Apparatus and methods using acoustic telemetry for intrabody communications
First Claim
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1. A system for communicating within a patient'"'"'s body, comprising:
- at least one implantable sensor adapted to be placed within a blood vessel of a patient, the at least one implantable sensor including an electrical energy source and an acoustic transducer configured for acoustic communication with a receiver, wherein the at least one implantable sensor further includes an acoustic switch circuit that is configured to activate the at least one implantable sensor in response to receiving an acoustic signal from an acoustic energy source, wherein the acoustic signal causes the acoustic transducer to form a voltage pulse that is conveyed to the acoustic switch circuit, and wherein the acoustic switch circuit closes, when the voltage pulse exceeds a threshold, to allow current to flow from the electrical energy source, thereby activating the at least one implantable sensor;
a control implant adapted to be implanted in the patient, the control implant including an acoustic transducer configured for acoustic communication with the at least one implantable sensor; and
wherein the at least one implantable sensor is coupled to a fixation element adapted to secure the sensor within the blood vessel.
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Abstract
Systems and methods provide intrabody communication using acoustic telemetry. The system includes a first or control implant including a first acoustic transducer, and a second implant including a switch and a second acoustic transducer coupled to the switch. The second acoustic transducer receives acoustic signals from the first acoustic transducer for closing the switch to activate the second implant. The second implant may include a sensor for measuring a physiological parameter that is transmitted using acoustic signals including the physiological data to the first implant. For example, the second implant may measure pressure in the patient'"'"'s heart that may be used by the first implant to control a pacemaker. Alternatively, the second implant may blood sugar concentration that may be used by the first implant to control an insulin pump. Alternatively, the first implant may store and transfer the data to an external device for monitoring the patient.
172 Citations
12 Claims
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1. A system for communicating within a patient'"'"'s body, comprising:
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at least one implantable sensor adapted to be placed within a blood vessel of a patient, the at least one implantable sensor including an electrical energy source and an acoustic transducer configured for acoustic communication with a receiver, wherein the at least one implantable sensor further includes an acoustic switch circuit that is configured to activate the at least one implantable sensor in response to receiving an acoustic signal from an acoustic energy source, wherein the acoustic signal causes the acoustic transducer to form a voltage pulse that is conveyed to the acoustic switch circuit, and wherein the acoustic switch circuit closes, when the voltage pulse exceeds a threshold, to allow current to flow from the electrical energy source, thereby activating the at least one implantable sensor; a control implant adapted to be implanted in the patient, the control implant including an acoustic transducer configured for acoustic communication with the at least one implantable sensor; and wherein the at least one implantable sensor is coupled to a fixation element adapted to secure the sensor within the blood vessel. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A system for communicating within a patient'"'"'s body, comprising:
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at least one implantable sensor adapted to be placed within a blood vessel of a patient, the at least one implantable sensor including an electrical energy source, electrical circuitry configured to control an operation of the at least one implantable sensor, and an acoustic transducer configured for acoustic communication with a receiver, wherein the at least one implantable sensor further includes an acoustic switch that is configured to allow an electrical current to flow from the energy source to the electrical circuitry in response to receiving an acoustic signal, thereby activating the at least one implantable sensor; and a control implant adapted to be implanted in the patient, the control implant including an acoustic transducer configured for acoustic communication with the at least one implantable sensor.
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Specification
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Current AssigneeRemon Medical Technologies Ltd. (Boston Scientific Corporation)
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Original AssigneeRemon Medical Technologies Ltd. (Boston Scientific Corporation)
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InventorsPenner, Avi, Doron, Eyal
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Primary Examiner(s)Natnithithadha, Navin
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Application NumberUS11/680,529Publication NumberTime in Patent Office2,400 DaysField of Search600/488, 600/481, 600483-486, 600/302US Class Current600/302CPC Class CodesA61B 2017/00026 Conductivity or impedance, ...A61B 2560/0214 of power generation or supplyA61B 2560/0257 using atmospheric pressureA61B 5/0008 Temperature signalsA61B 5/0028 Body tissue as transmission...A61B 5/0031 Implanted circuitryA61B 5/0215 by means inserted into the ...A61B 5/026 Measuring blood flow A61B3/...A61B 5/031 Intracranial pressureA61B 5/14532 for measuring glucose, e.g....A61B 5/14539 for measuring pHA61B 5/4839 combined with drug deliveryA61M 2205/3507 with implanted devices, e.g...A61M 5/14276 specially adapted for impla...A61M 5/1723 using feedback of body para...A61N 1/37217 characterised by the commun...A61N 1/37288 Communication to several im...A61N 1/378 Electrical supply
