Patent application number | Description | Published |
20090281598 | CONDITIONAL REQUIREMENTS FOR REMOTE MEDICAL DEVICE PROGRAMMING - A remote programming method is provided for safe and secure programming of a medical device at a remote location. A centralized programming instrument for use by a clinician or third party is provided with a network communication connection with a remote external medical device, such as a home programmer or monitor. The external medical device is located in the vicinity of a patient having an implantable medical device (IMD) and is in bi-directional telemetric communication with the IMD to allow instructions received from the centralized programming instrument to be transferred to the IMD. The remote programming method used for transferring information between the central programming instrument and an IMD includes measures to promote safe and secure remote programming of the IMD, which measures may include authorization requirements, programming condition requirements, implementation of programmed data requirements, and maintenance of a remote programming log. | 11-12-2009 |
20100030303 | MONITORING AMBIENT NOISE ON COMMUNICATION CHANNELS USED TO COMMUNICATE WITH MEDICAL DEVICES - A medical device for wirelessly communicating with at least one implantable medical device (IMD) comprises a telemetry circuit that monitors an ambient noise on one or more communication channels used for the wireless communication with the at least one IMD. The medical device also includes a network interface that transmits data corresponding to the monitored ambient noise to a data storage device external from the device. The data storage device may retrieve and present the data corresponding to the monitored ambient noise received from one or more medical devices to facilitate identification or characterization of noise sources, designing or updating medical devices to compensate for ambient noise, or troubleshooting or otherwise analyzing operation of the medical devices. In some cases, the data storage device may automatically analyze the ambient noise to and, for example, provide alerts relating to ambient noise or medical device operation. | 02-04-2010 |
20100030304 | ADJUSTABLE IMPEDANCE MATCHING CIRCUIT - An implantable medical device with a medical module, an antenna, a transceiver and an impedance match circuit. The transceiver is operatively coupled to the antenna and the medical module and facilitates wireless transmission of data between the medical module and an external device. The impedance match circuit is operatively coupled between the transceiver and the antenna and has a plurality of predetermined selectable configurations, each providing a particular impedance matching characteristic. | 02-04-2010 |
20100109958 | High Dielectric Substrate Antenna For Implantable Miniaturized Wireless Communications and Method for Forming the Same - An antenna structure for an implantable medical device (IMD) is provided including a lower dielectric biocompatible antenna portion positioned on a body side of the structure and a high dielectric portion including at least one dielectric substrate having a high dielectric constant positioned on a device side of the structure. The biocompatible antenna portion is derived from an antenna layer, a biocompatible surface layer, and at least one layer of biocompatible dielectric material (e.g., high temperature cofire ceramic (HTCC) material) that provides a matching gradient between the antenna and the surrounding environment. The high dielectric portion may include at least one layer of low temperature cofire ceramic (LTCC) material. The high dielectric portion may be bonded to the biocompatible antenna portion or cofired with the biocompatible antenna portion to form a single bilayer monolithic antenna structure having a lower dielectric HTCC biocompatible antenna portion and a high dielectric LTCC portion. | 05-06-2010 |
20100168818 | External RF Telemetry Module for Implantable Medical Devices - An implantable medical device (“IMD”) is provided having an antenna and an RF telemetry module for far field telemetry communications arranged on an exterior of the IMD housing, such that telemetry signal processing may be performed on the exterior of the housing. One or more feedthrough conductive paths extend through the housing to communicatively couple the RF module to circuitry within the housing. In this manner RF module is arranged entirely external to the housing, such that only power and/or low frequency data bit signals are required to be passed through the feedthrough conductive path. This allows the feedthrough conductive path to be filtered to prevent undesired interference signals (e.g., electromagnetic interference (EMI) signals) from entering the housing through the feedthrough conductive path coupled to the RF module. In some embodiments, the antenna and RF module are formed in an integrated assembly attachable to an exterior portion of the housing. | 07-01-2010 |
20100249887 | COMMUNICATION SYSTEM FOR MEDICAL DEVICES - A communications device facilitates communication between a medical device and a wireless communications network and comprises a telemetry circuit configured to wirelessly communicate with one or more medical devices, and a computer network communication interface configured to wirelessly communicate directly with a wireless computer network. The communications device also comprises a peripheral device communication interface configured to communicate with a wireless peripheral device and a processor being in operable communication with, and configured to control operations of, the telemetry circuit, the network communication interface, and the peripheral device communication interface. | 09-30-2010 |
20110270362 | ACTIVE CIRCUIT MRI/EMI PROTECTION POWERED BY INTERFERING ENERGY FOR A MEDICAL STIMULATION LEAD AND DEVICE - An implantable lead for use with a medical device (IMD) includes active circuits incorporated into the lead to reduce the creation of an induced current, or dissipate the induced current and heat created due to an induced current in the lead. The active circuits are powered by the magnetic resonant imaging energy or interfering magnetic or electrical fields. According to various embodiments, the lead and/or its components can be provided to reduce or dissipate a current and heat induced by various external magnetic or electrical fields. | 11-03-2011 |
20120026009 | MEDICAL DEVICE HAVING A MULTI-ELEMENT ANTENNA - Medical devices are provided with multi-element antenna systems that may function to automatically tune the antenna as a function of the operating environment of the medical device. The tuning methodology may incorporate a multi-element antenna having a variable capacitive element on a first of the antenna elements with that antenna element being driven by a second of the antenna elements. In an embodiment, a multi-element antenna system may acquire measurements of predefined criteria and the antenna may be tuned as a function of the measured criteria to optimize operation of the antenna in both reception and transmission of signals. In so doing the antenna impedance can be matched to the transmission line impedance. | 02-02-2012 |
20120034896 | SYSTEM AND METHOD FOR UNSCHEDULED WIRELESS COMMUNICATION WITH A MEDICAL DEVICE - Unscheduled wireless communication with a medical device is achieved by operating a receiver of the medical device in a series of modes. Each mode provides an increasingly selective evaluation of received RF energy. The receiver, when operating in a first mode, is capable of detecting the presence of RF energy transmitted from a communicating device. The receiver, when operating in a second mode, consumes more energy than the first mode and analyzes the RF energy to determine whether it contains the appropriate type of modulation. When operating in a third mode, the receiver consumes more energy than the second mode, and operates the full receiver to begin communication with the communicating device. The receiver opens a communication session after the RF energy has passed the evaluation by the series of modes to receive an unscheduled communication. | 02-09-2012 |
20120163663 | SECURITY USE RESTRICTIONS FOR A MEDICAL COMMUNICATION MODULE AND HOST DEVICE - System and method for interfacing with a medical device. The system has a host device and a communication module. The host device has a user interface configured to input and display information relating to the interfacing with the medical device. The communication module is locally coupled to the host device and configured to communicate wirelessly with the medical device. The system, implemented by the host device and the communication module, is configured to communicate with the medical device with functions. The system, implemented by at least one of the host device and the communication module, has validation layers configured for use by users, each of the users having access to at least one of the validation layers based on a validation condition, each individual one of the functions being operational through the user interface only with one of the validation layers. | 06-28-2012 |
20120165619 | STAND ALONE MEDICAL COMMUNICATION MODULE USED WITH A HOST DEVICE - System and method for providing medical information concerning a patient having first patient physiological data and second patient physiological data. The system has a medical device and a handheld device. The medical device is configured to be implanted in the patient and has a sensor configured to obtain the first patient physiological data and a communication module. The handheld device has a communication module, a processor and a user interface. The device communication module is configured to communicate with the medical device communication module, the device communication module being configured to transfer the first patient physiological data to the handheld device via the communication module. The processor is configured to combine the first patient physiological data and the second patient physiological data and generate feedback having a recommended course of action based, at least in part, on the first patient physiological data and the second patient physiological data. | 06-28-2012 |
20120166680 | APPLICATION LIMITATIONS FOR A MEDICAL COMMUNICATION MODULE AND HOST DEVICE - System and method for interfacing with a medical device having a host device and a communication module. The host device has a user interface configured to input and display information relating to the interfacing with the medical device. The communication module is locally coupled to the host device and configured to communicate wirelessly with the medical device. The system, implemented by the host device and the communication module, is configured to communicate with the medical device with functions. The system, implemented by at least one of the host device and the communication module, has a security condition. At least one of the functions is disabled, at least in part, from operating on the system based upon the security condition. | 06-28-2012 |
20130132855 | MEDICAL DEVICE COMMUNICATION SYSTEM WITH COMMUNICATION CONTROLLER USING INTERFACE DEVICE - A system with a medical device, an interface device and a communication controller. A medical device has a medical device communication module. The interface device has an interface device communication module and a user interface operatively coupled to the interface device communication module and configured to communicate with a user of the system. The communication controller has a communication controller module configured to communicate with the medical device communication module and with the interface device communication module and an information server operatively coupled to the communication controller module and configured to drive the user interface of the interface device. The system is configured so that a user of the system may communicate with the medical device using the user interface of the interface device with the user interface of the interface being driven by the information server of the communication module. | 05-23-2013 |
20130196703 | SYSTEM AND COMMUNICATION HUB FOR A PLURALITY OF MEDICAL DEVICES AND METHOD THEREFORE - System, hub and method having medical devices configured to transmit communications containing information affecting priority of transmission of data from an associated one of the medical devices, a destination node and a communication hub. The communication hub is configured to receive the communications from the medical devices, determine a priority of transmission of the data from the communications based, at least in part, on the information affecting priority, and transmit the data from one of the medical devices by way of a network to the destination node in an order based, at least in part, on the priority of transmission. | 08-01-2013 |