Abstract: A system and method of programming a cardiac rhythm management device (CRM device) using an external programming device are described, where the user is presented with a list of highly-safe parameter adjustments. Input is received from the user selecting one or more of the highly-safe parameter adjustments. A programming session is initiated wherein the programming device establishes communication with the CRM device, and transmits the selected one or more highly-safe parameter adjustment to the CRM device.

Abstract: A system and method for managing coordination of collected patient data in an automated patient management system is presented. One or more displays of patient data are defined. The patient data is collected from one or more patient data sources operating on a remotely managed patient and selected from at least one of a physiological sensor and a therapy delivery device. One or more controls of patient data collection to specify types of patient data to be collected and periodicities of the patient data collection in relation to the patient data displays are defined. The patient data displays and patient data controls in relation to the data collection of a plurality of patient data types and patient data collection periodicities are coordinated.

Abstract: A method of and system for collecting patient event information from a cardiac rhythm management system (CRM system) is described, where the CRM system includes a cardiac rhythm management device (CRM device) and an external interface device. The method includes the steps of initiating a transmission session wherein the interface device communicates with the CRM device, prompting a user of the CRM system to select a reason for the transmission session, inputting the selected reason for the transmission session to the interface device, and storing the selected reason for the transmission session and timestamp information for the transmission session.

Abstract: A system and method for providing fault resilient processing in an implantable medical device is provided. A processor and memory store are provided in an implantable medical device. Separate times on the processor are scheduled to a plurality of processes. Separate memory spaces in the memory store are managed by exclusively associating one such separate memory space with each of the processes. Data is selectively validated prior to exchange from one of the processes to another of the processes during execution in the separate processor times.

Abstract: This document discusses, among other things, n implantable device comprising a communication circuit configured to communicate with an external device, a logic circuit communicatively coupled to the communication circuit, and a processor, communicatively coupled to the logic circuit and the communication circuit. The processor is configured to communicate information with the external device, via the communication circuit and the logic circuit, using a set of communication messages. While in a device safety mode, the processor is held in an inactive state and the logic circuit is configured to communicate with the external device using a subset of the set of communication messages.

Abstract: A system and method is disclosed for system fault recovery by an implantable medical device which employs a global fault response. The system enables the device to consistently recover from transient faults while maintaining a history of the reason for the device fault. Upon detection of a fault, the primary controller of the device signals a reset controller which then issues a reset command. All sub-systems of the primary device controller are then reset together rather than resetting individual sub-systems independently to ensure deterministic behavior.

Abstract: A system and method for temporary programming of an implantable medical device. The system and method include a repeater uploading temporary programming and instructions to a temporary memory of the device and then instructing the device to operate according to the temporary instructions. If during a first time period, the device is not in continuous periodic communication with the repeater, the device automatically reverts to operation under the normal operating instructions. At the end of the first time period, the caregiver or the patient may decide to revert to the normal programming. During a second time period, the device operates according to the temporary programming unless the caregiver or the patient instructs the device to revert to the normal programming, or the device fails to receive a periodic continuation signal from the repeater. Adverse health affects to the patient may also trigger the device to revert to the normal programming during either the first or second time period.

Abstract: A system and method for providing intrabody data security on an active implantable medical device is presented. Data is maintained through an active implantable medical device. The data is secured on the active implantable medical device among at least one other active implantable medical device wirelessly interfaced. At least one of access to and use of the data with the other active implantable medical device is limited. Unauthorized changes to the form of the data are prevented.

Abstract: A system and method is disclosed for system fault recovery by an implantable medical device which employs a global fault response. The system enables the device to consistently recover from transient faults while maintaining a history of the reason for the device fault. Upon detection of a fault, the primary controller of the device signals a reset controller which then issues a reset command. All sub-systems of the primary device controller are then reset together rather than resetting individual sub-systems independently to ensure deterministic behavior.

Abstract: A system and method for temporary programming of an implantable medical device. The system and method include a repeater uploading temporary programming and instructions to a temporary memory of the device and then instructing the device to operate according to the temporary instructions. If during a first time period, the device is not in continuous periodic communication with the repeater, the device automatically reverts to operation under the normal operating instructions. At the end of the first time period, the caregiver or the patient may decide to revert to the normal programming. During a second time period, the device operates according to the temporary programming unless the caregiver or the patient instructs the device to revert to the normal programming, or the device fails to receive a periodic continuation signal from the repeater. Adverse health affects to the patient may also trigger the device to revert to the normal programming during either the first or second time period.

Abstract: Systems and methods for radio frequency identification and tagging of implantable medical devices and their components are disclosed. A preferred embodiment includes tagging a device and its components with manufacturing information relating to the device and it components and with information identifying a patient using the device. The information can be automatically transmitted or extracted from the device when the device or its components come into communication range of an external programmer or other device adapted to read or sense the RFID information. Some embodiments of a system disclosed herein can also be configured as a component of an Advanced Patient Management System that helps better monitor, predict and manage chronic diseases.

Abstract: A system comprising an implantable medical device that comprises at least one electrical input to receive sensed electrical activity of a heart of a patient, a memory, and a controller circuit. The controller circuit is coupled to the electrical input and memory and is operable to enter a memory scrubbing mode that increases a rate of detecting and correcting single bit errors in the memory when the controller circuit determines the implantable device is in a high-energy radiation environment.

Abstract: A system and method is disclosed by which an implantable cardiac device may deliver tachyarrhythmia therapy in the event of a system fault. A hardware-based safety core provides the logic circuitry for detecting tachyarrhythmias and delivering shock therapy in the event of a fault which disables operation of the device's primary control circuitry. The safety core defibrillator eliminates common mode failure of the primary control circuits used in the primary defibrillator system. Failures in the primary controller memory or execution will activate the safety core defibrillator.

Abstract: A system and method for operating a wireless medical device interrogation network is provided. Data exchange sessions are transacted with a wireless medical device over a plurality of interrogation points that each cover different zones of interrogation. State regarding interim data packets exchanged during each data exchange session is maintained and is accessible by each of the interrogation points. Frequency agile switching between the interrogation points and the wireless medical device during a wireless data exchange session is supported.

Abstract: A system and method is disclosed by which an implantable cardiac device may deliver bradycardia therapy in the event of a system fault. A hardware-based safety core provides the logic circuitry for delivering bradycardia therapy in the form of synchronous pacing in the event of a fault which disables operation of the device's primary control circuitry. The safety core pacemaker eliminates common mode failure of the primary control circuits used in the primary pacing system. Failures in the primary controller memory or execution will activate the safety core pacemaker.

Abstract: This document discusses, among other things, systems and method for integrated health care home communication and monitoring. A method comprising: communicating, from a remote server to an external interface device that communicates with a medical device in use by a patient, a patient communication to be received by the patient; and receiving, from the external interface device, at the remote server, a patient acknowledgement to the patient communication, the patient acknowledgement indicative of the patient communication having been delivered by the external interface device to the patient and acknowledging that the patient has received the patient communication.

Abstract: A system and method for programming customized data collection for an autonomous medical device is presented. Data measures to be recorded by an autonomous medical device with remote monitoring are dynamically identified to evaluate a patient status. One or more operational parameters for the autonomous medical device that specify collection of the data measures are defined. A data source to measure each data measure is identified. Collection conditions applicable to the data source are specified. Resources allocated to transiently stage the data measure in the autonomous medical device are managed. The operational parameters are programmed to effect functional changes in the collection of the data measures to the autonomous medical device. The autonomous medical device is regularly interrogated to remotely retrieve the data measures recorded under the operational parameters.

Abstract: A system and method for managing locally-initiated medical device interrogation is presented. A noncontinuously coupleable interface is provided over which to retrieve patient data recorded and transiently staged by a medical device monitoring physiological measures of a patient. The patient data is periodically retrieved by interfacing to and interrogating the medical device per a pre-defined schedule defining autonomous patient data retrieval frequency. Further retrieval of the patient data is permitted independent of the pre-defined schedule by enabling operation of the interface based on a remotely-specifiable criteria for controlling locally-initiated patient data retrieval.

Abstract: A cardiac rhythm management (CRM) system includes a programming device that determines parameters for programming an implantable medical device based on patient-specific information including indications for use of the implantable medical device. By executing an indication-based programming algorithm, the programming device substantially automates the process between the diagnosis of a patient and the programming of an implantable medical device using parameters individually determined for that patient.

Abstract: An apparatus and method for transmitting information between dual redundant components comprises two information sources each of which is coupled to two transmitters, the outputs of which are coupled to four signal paths for transmission to two independent voters. Each of the voters compares predetermined pairs of the signals on the four signal paths and provides a preferred one of the signals to a corresponding receiver based on the results of the pair comparisons.