirelessly communicate with the medical device, and a processor that receives from the medical device via the wireless communication circuit screen data generated by the medical device for display on a display device thereof and to control a display device of the electronic device according to the received screen data to display on the electronic device display the screen data generated by the medical device, to emulate at least some of a plurality of user keys of the medical device with selected ones of a plurality of user buttons of the electronic device, and to control the display device of the electronic device to display a map that relates emulated ones of the plurality of user keys to selected ones of the user buttons. | 06-24-2010 |
20110063094 | Device and methods for optimizing communications between a medical device and a remote electronic device - An electronic device may communicate wirelessly with another electronic device. The electronic device may include a first processor configured to control only wireless communications with the another device but not operations associated only with the electronic device, a second processor configured to control the operations associated only with the electronic device but not the wireless communications with the another device, and a memory device connected between the first and second processors. The first and second processors may each be configured to exchange information with the memory device separately and independently of the exchange of information by the other of the first and second processors with the memory device. | 03-17-2011 |
20120095317 | COMMUNICATION PROTOCOL THAT SUPPORTS STRUCTURED COLLECTION PROCEDURES USED IN DIABETES CARE - A computer-implemented diabetes management system is provided for configuring a structured collection procedure implemented on a collection device having a meter that measures the concentration of glucose in blood. The system includes: a collection application that executes a structured collection procedure for obtaining measurement data from the meter and provides access to the measurement data via a communication protocol defined in accordance with IEEE standard 11073-20601; a configuration application that accesses and manipulates the parameters of the structured collection procedure using a set of action commands, where the set of action commands are defined in compliance with the communication protocol; and a collection interface that receives an action command from the configuration application, executes the received action command and issues a response command in response thereto, where the response command is defined in compliance with the communication protocol. | 04-19-2012 |
20120165614 | COMMUNICATION PROTOCOL FOR MEDICAL DEVICES THAT SUPPORTS ENHANCED SECURITY - A diabetes management system is provided that employs a communication protocol with enhanced security. The diabetes management system includes: a medical device operable to perform a diabetes care function in relation to a patient and store data related to the operation thereof; and a diabetes care manager in data communication with the medical device using a communication protocol defined in accordance with IEEE standard 11073. The diabetes care manager is able to request access to a given security role supported by the medical device, where the given security role is associated with a set of commands that are defined as a private extension of the communication protocol. | 06-28-2012 |
20120165728 | COMMUNICATION PROTOCOL THAT SUPPORTS PASS-THRU COMMUNICATION - A private extension of the IEEE 11073 standard for enabling pass-thru communication between a external computing device and a medical device via a diabetes management device is disclosed herein. Within this context, a diabetes management system for configured to allow pass thru communication is described. The system includes a diabetes management device in communication with a external computing device and the first medical device. A pass-thru module of the diabetes management device uses a set of pass-thru commands for establishing a pass-thru communication path and enabling communication between the external computing device and the first medical device, and wherein the set of pass-through commands is defined in compliance with a communication protocol defined in accordance with IEEE standard 11073-20601. | 06-28-2012 |
20120266251 | SYSTEMS AND METHODS FOR DISEASE MANAGEMENT - A computer-implemented diabetes management system is provided that supports enhanced security between a diabetes care manager in data communication with a medical device. The diabetes care manager includes: a first application that operates to request access to a first security role supported by the medical device, where the first security role is associated with a first set of commands for accessing data on the medical device that are defined as a private extension of the communication protocol; and a second application that operates to request access to a second security role supported by the medical device, where the second security role is associated with a second set of commands for accessing data on the medical device that are defined as a private extension of the communication protocol. The second set of commands has one or more commands that are mutually exclusive from the first set of commands. | 10-18-2012 |
20120269347 | Medical device with secure data transmission - Secure transmission of electronic data via a data communication link is provided between a device and an additional device with independent transmission channels, wherein at least one of the devices is a medical device. Secure transmission comprises the following steps or means: providing a password in the device, receiving the password in the a additional device separate from the data communication link, selecting one of the independent transmission channels, encrypting the channel identification of the selected independent transmission channel using the received password in the additional device, transmitting the encrypted channel identification from the additional device to the device via the data communication link and decrypting the encrypted channel identification in the device, providing a session key in the device and the additional device and transmitting encrypted electronic data between the device and the additional device via the independent transmission channel. | 10-25-2012 |
20140128804 | COMMUNICATION PROTOCOL THAT SUPPORTS PASS-THRU COMMUNICATION - A private extension of the IEEE 11073 standard for enabling pass-thru communication between a external computing device and a medical device via a diabetes management device is disclosed herein. Within this context, a diabetes management system for configured to allow pass thru communication is described. The system includes a diabetes management device in communication with a external computing device and the first medical device. A pass-thru module of the diabetes management device uses a set of pass-thru commands for establishing a pass-thru communication path and enabling communication between the external computing device and the first medical device, and wherein the set of pass-through commands is defined in compliance with a communication protocol defined in accordance with IEEE standard 11073-20601. | 05-08-2014 |