Patent application number | Description | Published |
20090140184 | Flow Rate Accuracy of a Fluidic Delivery System - Improving the accuracy of the flow rate of a valve in a fluidic delivery device in which a desired flow rate may be achieved by varying the duty cycle of the valve. The flow rate of fluid delivery from the valve over its lifetime is stabilized by minimizing the voltage OPENING time of the valve to account for valve and piezoelectric actuator drift. Also, the valve OPENING time of one or more fluidic parameters that impact on the flow rate delivery by the valve and differ among fluidic delivery devices is compensated to optimize the flow rate accuracy. | 06-04-2009 |
20090140185 | Flow Rate Accuracy of a Fluidic Delivery System - Improving the accuracy of the flow rate of a valve in a fluidic delivery device in which a desired flow rate may be achieved by varying the duty cycle of the valve. The flow rate of fluid delivery from the valve over its lifetime is stabilized by minimizing the voltage OPENING time of the valve to account for valve and piezoelectric actuator drift. Also, the valve OPENING time of one or more fluidic parameters that impact on the flow rate delivery by the valve and differ among fluidic delivery devices is compensated to optimize the flow rate accuracy. | 06-04-2009 |
20090204019 | Combined Pressure and Flow Sensor Integrated in a Shunt System - A shunt system for implantation into a patient for diverting excess fluid from the lateral ventricles of the patient's brain to a diversion site. The present shunt includes a pressure transducer for measuring ICP, a rate of flow transducer for measuring the flow rate of the CSF flowing within the shunt, and telemetry circuitry. A remote reader with an antenna is provided to selectively interrogate and provide inductive power to the implanted shunt. Upon interrogation, the pressure and rate of flow measurements are calibrated, multiplexed and transmitted on a carrier signal back to the remote reader/antenna. The reader/antenna extracts the pressure and flow rate data from the carrier wave and further separates the data by demultiplexing the signal. The reader further includes a barometer for providing local barometric pressure and uses this information together with the data from the implanted transducers to calculate and display real-time adjusted ICP, CSF flow-rate within the shunt and brain compliance. | 08-13-2009 |
20090210033 | Implant revision recognition by exchanging the revision data during transmission - A system and method for establishing communication among a control device and an implantable medical device. The implantable medical device transmits to the control device identification information including a unique identification number associated with the implantable medical device and/or a current version of application software currently being utilized by the implantable medical device. Based on the extracted identification information, the control device correlates thereto a version of the application software from among the multiple versions of application software associated with the control device that is compatible with the recognized version of the application software currently being utilized by the implantable medical device. | 08-20-2009 |
20090239478 | Power regulation feedback to optimize robustness of wireless transmissions - A wireless communication system with power regulation feedback for improving the robustness of wireless communication transmissions between a receiver and an active emitter irrespective of the distance separation therebetween. The receiver receives wireless communications and detects a voltage induced therein. A feedback loop provides wireless transmission of power regulation feedback based on the detected voltage. The active emitter generates a power regulated data signal in which at least one of maximum and minimum bit voltage levels of respective logical high and low bits is adjusted based on the induced voltage received via the feedback loop. The RF power level, modulation index, and/or slew rate of a data signal emitted from the active emitter is regulated by adjusting at least one of maximum and minimum bit voltage levels of respective logical high and low bits based on voltage induced in the receiver during a previous communication from the active emitter. | 09-24-2009 |
20100100203 | Insuring proper communication with chosen implant among multiple implants in proximity to one another - A system and method for restricting proper regulation by a control unit of only the functionality of the targeted device whose operations are intended to be programmed so as to insure no adverse regulation of functionality with respect to any other non-targeted device. A memory associated with each of the control device and the targeted device stores a unique identification assigned to that targeted device compressed using an error detection scheme, wherein the compressed unique identification has a length less than or equal to that of each of the messages. Circuitry, such as a logic function, mixes the stored compressed unique identification with each message transmitted between the two devices subsequent to receipt of a response signal from the targeted device to an interrogation command from the control device to insure proper communication between the control device and the targeted device. | 04-22-2010 |
20100114060 | System and method for controlling an implantable medical device subject to magnetic field or radio frequency exposure - A system for controlling an implantable medical device (e.g., a drug delivery device) susceptible to malfunctioning during exposure to a magnetic field and/or Radio Frequency field (e.g., during a magnetic resonance imaging procedure) and a method for operating the same. Exposure of the implantable device to the magnetic field and/or the Radio Frequency field is detected using the sensing device. When the detected magnetic field and/or Radio Frequency field exceeds a corresponding predetermined threshold level, an input signal is generated at the microcontroller. In response to the generated input signal, the microcontroller automatically triggers (i) a safety mode enabling a predetermined safety mode operation that alters some operation, without ceasing all operation, of the implantable medical device and/or (ii) after expiration of a predetermined safety mode time interval when the at least one field being detected falls below its corresponding predetermined threshold level or a predetermined period of time elapses, a self testing mode enabling a predetermined self testing operation to verify proper operation of the implantable medical device. Preferably, both the safety and self testing modes are automatically triggered. | 05-06-2010 |
20110021887 | METHOD FOR THE CALIBRATION OF AN IMPLANTABLE SENSOR - An implant includes a processor, RF communication circuitry, optical communication circuitry, a power source and a memory, all of which being hermetically sealed within a housing having a transparent window. Sensor readings are transmitted by RF using the RF communication circuitry to a remote reader after receiving interrogation signals from the reader. During calibration of the sensor, corrective coefficients are calculated by comparing actual sensor pressure readings with known pressure readings. The corrective coefficients are transmitted to the memory of the control circuitry using optical communication wherein modulated light is transmitted through the transparent window of the housing to the photo-detector. | 01-27-2011 |
20120150356 | Flow Rate Accuracy of a Fluidic Delivery System - Improving the accuracy of the flow rate of a valve in a fiuidic delivery device in which a desired flow rate may be achieved by varying the duty cycle of the valve. The flow rate of fluid delivery from the valve over its lifetime is stabilized by minimizing the voltage OPENING time of the valve to account for valve and piezoelectric actuator drift. Also, the valve OPENING time of one or more fiuidic parameters that impact on the flow rate delivery by the valve and differ among fiuidic delivery devices is compensated to optimize the flow rate accuracy. | 06-14-2012 |
20120283703 | Flow Rate Accuracy of a Fluidic Delivery System - Improving the accuracy of the flow rate of a valve in a fluidic delivery device in which a desired flow rate may be achieved by varying the duty cycle of the valve. The flow rate of fluid delivery from the valve over its lifetime is stabilized by minimizing the voltage OPENING time of the valve to account for valve and piezoelectric actuator drift. Also, the valve OPENING time of one or more fluidic parameters that impact on the flow rate delivery by the valve and differ among fluidic delivery devices is compensated to optimize the flow rate accuracy. | 11-08-2012 |
20140243933 | Modulation of the Activity of Mitochondria in Brown Adipose Tissue By Photobiomodulation for the Treatment of Obesity - A method for treating obesity by activating non-shivering thermogenesis in mitochondria of targeted brown adipose tissue. A photobiomodulation device including one or more light sources is provided. The mitochondria of the targeted brown adipose tissue is photobiomodulated by exposure to light produced by the light source at a wavelength that modulates photoactivity of an electron transport chain and increases proton transfer across a membrane of the mitochondria of the targeted brown adipose tissue towards an intern space of the mitochondria, without increasing production of adenosine triphosphate. | 08-28-2014 |