| Patent application number | Description | Published |
|---|
| 20080312720 | MULTI-ELEMENT ACOUSTIC RECHARGING SYSTEM - An acoustic energy delivery system for delivering acoustic energy to an implantable medical device (“IMD”). The system includes an IMD having a power source and an energy delivery device. The energy delivery device includes a controller and an array of ultrasonic elements electrically coupled to the controller and configured to deliver acoustic energy to the IMD. Methods of delivering acoustic energy to an IMD are also disclosed. | 12-18-2008 |
| 20090082781 | Implantable ultrasound system for maintaining vessel patency and perfusion - An apparatus comprising an implantable acoustic transducer, an acoustic transducer interface circuit communicatively coupled to the acoustic transducer, and a controller circuit communicatively coupled to the acoustic transducer interface circuit. The controller is configured to, in response to receiving an indication of a patient condition associated with a development of a blood vessel obstruction, initiate delivery of acoustic energy that mitigates the blood vessel obstruction. Other systems and methods are described. | 03-26-2009 |
| 20090177251 | System And Method For In Situ Trimming Of Oscillators In A Pair Of Implantable Medical Devices - A system and method for in situ trimming of oscillators in a pair of implantable medical devices is provided. Each frequency over a range of oscillator trim frequencies for an initiating implantable medical device is selected and a plurality of commands are sent via an acoustic transducer in situ over the frequency selected. Each frequency over a range of oscillator trim frequencies for a responding implantable medical device is selected and a response to each of the commands received is sent via an acoustic transducer in situ over the frequency selected. The responses received by the initiating implantable medical device are evaluated and a combination of the oscillator trim frequencies for both implantable medical devices that together exhibit a strongest acoustic wave is identified. Oscillators in both implantable medical devices are trimmed to the oscillator trim frequencies in the combination identified. | 07-09-2009 |
| 20090201148 | SYSTEMS AND METHODS FOR CONTROLLING WIRELESS SIGNAL TRANSFERS BETWEEN ULTRASOUND-ENABLED MEDICAL DEVICES - Systems and methods for wireless signal transfers between ultrasound-enabled medical devices are disclosed. An illustrative system includes a source device equipped with multiple transducer elements configured to transmit an acoustic wave, a target device including an acoustic transducer for receiving the acoustic wave from the source device, and a controller configured to determine adjustments to one or more transmission parameters of the source device for increasing the signal coherence of the acoustic wave at the target device. | 08-13-2009 |
| 20100016840 | IMPLANT ASSIST APPARATUS FOR ACOUSTICALLY ENABLED IMPLANTABLE MEDICAL DEVICE - Devices, systems and methods for delivering and positioning an implantable medical device and for evaluating an acoustic communication link are disclosed. An illustrative system includes a catheter adapted to contain an implantable device with a biosensor and an acoustic transducer configured to transmit an acoustic signal, and an implant assist device in acoustic communication with the implantable device via an acoustic communication link. The implant assist device includes an acoustic transducer adapted to receive the acoustic signal transmitted by the implantable medical device, and control/processing circuitry configured to evaluate a performance of the acoustic link. | 01-21-2010 |
| 20100049269 | MULTI-ELEMENT ACOUSTIC RECHARGING SYSTEM - An acoustic energy delivery system for delivering acoustic energy to an implantable medical device (“IMD”). The system includes an IMD having a power source and an energy delivery device. The energy delivery device includes a controller and an array of ultrasonic elements electrically coupled to the controller and configured to deliver acoustic energy to the IMD. Methods of delivering acoustic energy to an IMD are also disclosed. | 02-25-2010 |
| 20100106028 | METHODS AND SYSTEMS FOR RECHARGING IMPLANTABLE DEVICES - Methods, systems, and apparatus for recharging medical devices implanted within the body are disclosed. An illustrative method of recharging an implanted medical device includes delivering a charging device to a location adjacent to the implanted medical device, activating a charging element coupled to the charging device and transmitting charging energy to a receiver of the implanted medical device, and charging the implanted medical device using the transmitted charging energy from the charging device. | 04-29-2010 |
| 20100152608 | CHRONICALLY IMPLANTED ABDOMINAL PRESSURE SENSOR FOR CONTINUOUS AMBULATORY ASSESSMENT OF RENAL FUNCTIONS - An implantable system for ambulatory monitoring of a high-risk heart failure patient includes a first pressure sensor implantable within an abdomen of the patient for sensing and generating an output representative of a baseline intra-abdominal pressure value of the patient and for chronically sensing and generating an output representative of an intra-abdominal pressure value of the patient at periodic intervals. At least one second implantable sensor is provided for sensing and generating an output representative of a second physiological parameter of the patient. Additionally, the system includes a processor for correlating the output of the first pressure sensor and the second physiologic sensor, and for comparing differences between the baseline intra-abdominal pressure value and subsequent intra-abdominal pressure values. The processor can reside in another implantable device or in an external device/system. | 06-17-2010 |
| 20100324378 | PHYSIOLOGIC SIGNAL MONITORING USING ULTRASOUND SIGNALS FROM IMPLANTED DEVICES - Devices, systems, and methods for monitoring and analyzing physiologic parameters within the body using an intrabody ultrasound signal are disclosed. An illustrative method includes receiving an ultrasound signal transmitted from a remote device containing encoded sensor data, converting the ultrasound signal into an electrical signal, decoding the sensor data from the electrical signal and generating a first physiological waveform, generating a second physiological waveform by analyzing fluctuations of the electrical signal caused by physiologic modulation of the ultrasound signal during propagation through the body, and analyzing one or more characteristics of the first and second waveforms to determine one or more physiologic parameters within the body. | 12-23-2010 |
| 20110009746 | SYSTEM AND METHODS FOR PULMONARY EDEMA DETECTION WITH IMPLANTABLE ACOUSTIC DEVICES - A system includes a first implantable acoustic transducer, a second implantable transducer a memory circuit, and a processor. The first implantable acoustic transducer is configured to receive transmitted acoustic energy from a thorax region of a subject and the second implantable acoustic transducer is configured to transmit the acoustic energy to the thorax region. The processor is communicatively coupled to the first acoustic transducer, the second acoustic transducer, and the memory circuit. The processor includes a parameter module configured to measure a parameter of the received acoustic energy, and a trending module configured to trend the measured parameter and to provide an indication of pulmonary edema status of the subject using the parameter trend. | 01-13-2011 |
| 20110041613 | WIRELESS ACOUSTIC INTERROGATION OF A PACKAGED MEDICAL IMPLANT - Systems and methods of acoustically interrogating a packaged medical implant such as an implantable sensor are disclosed. An illustrative system includes a sterilizable package including a package tray and a cover, a sensor module disposed within the package, and an acoustic coupling member disposed within an interior space of the package tray. An external interrogator located outside of the sealed package can be used to acoustically communicate with the sensor module. | 02-24-2011 |
