Methods and systems for recharging an implanted device by delivering a section of a charging device adjacent the implanted device within a body
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61B-005/0215
A61N-001/378
A61B-005/00
A61B-005/01
A61B-005/026
A61N-001/372
출원번호
US-0088425
(2013-11-24)
등록번호
US-9024582
(2015-05-05)
발명자
/ 주소
Penner, Abraham
Doron, Eyal
Stahmann, Jeffrey E.
Maile, Keith R.
Tran, Binh C.
Liao, Wangcai
Mi, Bin
Huelskamp, Paul
출원인 / 주소
Cardiac Pacemakers, Inc.
대리인 / 주소
Faegre Baker Daniels LLP
인용정보
피인용 횟수 :
18인용 특허 :
182
초록▼
Methods, systems, and apparatus for recharging medical devices implanted within the body are disclosed. An illustrative rechargeable system includes a charging device that includes an elongate shaft having a proximal section and a distal section. The distal section is configured to be delivered to a
Methods, systems, and apparatus for recharging medical devices implanted within the body are disclosed. An illustrative rechargeable system includes a charging device that includes an elongate shaft having a proximal section and a distal section. The distal section is configured to be delivered to a location within the body adjacent to the implanted medical device. The charging device includes a charging element configured to transmit charging energy to a receiver of the implanted medical device.
대표청구항▼
1. A rechargeable system, comprising: a medical device implanted within a patient's heart and configured to provide therapy to the patient, the medical device including a rechargeable power source and a receiver;a charging device insertable within the body, the charging device including an elongate
1. A rechargeable system, comprising: a medical device implanted within a patient's heart and configured to provide therapy to the patient, the medical device including a rechargeable power source and a receiver;a charging device insertable within the body, the charging device including an elongate shaft having a proximal section and a distal section, and a charging element adapted to transmit charging energy to the receiver from an intrabody location adjacent to the medical device. 2. The rechargeable system of claim 1, wherein the charging element is coupled to the distal section of the charging device. 3. The rechargeable system of claim 1, the charging device further including an interior lumen disposed within the elongate shaft, wherein the charging element is coupled to the proximal section of the charging device and is adapted to transmit energy through the interior lumen. 4. The rechargeable system of claim 1, wherein the charging element includes an electromagnetic transmitter. 5. The rechargeable system of claim 4, wherein the receiver includes an antenna or coil configured to receive the transmitted charging energy. 6. The rechargeable system of claim 4, wherein the charging element includes a radio frequency (RF) transmitter. 7. The rechargeable system of claim 4, wherein the charging element includes an optical transmitter configured to transmit at least one of infrared energy, visible energy, ultraviolet energy, and x-ray energy. 8. The rechargeable system of claim 1, wherein the charging element includes an acoustic transducer configured to transmit acoustic energy. 9. The rechargeable system of claim 1, wherein the charging device includes at least one cooling lumen in fluid communication with a cooling medium. 10. The rechargeable system of claim 1, wherein the charging device further includes a temperature sensor for calibrating the charging device. 11. The rechargeable system of claim 10, wherein the temperature sensor comprises a thermocouple wire embedded in a distal section of the charging device. 12. The rechargeable system of claim 1, wherein the charging device includes a sensor configured to sense electrical leakage from the charging element. 13. A recharging device for recharging a medical device implanted within the body of a patient, the medical device including a rechargeable power source and a receiver, the recharging device comprising: an elongate shaft having a proximal section and a distal section, wherein the distal section is configured to be delivered to a location within the body adjacent to the implanted medical device; anda charging element adapted to transmit charging energy to the receiver. 14. The recharging device of claim 13, wherein the charging element is coupled to the distal section of the charging device. 15. The recharging device of claim 13, the recharging device further comprising an interior lumen disposed within the elongate shaft, wherein the charging element is coupled to the proximal section of the charging device and is adapted to transmit energy through the interior lumen. 16. The recharging device of claim 13, wherein the charging element includes an electromagnetic transmitter. 17. The recharging device of claim 16, wherein the charging element include a radio frequency (RF) transmitter. 18. The recharging device of claim 13, wherein the charging element includes an acoustic transducer. 19. A rechargeable system, comprising: a medical device implanted within a patient's body, the medical device including a rechargeable power source and a receiver;a charging device insertable within the body, the charging device including an elongate shaft having a proximal section and a distal section, and a charging element adapted to transmit charging energy to the receiver from an intrabody location adjacent to the medical device. 20. The rechargeable system of claim 19, wherein the charging element includes a radio frequency (RF) transmitter.
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Funke Hermann D. (Bonn DEX), Acoustic body bus medical device communication system.
Sam W. Bowman, IV ; Ronald J. Lebel ; Daniel H. Villegas ; John C. Gord, Ambulatory medical apparatus and method using telemetry system with predefined reception listening periods.
Bro William J. (3735 W. Cavalier Dr. Phoenix AZ 85019) Carter L. Philip (2910 N. 3rd Ave. Phoenix AZ 85013), Apparatus and method for determining intracranial pressure and local cerebral blood flow.
Davis, Timothy J.; Ecker, Robert M.; Reinke, James D.; Wahlstrand, John D., Apparatus and method to discriminate between telemetry downlink signals and noise in an implanted device.
Snell Jeffery D. (17135 Bircher St. Granada Hills CA 91344) Mann Brian M. (12079 Beaufait Northridge CA 91326) Sholder Jason A. (21037 Cantara St. Canoga Park CA 91304), Apparatus for interpreting and displaying cardiac events of a heart connected to a cardiac pacing means.
Snell Jeffery D. (Northridge CA) Mann Brian M. (Los Angeles CA) Sholder Jason A. (Canoga Park CA), Apparatus for interpreting and displaying cardiac events of a heart connected to a cardiac pacing means.
Kaali Steven (Penthouse E ; 225 E. 63rd St. New York NY 10021) Schwolsky Peter M. (4101 Cathedral Ave. NW. Washington DC 20016) Porter Joseph W. (Washington DC), Birth control method and device employing electric forces.
Baumann Joachim (Munich DEX) Leysieffer Hans (Taufkirchen DEX) Hortmann Guenter (Neckartenzlingen DEX), Charging system for implantable hearing aids and tinnitus maskers.
Claude John P. (San Carlos CA) Ingle Frank W. (Palo Alto CA) Hing Paul A. (Redwood City CA), Communication system for linking a medical device with a remote console.
Bardy, Gust H., Computer readable storage medium containing code for automated collection and analysis of patient information retrieved from an implantable medical device for remote patient care.
Penn, Richard D.; Miesel, Keith Alan; Stylos, Lee; Christopherson, Mark A.; Nagavarapu, Sudha; Roline, Glenn M., Device and method to measure and communicate body parameters.
Combs William J. ; Condie Catherine R. ; Martin Roy ; Warkentin Dwight H. ; Wahlstrandl John D., Impedance monitor for discerning edema through evaluation of respiratory rate.
Imran Mir (Pittsburgh PA) Bach ; Jr. Stanley M. (Pittsburgh PA) Kolenik Steve A. (Leechburg PA), Implantable cardiac defibrillator employing bipolar sensing and telemetry means.
Lekholm Anders (Bromma SEX) Sll Gsta (Norsborg SEX) Wecke Liliane (Solna SEX) Hgnelid Kurt (Sundbyberg SEX), Implantable heart pacemaker with a sensor for inertial and/or rotational movements of the user.
Marchosky Jose A. (Creve Couer MO) Alek Robert B. (Ellisville MO) Moran Christopher (Creve Coeur MO) Rutledge Raymond E. (Ballwin MO), Implantable hyperthermia device and system.
Houben,Richard P. M.; Christopherson,Mark A.; Donders,Adrianus P.; Leinders,Robert; Deno,Curtis D., Implantable lead-based sensor powered by piezoelectric transformer.
Taylor H. Lyndon (ALL C/O University of Texas at Austin ; Dept. of Electrical Engineering ENS 436 Austin TX 78712) Rylander H. Grady (ALL C/O University of Texas at Austin ; Dept. of Electrical Engin, Intracranial pressure transducer system.
Soykan Orhan ; Combs William J. ; Shelton Michael B., Method and apparatus for accoustically coupling implantable medical device telemetry data to a telephonic connection.
Von Arx,Jeffrey A.; Yonce,David J.; Mazar,Scott T.; Lent,Karen M.; Harris,Thomas J., Methods and apparatuses for implantable medical device telemetry power management.
Penner, Avi; Doron, Eyal; Stahmann, Jeffrey E.; Maile, Keith R.; Tran, Binh C.; Liao, Wangcai; Mi, Bin; Huelskamp, Paul J., Methods and systems for recharging an implanted device by delivering a section of a charging device adjacent the implanted device within a body.
Lebel, Ronald J.; Shahmirian, Varaz; Bowman, IV, Sam W.; Starkweather, Timothy J.; Villegas, Daniel H.; Choy, David Y.; Weiss, Philip T., Microprocessor controlled ambulatory medical apparatus with hand held communication device.
Joseph H. Schulman ; John C. Gord ; Paul D. DeRocco ; Lawrence J. Karr ; Dan Folkman ; Andrew Barber, Multichannel communication protocol configured to extend the battery life of an implantable device.
Brown Robert W. (Medina OH) Belski Gary T. (Massillon OH) Dunn William F. (Stow OH), Pneumatic tire having an integrated circuit transponder and pressure transducer.
Bange,Joseph E.; Koshiol,Allan T.; Lent,Karen M.; Holmquist,Paul; Harris,Thomas J., System and method for RF transceiver duty cycling in an implantable medical device.
Merritt, Donald R.; Jain, Mukul; Busacker, James W.; Crandall, Kathleen U.; Kleckner, Karen J., System and method for determining remaining battery life for an implantable medical device.
Porat Yariv,ILX ; Tsaliah Yosef,ILX ; Doron Eyal,ILX, System and method for monitoring pressure, flow and constriction parameters of plumbing and blood vessels.
Edenfield, Robin W.; Bryant, Christopher D., System and method for synchronizing data transfer from one domain to another by selecting output data from either a first or second storage device.
Maile, Keith R.; Chavan, Abhijeet V.; Jeffrey, Von Arx A.; Zhang, Cheng, System and method for walking an implantable medical device from a sleep state.
Echarri, Guillermo; Echarri, Roberto; Barreras, Sr., Francisco Jose; Jimenez, Oscar, System for managing power to an implanted device based on operating time, current drain and battery capacity.
Von Arx, Jeffrey A.; Mazar, Scott T.; Chavan, Abhi, Systems and methods for deriving relative physiologic measurements using a backend computing system.
Cosman Eric R. (872 Concord Ave. Belmont MA 02178), Telemetric differential pressure sensor with the improvement of a conductive shorted loop tuning element and a resonant.
Von Arx,Jeffrey A.; Balczewski,Ron; Mazar,Scott T.; Linder,William J.; Mass,William R., Telemetry duty cycle management system for an implantable medical device.
Seyed-Bolorforosh Mir S. (Palo Alto CA) Greenstein Michael (Los Altos CA) Gururaja Turuvekere R. (North Andover MA) Yoshida Henry (San Jose CA), Tunable acoustic resonator for clinical ultrasonic transducers.
Carson Paul L. (5903 Fox Hollow Ct. Ann Arbor MI 48105) Fitting Dale W. (2785 Heather Rd. Golden CO 80401) Robinson Andrew L. (2765 Manchester Rd. Ann Arbor MI 48104) Terry ; Jr. Fred L. (1410 Judd R, Ultrasonic image sensing array and method.
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