[특허]Low inductance and low resistance hermetically sealed filtered feedthrough for an AIMD

[미국특허] Low inductance and low resistance hermetically sealed filtered feedthrough for an AIMD 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	A61N-001/375 H01G-004/40 A61N-001/08 A61N-001/37 H01R-013/7195 H03H-001/00 H01R-013/52 H01G-002/02 H01G-002/10 H03H-007/01
출원번호	US-0187295 (2014-02-23)
등록번호	US-10080889 (2018-09-25)
발명자 / 주소	Marzano, Thomas Stevenson, Robert A. Frysz, Christine A. Woods, Jason Brendel, Richard L.
출원인 / 주소	Greatbatch Ltd.
대리인 / 주소	Scalise, Michael F.
인용정보	피인용 횟수 : 0 인용 특허 : 348

초록 ▼

A hermetically sealed filtered feedthrough includes a chip capacitor disposed on a circuit board on a device side. A first low impedance electrical connection is between a capacitor first end metallization and a conductor which is disposed through an insulator. A second low impedance electrical connection is between the capacitor second end metallization and a ferrule or housing. The second low impedance electrical connection may include an oxide-resistant electrical connection forming the hermetic seal between the insulator and the ferrule or housing and an electrical connection between and to the second end metallization and directly to the oxide-resistant electrical connection. Alternatively, the second low impedance electrical connection may include an oxide-resistant metal addition attached directly to the ferrule or housing and an electrical connection between and to the second end metallization and directly to the oxide-resistant metal addition.

대표청구항 ▼

1. A hermetically sealed feedthrough filter assembly for an implantable medical device, the feedthrough filter assembly comprising: a) a ferrule comprising an electrically conductive material defining a ferrule opening, wherein the ferrule is configured to be attachable to an opening in a housing of an active implantable medical device;b) an insulator at least partially residing in the ferrule opening where a first hermetic seal connects the insulator to the ferrule, wherein the insulator extends to spaced apart insulator first and second sides with an insulator via hole extending through the insulator to the insulator first and second sides;c) an electronic circuit board comprising an active circuit trace and a ground circuit trace, wherein the active circuit trace extends from an active circuit trace first portion to an active circuit trace second portion, and the ground circuit trace extends from a ground circuit trace first portion to a ground circuit trace second portion, and wherein the circuit board has at least one circuit board active via hole extending therethrough;d) a conductor extending to a conductor first portion and a conductor second portion, wherein the conductor is disposed through the insulator via hole where a second hermetic seal connects the conductor to the insulator so that the conductor is in a non-electrically conductive relation with the ferrule, and wherein the conductor first portion resides in the circuit board active via hole and the conductor second portion is electrically connectable to an implantable lead having an electrode configured for contact with body tissue;e) a two-terminal chip capacitor comprising at least one active electrode plate interleaved within a capacitor dielectric with at least one ground electrode plate, wherein an active metallization is electrically connected to the at least one active electrode plate and a ground metallization is electrically connected to the at least one ground electrode plate of the two-terminal chip capacitor;f) a first electrical connection electrically connecting the active metallization of the two-terminal chip capacitor to both: A) the active circuit trace first portion; andB) the conductor first portion residing in or adjacent to the circuit board active via hole,C) wherein the active circuit trace second portion is electrically connectable to electronic circuits for an implantable medical device; andg) a second electrical connection electrically connecting the ground metallization of the two-terminal chip capacitor to both: A) the ground circuit trace first portion; andB) the ground circuit trace second portion to the first hermetic seal contacting the ferrule. 2. The feedthrough filter assembly of claim 1, wherein at least one of the first and second electrical connections comprise a noble metal structure. 3. The feedthrough filter assembly of claim 1, wherein at least one of the first and second electrical connections comprise a gold braze. 4. The feedthrough filter assembly of claim 1, wherein the conductor first portion extends into, but not completely through the circuit board active via hole. 5. The feedthrough filter assembly of claim 1, wherein the second electrical connection comprises a solder contacting the first hermetic seal and an electrical connection material connecting the solder to the ground metallization of the two-terminal chip capacitor. 6. The feedthrough filter assembly of claim 1, wherein a ground impedance loop extends from the conductor through the first electrical connection to the two-terminal chip capacitor and then from the two-terminal chip capacitor to the second electrical connection to the first hermetic seal contacting the ferrule. 7. The feedthrough filter assembly of claim 6, wherein a total resistance of the ground impedance loop is greater than zero, but less than 0.5 ohms. 8. The feedthrough filter assembly of claim 6, wherein a total inductance of the ground impedance loop is greater than zero, but less than 10 nanohenries. 9. The feedthrough filter assembly of claim 1, wherein the two-terminal chip capacitor is selected from the group consisting of a monolithic ceramic chip capacitor (MLCC), a stacked film capacitor, a tantalum chip capacitor, an electrolytic chip capacitor, and a reverse geometry two-terminal chip capacitor. 10. The feedthrough filter assembly of claim 1, wherein the circuit board is at least partially supported by the insulator. 11. The feedthrough filter assembly of claim 1, wherein the conductor comprises a leadwire. 12. The feedthrough filter assembly of claim 11, wherein the leadwire comprises platinum or gold. 13. The feedthrough filter assembly of claim 1, wherein at least one of the insulator first and second sides is flush with a corresponding first and second side of the ferrule. 14. The feedthrough filter assembly of claim 1, including at least one nonconductive adhesive washer or epoxy that is disposed between one of: i) the circuit board and the ferrule;ii) the circuit board and the insulator; andii) the circuit board and both the ferrule and the insulator. 15. The feedthrough filter assembly of claim 1, wherein the insulator comprises an alumina substrate comprised of at least 96% alumina. 16. The feedthrough filter assembly of claim 1, wherein the conductor first portion extends through the circuit board active via hole and the first electrical connection electrically couples to the conductor first portion extending outwardly from the circuit board active via hole. 17. The feedthrough filter assembly of claim 1, wherein the second electrical connection material electrically connects the ground circuit trace second portion to the first hermetic seal contacting the ferrule. 18. The feedthrough filter assembly of claim 1, wherein the circuit board comprises a flexible portion. 19. The feedthrough filter assembly of claim 1, wherein at least one of the first and second electrical connections comprises a ball grid array. 20. The feedthrough filter assembly of claim 1, wherein the two-terminal chip capacitor has a resonant frequency above 400 MHz. 21. The feedthrough filter assembly of claim 1, wherein the two-terminal chip capacitor has a capacitance in a range from 300 picofarads to 10,000 picofarads. 22. A hermetically sealed feedthrough filter assembly for an active implantable medical device, the feedthrough filter assembly comprising: a) a ferrule comprising an electrically conductive material defining a ferrule opening, wherein the ferrule is configured to be attachable to an opening in a housing of an active implantable medical device;b) a noble metal structure welded to the ferrule spaced from the ferrule opening;c) an insulator at least partially residing in the ferrule opening where a first hermetic seal connects the insulator to the ferrule, wherein the insulator extends to spaced apart insulator first and second sides with an insulator via hole extending through the insulator to the insulator first and second sides;d) an electronic circuit board comprising a circuit board first side and a circuit board second side, wherein the circuit board second side is located adjacent to the insulator first side, and wherein the circuit board comprises an active circuit trace and a ground circuit trace, the active circuit trace extending from an active circuit trace first portion to an active circuit trace second portion, and the ground circuit trace extending from a ground circuit trace first portion to a ground circuit trace second portion, and wherein the circuit board has at least one circuit board active via hole extending therethrough;e) a conductor extending to a conductor first portion and a conductor second portion, wherein the conductor is disposed through the insulator via hole where a second hermetic seal connects the conductor to the insulator so that the conductor is in a non-electrically conductive relation with the ferrule, and wherein the conductor first portion resides in the circuit board active via hole and the conductor second portion is electrically connectable to an implantable lead having an electrode configured for contact with body tissue;f) a two-terminal chip capacitor supported on the circuit board first side, the two-terminal chip capacitor comprising at least one active electrode plate interleaved within a capacitor dielectric with at least one ground electrode plate, wherein an active metallization is connected to the at least one active electrode plate and a ground metallization is connected to the at least one ground electrode plate of the two-terminal chip capacitor;g) a first electrical connection electrically and physically extending from the active metallization of the two-terminal chip capacitor to both: A) the active circuit trace first portion; andB) the conductor first portion residing in or adjacent to the circuit board active via hole,C) wherein the active circuit trace second portion is electrically connectable to electronic circuits for an implantable medical device; andh) a second electrical connection electrically and physically extending from the ground metallization of the two-terminal chip capacitor to both: A) the ground circuit trace first portion; andB) the ground circuit trace second portion to the noble metal structure welded to the ferrule spaced from the ferrule opening. 23. The feedthrough filter assembly of claim 22, wherein the conductor first portion extends into, but not completely through the circuit board active via hole. 24. The feedthrough filter assembly of claim 22, wherein the two-terminal chip capacitor has a resonant frequency above 400 MHz and a capacitance in a range from 300 picofarads to 10,000 picofarads. 25. The feedthrough filter assembly of claim 22, wherein the second electrical connection comprises a conductive material selected from a solder and a thermal-setting conductive adhesive. 26. The feedthrough filter assembly of claim 22, wherein a ground impedance loop having a total resistance that is greater than zero, but less than 0.5 ohm and a total inductance that is greater than zero, but less than 10 nanohenries extends from the conductor through the first electrical connection to the two-terminal chip capacitor and then from the two-terminal chip capacitor to the second electrical connection to the noble metal structure welded to the ferrule. 27. An implantable medical device, comprising: a) a hermetically sealed device housing containing device electronic circuits;b) a feedthrough filter assembly, comprising: i) a ferrule comprising an electrically conductive material defining a ferrule opening, wherein the ferrule is hermetically mounted in an opening in the device housing to thereby provide a ferrule device side inside the device housing and a ferrule body fluid side outside the device housing;ii) an insulator at least partially residing in the ferrule opening where a first hermetic seal connects the insulator to the ferrule, wherein the insulator has an insulator device side adjacent to the ferrule device side and an insulator body fluid side adjacent to the ferrule body fluid side, and wherein an insulator via hole extends through the insulator to the insulator device side and the insulator body fluid side;iii) an electronic circuit board located inside the device housing and comprising a circuit board first side and a circuit board second side, wherein the circuit board second side is adjacent to the insulator first device side, and wherein the circuit board comprises an active circuit trace and a ground circuit trace, the active circuit trace extending from an active circuit trace first portion to an active circuit trace second portion, and the ground circuit trace extending from a ground circuit trace first portion to a ground circuit trace second portion, and wherein the circuit board has at least one circuit board active via hole extending therethrough;iv) a conductor extending to a conductor first portion and a conductor second portion, wherein the conductor is disposed through the insulator via hole where a second hermetic seal connects the conductor to the insulator so that the conductor is in a non-electrically conductive relation with the ferrule and the device housing, and wherein the conductor first portion resides in the circuit board active via hole and the conductor second portion is electrically connectable to an implantable lead having an electrode configured for contact with body tissue;v) a two-terminal chip capacitor located inside the device housing, wherein the two-terminal chip capacitor comprises at least one active electrode plate interleaved within a capacitor dielectric with at least one ground electrode plate, and wherein an active metallization is electrically connected to the at least one active electrode plate and a ground metallization is electrically connected to the at least one ground electrode plate of the two-terminal chip capacitor;vi) a first electrical connection electrically connecting the active metallization of the two-terminal chip capacitor to both: A) the active circuit trace first portion; andB) the conductor first portion residing in or adjacent to the circuit board active via hole,C) wherein the active circuit trace second portion is electrically connected to the device electronic circuits; andvii) a second electrical connection electrically connecting the ground metallization of the two-terminal chip capacitor to both: A) the ground circuit trace first portion; andB) either the ground circuit trace second portion and the first hermetic seal between the insulator and the ferrule or, the ground circuit trace second portion and to the ferrule hermetically mounted in the opening in the device housing,viii) wherein, with the active circuit trace being electrically connected to the device electronic circuits and the conductor second portion being electrically connected to a lead having an electrode that is in contact with body tissue, and A) under a low frequency EMI condition with the two-terminal chip capacitor resonating at greater than zero, but less than 400 MHz, the two-terminal chip capacitor permits passage of biological signals having frequencies that are greater than zero up to 1 kHz to pass from the conductor to the active circuit trace of the circuit board and then to the device electronic circuits, andB) under a high frequency EMI condition with the two-terminal chip capacitor resonating at at least 400 MHz, the two-terminal chip capacitor acts as an open circuit that does not permit biological signals having frequencies greater than zero up to 1 kHz to pass from the conductor to the active circuit trace of the circuit board and then to the device electronic circuits. 28. The implantable medical device of claim 27, wherein a ground impedance loop having a total resistance that is greater than zero, but less than 0.5 ohm and a total inductance that is greater than zero, but less than 10 nanohenries extends from the conductor through the first electrical connection to the two-terminal chip capacitor and then from the two-terminal chip capacitor to the second electrical connection and the ground circuit trace and to the first hermetic seal contacting the ferrule. 29. The implantable medical device of claim 27, wherein, under the high frequency EMI condition, the two-terminal chip capacitor resonates at over 800 MHz. 30. The implantable medical device of claim 27, wherein the circuit board resides adjacent to the insulator device side with the conductor first portion extending into, but not completely through the circuit board active via hole. 31. The feedthrough filter assembly of claim 27, wherein, under the high frequency EMI condition, the two-terminal chip capacitor resonates at over 800 MHz. 32. The feedthrough filter assembly of claim 27, wherein the two-terminal chip capacitor has a resonant frequency above 400 MHz. 33. The feedthrough filter assembly of claim 27, wherein the two-terminal chip capacitor has a capacitance in a range from 300 picofarads to 10,000 picofarads. 34. An implantable medical device, comprising: a) a hermetically sealed device housing containing device electronic circuits;b) a feedthrough filter assembly, comprising: i) a ferrule comprising an electrically conductive material defining a ferrule opening, wherein the ferrule is hermetically mounted in an opening in the device housing to thereby provide a ferrule device side inside the device housing and a ferrule body fluid side outside the device housing;ii) an insulator at least partially residing in the ferrule opening where a first hermetic seal connects the insulator to the ferrule, wherein the insulator has an insulator device side adjacent to the ferrule device side and an insulator body fluid side adjacent to the ferrule body fluid side, and wherein an insulator via hole extends through the insulator to the insulator device side and the insulator body fluid side, and wherein at least one of the insulator device and body fluid sides is flush with the adjacent ferrule device and body fluid side;iii) an electronic circuit board located inside the device housing and comprising a circuit board first side and a circuit board second side, and wherein the circuit board comprises an active circuit trace and a ground circuit trace, the active circuit trace extending from an active circuit trace first portion to an active circuit trace second portion, and the ground circuit trace extending from a ground circuit trace first portion to a ground circuit trace second portion, and wherein the circuit board has at least one circuit board active via hole extending therethrough;iv) a conductor extending to a conductor inside device portion and a conductor body fluid portion, wherein the conductor is disposed through the insulator via hole where a second hermetic seal connects the conductor to the insulator so that the conductor is in a non-electrically conductive relation with the ferrule and the device housing, and wherein the conductor inside device portion resides in the circuit board active via hole and the conductor body fluid portion is electrically connectable to an implantable lead having an electrode configured for contact with body tissue;v) a two-terminal chip capacitor located inside the device housing and supported on the circuit board first side, wherein the two-terminal chip capacitor comprises at least one active electrode plate interleaved within a capacitor dielectric with at least one ground electrode plate, and wherein an active metallization is electrically connected to the at least one active electrode plate and a ground metallization is electrically connected to the at least one ground electrode plate of the two-terminal chip capacitor;vi) a first electrical connection electrically connecting the active metallization of the two-terminal chip capacitor to both: A) the active circuit trace first portion; andB) the conductor inside device portion residing in or adjacent to the circuit board active via hole,C) wherein the active circuit trace second portion is electrically connected to the device electronic circuits; andvii) a second electrical connection electrically connecting the ground metallization of the two-terminal chip capacitor to both: A) the ground circuit trace first portion; andB) either the ground circuit trace second portion and the first hermetic seal between the insulator and the ferrule or, the ground circuit trace second portion and directly to the ferrule hermetically mounted in the opening in the device housing,viii) wherein, with the active circuit trace being electrically connected to the device electronic circuits and the conductor body fluid portion being electrically connected to a lead having an electrode that is in contact with body tissue, and A) under a low frequency EMI condition with the two-terminal chip capacitor resonating at greater than zero, but less than 400 MHz, the two-terminal chip capacitor permits passage of biological signals having frequencies that are greater than zero up to 1 kHz to pass from the conductor to the active circuit trace of the circuit board and then to the device electronic circuits, andB) under a high frequency EMI condition with the two-terminal chip capacitor resonating at at least 400 MHz, the two-terminal chip capacitor acts as an open circuit that does not permit biological signals having frequencies greater than zero up to 1 kHz to pass from the conductor to the active circuit trace of the circuit board and then to the device electronic circuits. 35. The implantable medical device of claim 34, wherein the circuit board resides adjacent to the insulator device side with the conductor inside device portion extending into, but not completely through the circuit board active via hole. 36. The implantable medical device of claim 34, wherein the two-terminal chip capacitor has a resonant frequency above 400 MHz and a capacitance in a range from 300 picofarads to 10,000 picofarads. 37. The feedthrough filter assembly of claim 34, wherein a ground impedance loop having a total resistance that is greater than zero, but less than 0.5 ohm and a total inductance that is greater than zero, but less than 10 nanohenries extends from the conductor through the first electrical connection to the two-terminal chip capacitor and then from the two-terminal chip capacitor to the second electrical connection and the ground trace and to the first hermetic seal contacting the ferrule. 38. A hermetically sealed feedthrough filter assembly for an implantable medical device, the feedthrough filter assembly comprising: a) a ferrule comprising an electrically conductive material defining a ferrule opening, wherein the ferrule is configured to be attachable to an opening in a housing of an active implantable medical device;b) an insulator at least partially residing in the ferrule opening where a first hermetic seal connects the insulator to the ferrule, wherein the insulator extends to spaced apart insulator first and second sides with an insulator via hole extending through the insulator to the insulator first and second sides;c) an electronic circuit board comprising an active circuit trace and a ground circuit trace, wherein the active circuit trace extends from an active circuit trace first portion to an active circuit trace second portion, and the ground circuit trace extends from a ground circuit trace first portion to a ground circuit trace second portion, and wherein the circuit board has at least one circuit board active via hole extending therethrough;d) a conductor extending to a conductor first portion and a conductor second portion, wherein the conductor is disposed through the insulator via hole where a second hermetic seal connects the conductor to the insulator so that the conductor is in a non-electrically conductive relation with the ferrule, and wherein the conductor first portion resides in the circuit board active via hole and the conductor second portion is electrically connectable to an implantable lead having an electrode configured for contact with body tissue;e) a two-terminal chip capacitor comprising at least one active electrode plate interleaved within a capacitor dielectric with at least one ground electrode plate, wherein an active metallization is electrically connected to the at least one active electrode plate and a ground metallization is electrically connected to the at least one ground electrode plate of the two-terminal chip capacitor;f) a first electrical connection electrically connecting the active metallization of the two-terminal chip capacitor to both: A) the active circuit trace first portion; andB) the conductor first portion residing in or adjacent to the circuit board active via hole,C) wherein the active circuit trace second portion is electrically connectable to electronic circuits for an implantable medical device; andg) a second electrical connection electrically connecting the ground metallization of the two-terminal chip capacitor to the ground circuit trace first portion; andh) a third electrical connection electrically connecting the ground circuit trace second portion to the first hermetic seal between the insulator and the ferrule or directly to the ferrule. 39. The feedthrough filter assembly of claim 38, wherein the conductor first portion extends into, but not completely through the circuit board active via hole. 40. The feedthrough filter assembly of claim 38, wherein the two-terminal chip capacitor has a resonant frequency above 400 MHz and a capacitance in a range from 300 picofarads to 10,000 picofarads. 41. The feedthrough filter assembly of claim 38, wherein the second electrical connection comprises a conductive material selected from a solder and a thermal-setting conductive adhesive. 42. The feedthrough filter assembly of claim 38, wherein a ground impedance loop having a total resistance that is greater than zero, but less than 0.5 ohm and a total inductance that is greater than zero, but less than 10 nanohenries extends from the conductor through the first electrical connection to the two-terminal chip capacitor and then from the two-terminal chip capacitor to the second electrical connection to the ground circuit trace first portion and the third electrical connection from the ground circuit trace second portion to the first hermetic seal contacting the ferrule.

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Jacobson Peter (Haguenau FRX), Current limiter for implantable electronic device lead.
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Barsan Radu M., Decoder circuit with short channel depletion transistors.
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Sigg, Daniel C.; Sommer, John L., Delivery of active fixation implatable lead systems.
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Fram Daniel B. (West Hartford CT) Berns Ellison (West Hartford CT) Ropiak Susan M. (Hanscom Air Force Base MA) Rowe Donald S. (Belmont MA), Device and method for heating tissue in a patient\s body.
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Cheung,William S. H., Device and method for making air, gas or vacuum capacitors and other microwave components.
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Weiner,Michael L.; Miller,Victor R.; Connelly,Patrick R.; Helfer,Jeffrey L., Device and method for preventing magnetic-resonance imaging induced damage.
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Ratner Adam V. (815 Sea Spray La. Foster City CA 94404), Device construction and method facilitating magnetic resonance imaging of foreign objects in a body.
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Proctor Paul W. (Rte. 2 ; Kathy La. White Plains MD 20695) Dow Robert L. (Rte. 5 ; Box 415 LaPlata MD 20646), Device for protecting an electronic prosthesis from adverse effects of RF and/or electrostatic energy.
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Yang,Xiaoming; Atalar,Ergin; Yeung,Christopher, Device, systems and methods for localized heating of a vessel and/or in combination with MR/NMR imaging of the vessel and surrounding tissue.
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Kreger, Kevin Scott; Pettersson, Bo Johan, Diagnostic device including a method and apparatus for bio-potential noise cancellation utilizing the patient's respiratory signal.
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Eberle Michael J. (Citrus Heights CA) Hodgson John M. (Shaker Heights OH), Dilating and imaging apparatus.
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Conturo Thomas E. (Nashville TN) Kessler Robert M. (Nashville TN), Driven inversion spin echo magnetic resonance imaging.
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King, Timothy; Hurley, Darrin, Dual float valve for fuel tank vent with liquid carryover filter.
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Tsitlik Joshua E. (Reisterstown MD) Levin Howard (Cockeysville MD) Halperin Henry (Baltimore MD) Weisfeldt Myron (Baltimore MD), ECG amplifier and cardiac pacemaker for use during magnetic resonance imaging.
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Robert A. Stevenson, ELECTROMAGNETIC INTERFERENCE (EMI) FILTER AND PROCESS FOR PROVIDING ELECTROMAGNETIC COMPATIBILITY OF AN ELECTRONIC DEVICE WHILE IN THE PRESENCE OF AN ELECTROMAGNETIC EMITTER OPERATING AT THE SAME FRE.
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Stevenson, Robert A.; Woods, Jason; Frysz, Christine A.; Brendel, Richard L.; Zeng, Haitong, EMI feedthrough filter terminal assembly for human implant applications utilizing oxide resistant biostable conductive pads for reliable electrical attachments.
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Brendel, Richard L.; Stevenson, Robert A.; Frysz, Christine A.; Zeng, Haitong, EMI feedthrough filter terminal assembly having surface mounted, internally grounded hybrid capacitor.
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Stevenson,Robert A.; Brendel,Richard L.; Roberts,John; Frysz,Christine, EMI filter capacitors designed for direct body fluid exposure.
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Stevenson,Robert A.; Brendel,Richard L.; Roberts,John; Frysz,Christine, EMI filter capacitors designed for direct body fluid exposure.
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Stevenson Robert A. ; Haskell Donald K. ; Brendel Richard L., EMI filter feedthough terminal assembly having a capture flange to facilitate automated assembly.
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Stevenson Robert A. ; Ni Dick H., EMI filter for human implantable heart defibrillators and pacemakers.
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Stevenson,Robert A.; Brendel,Richard L.; Frysz,Christine; Hussein,Haytham; Knappen,Scott; Stevenson,Ryan A., EMI filter terminal assembly with wire bond pads for human implant applications.
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Stevenson,Robert A.; Brendel,Richard L.; Frysz,Christine; Hussein,Haytham; Knappen,Scott; Stevenson,Ryan A., EMI filter terminal assembly with wire bond pads for human implant applications.
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Stevenson, Robert A.; Brendel, Richard L., EMI filtered connectors using internally grounded feedthrough capacitors.
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Truex, Buehl E.; Stevenson, Robert A.; Brendel, Richard L., EMI shielded conduit assembly for an active implantable medical device.
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DiMarco Mario (Scottsdale AZ) Wilhelm Timothy J. (Peoria AZ), Electrical connector incorporating EMI filter.
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Hunt Morris C. (41926 Camino Santa Barbara Fremont CA 94538), Electrical filter.
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Scherba Michael B. (Troy MI), Electrical frequency responsive structure.
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Christopherson,Mark A.; Jelen,Jeff; Guck,Beth Anne H., Electrical lead body including an in-line hermetic electronic package and implantable medical device using the same.
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Atalar, Ergin; Ferhanoglu, Onur, Electrical lead for an electronic device such as an implantable device.
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Morris ; Sr. G. Ronald ; Morris ; Jr. G. Ronald ; Valentine James W., Electrocardiograph sensor and sensor control system for use with magnetic resonance imaging machines.
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Wessendorf, Kurt O.; Okandan, Murat; Stein, David J.; Yang, Pin; Cesarano, III, Joseph; Dellinger, Jennifer, Electrode array for neural stimulation.
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Fr?berg, Paul; Dahlberg, Kenneth, Electrode for a medical implant.
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Mann Samuel J. (Englewood NJ) Hrehovcik Michael (Little Falls NJ), Electrolysis apparatus with retractable probe.
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MacDonald, Stuart G., Electromagnetic interference immune pacing/defibrillation lead.
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MacDonald, Stuart G.; Connelly, Patrick R., Electromagnetic interference immune tissue invasive system.
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Paul Patrick J. (Lake Jackson TX) Prutchi David (Lake Jackson TX), Electromagnetic noise detector for implantable medical devices.
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Lipson David ; Jensen Marc, Electrophysiological mapping and ablation catheter and method.
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David K. Swanson ; James G. Whayne, Electrophysiological treatment methods and apparatus employing high voltage pulse to render tissue temporarily unresponsive.
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Budd Jeffrey Robert (St. Paul MN) Beatty Graydon Ernest (St. Paul MN) Hauck John Anderson (Shoreview MN), Electrophysiology mapping system.
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Branchevsky, Shaul, Embedded multi-layer capacitor in a low-temperature co-fired ceramic (LTCC) substrate.
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Branchevsky Shaul, Embedded multi-layer ceramic capacitor in a low-temperature con-fired ceramic (LTCC) substrate.
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Schroeppel Edward A., Endocardial lead with lateral active fixation.
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Rhinehart Edward J. (Monroeville PA) Spohn Michael A. (Butler PA), Endorectal probe with planar moveable MRI coil.
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Kubokawa Hiroaki (Hachioji JPX) Tsukaya Takashi (Hachioji JPX) Ueda Yasuhiro (Kokubunji JPX) Nakamura Takeaki (Hino JPX) Ohshima Yutaka (Hachioji JPX) Hibino Hiroki (Hachioji JPX) Takayama Shyuichi (, Endoscope apparatus.
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Guglielmi Guido ; Ji Cheng, Endovascular device for hyperthermia and angioplasty and method for using the same.
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Anthony, Anthony A.; Anthony, William M., Energy conditioning circuit arrangement for integrated circuit.
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Atalar Ergin ; Ocali Ogan, Enhanced safety coaxial cables.
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Kressel Herbert Y. (Wynnesal PA) Rhinehart Edward J. (Monroeville PA) Schnall Mitchell (Lansdowne PA) Lenkinski Robert E. (Drexel Hill PA) Imai Yutaka (Tokyo JPX), Externally moveable intracavity probe for MRI imaging and spectroscopy.
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Togashi,Masaaki, Feedthrough capacitor array.
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Brendel,Richard L., Feedthrough capacitor filter assemblies with laminar flow delaminations for helium leak detection.
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Stevenson, Robert A.; Dobbs, Matthew A., Feedthrough capacitor filter assemblies with leak detection vents.
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Stevenson Robert A. (Canyon Country CA) Pruett Donald N. (Carson City NV), Feedthrough filter capacitor assembly for human implant.
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Stevenson,Robert A., Feedthrough filter capacitor assembly with internally grounded hermetic insulator.
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Stevenson,Robert A.; Brendel,Richard L.; Frysz,Christine; Hussein,Haytham; Knappen,Scott, Feedthrough terminal assembly with lead wire bonding pad for human implant applications.
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Thompson David L. ; Sawchuk Robert T. ; Seifried Lynn M., Filtered feedthrough assembly for implantable medical device.
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Thompson David L. ; Sawchuk Robert T. ; Seifried Lynn M., Filtered feedthrough assembly for implantable medical device.
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Hittman Fred (Baltimore MD) Gelb Allan S. (Baltimore MD) Gelb Marcia J. (Baltimore MD) Foreman Thomas N. (Ellicott City MD), Filtered feedthrough assembly having a mounted chip capacitor for medical implantable devices and method of manufacture.
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Kumar,Dev E.; Giaretta,Giorgio; Schiaffino,Stefano; Ice,Donald A., Flexible circuit for establishing electrical connectivity with optical subassembly.
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Nardella Paul C. (North Easton MA), Fluid cooled ablation catheter.
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Stevenson, Robert A.; Dabney, Warren S.; Frysz, Christine A.; Truex, Buehl E.; Halperin, Henry R.; Lardo, Albert C., Frequency selective passive component networks for active implantable medical devices utilizing an energy dissipating surface.
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Stevenson, Robert A.; Dabney, Warren S.; Frysz, Christine A.; Truex, Buehl E.; Halperin, Henry R.; Lardo, Albert C., Frequency selective passive component networks for implantable leads of active implantable medical devices utilizing an energy dissipating surface.
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Wendels, Antonius G.; Frencher, John W., Fuel saving and pollution emission reduction system for internal combustion engines.
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Fisk, Andrew E.; Fu, Richard X.; Frysz, Christine A., Functionally graded coatings for lead wires in medical implantable hermetic feedthrough assemblies.
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Kellman, Peter; McVeigh, Elliot, Ghost artifact cancellation using phased array processing.
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McKinnon Graeme C.,CHX, Guidewire antenna.
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Pomeranz Mark L., Guidewire with imaging capability.
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Pomeranz Mark L. (Los Gatos CA), Guidewire with imaging capability.
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Pomeranz Mark L. (Los Gatos CA), Guidewire with imaging capability.
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Pomeranz Mark L. (Los Gatos CA), Guidewire with imaging capability.
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Smith Steve (5100 Channel Ave. Richmond CA 94804), Harmonic noise isolation and power factor correction network.
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Hara Shinji (Tokyo JPX), Heated balloon catheter.
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Hastings Roger N., Heated perfusion balloon for reduction of restenosis.
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Lucisano, Joseph Y.; Calou, Richard E.; Catlin, Mark B.; Lin, Joe T.; Routh, Timothy L., Hermetic feedthrough assembly for ceramic body.
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Jiang, Guangqiang; Antalfy, Attila; Schnittgrund, Gary D., Hermetic vias utilizing metal-metal oxides.
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Stevenson Robert A. ; Haskell Donald K. ; Brendel Richard L., Hermetically sealed EMI feedthrough filter capacitor for human implant and other applications.
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Duva, Frank A., High current filter feed-through capacitor.
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Gurkovich Stephen R. (Penn Hills PA) Radford Kenneth C. (North Huntingdon PA) Partlow Deborah P. (Export PA), High power capacitor.
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Blalock Donald R. (Colfax NC) Ferry Julian J. (Kernersville NC) Lincoln Clifford F. (Atlanta GA), High voltage, low pass filtering connector with multiple ground planes.
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Stevenson Robert A. (Canyon Country CA) Dey Albert W. (Burbank CA), Highly-reliable feed through/filter capacitor and method for making same.
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Hancock Mark Andrew,GB2 ; Cochrane Richard Robson,GB2 ; Badger John Raymond,GB2 ; Woodhouse Colin George,GB2, Ice protection device.
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Ludeke Kai-Michael,DEX, Image synthesizing method for forming a composite image from basic images.
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Kenneth Blaine Stokes, Implantable active fixation lead with guidewire tip.
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Swoyer, John M.; Starkebaum, Warren; Gerber, Martin T.; Herbert, Tim, Implantable bifurcated gastrointestinal lead with active fixation.
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Hassler Beth Anne ; Donders Adriannus P. ; Wiklund Craig L. ; Lyons Daniel A., Implantable ceramic enclosure for pacing, neurological, and other medical applications in the human body.
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Burdon,Jeremy W.; Knowles,Shawn D.; Yamamoto,Joyce K., Implantable co-fired electrical interconnect systems and devices and methods of fabrication therefor.
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Vogel Alan ; McNeil ; II Ken, Implantable electrical device incorporating a magnetoresistive magnetic field sensor.
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Bisping Hans-Jrgen (Tittardshang 12 5100 Aachen DEX), Implantable electrode with active fixation means.
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Swoyer, John M; Starkebaum, Warren; Gerber, Martin T.; Herbert, Tim, Implantable gastrointestinal lead with active fixation.
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Obel, Martin; Larsson, Berit, Implantable heart stimulator with microinstability testing for electrode contact with tissue.
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Truex Buehl E. (Glendora CA) Gibson Scott R. (Granada Hills CA) Weinberg Alvin H. (Moorpark CA), Implantable medical device having shielded and filtered feedthrough assembly and methods for making such assembly.
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Truex Buehl E. (Glendora CA) Gibson Scott R. (Granada Hills CA) Weinberg Alvin H. (Moorpark CA), Implantable medical device having shielded and filtered feedthrough assembly and methods for making such assembly.
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Thompson, David L.; Haubrich, Gregory J.; Goedeke, Steven D., Implantable medical device incorporating integrated circuit notch filters.
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Thompson, David L.; Haubrich, Gregory J., Implantable medical device incorporating miniaturized circuit module.
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Edvardsson,Kurt Olov, Implantable medical device with slotted housing serving as an antenna.
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Patrick Timothy (St. Paul MN) Sandstrom Richard D. (Scandia MN) Ufford Keith A. (Chisago City MN), Implantable medical lead with electrical cross-over adaptor.
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Weijand Koen J.,NLX ; Wahlstrand John D., Implantable medical system for performing transthoracic impedance measurements associated with cardiac function.
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Kroll,Mark W.; Salys,Scott; Cox,Timothy J.; Schimke,Kerwyn, Implantable stimulation device with isolating system for minimizing magnetic induction.
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Magnusson, Gunnar, Implantable tissue stimulating device.
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Thompson, David L.; Haubrich, Gregory J.; Goedeke, Steven D., Implanted medical device telemetry using integrated microelectromechanical filtering.
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Thompson, David L., Implanted medical device telemetry using integrated thin film bulk acoustic resonator filtering.
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Dumoulin Charles L. (Ballston Lake NY) Darrow Robert D. (Scotia NY), Inductively coupled RF tracking system for use in invasive imaging of a living body.
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Stevenson,Robert A.; Frysz,Christine A.; Hussein,Haytham; Brendel,Richard L., Inductor capacitor EMI filter for human implant applications.
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Marandos Thomas A. (Commack NY), Inflatable magnetic resonance imaging sensing coil assembly positioning and retaining device and method for using the sa.
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Barnett,Ronald J., Integral charge storage basement and wideband embedded decoupling structure for integrated circuit.
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Van Schuylenbergh, Koenraad; Chow, Eugene M.; Lu, JengPing, Integrateable capacitors and microcoils and methods of making thereof.
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Robert A. Stevenson, Integrated EMI filter-DC blocking capacitor.
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Youker, Nick A.; Swanson, Lawrence D.; Hansen, John E.; Linder, William J., Integrated electromagnetic interference filters and feedthroughs.
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Randall J. Piersma, Integrated filter feed-thru.
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Brendel Richard L. ; Stevenson Robert A., Internally grounded feedthrough filter capacitor.
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Brendel, Richard L.; Stevenson, Robert A., Internally grounded feedthrough filter capacitor with improved ground plane design for human implant and other applications.
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Imani,Reza; Hawkins,Rodney J., Internally grounded filtering feedthrough.
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Anthony, David; Anthony, Anthony; Anthony, William M.; Muccioli, James; Neifeld, Richard A., Internally shielded energy conditioner.
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Gilliland Don Alan ; Peacock James Larry, Interposer array module for capacitive decoupling and filtering.
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Fritschy Peter (Bern CHX) Weber Horst (Adelsdorf DEX) Lorenz Walter (Heidelberg DEX) Pastyr Otto (Leimen DEX) Sturm Volker (Wiesloch DEX) Zabel Hans-Joachim (Heidelberg DEX) Bader Reiner (Heidelberg , Intervivo coil for a nuclear magnetic resonance tomographic apparatus.
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Gilboa, Pinhas; Blecher, Danny, Intrabody navigation system for medical applications.
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Schnall Mitchell D. (Lansdowne PA) Lenkinski Robert E. (Drexel Hill PA) Kressel Herbert Y. (Wynnewood PA) Pollack Howard M. (Cheltenham PA), Intracavity probe and interface device for MRI imaging and spectroscopy.
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Schnall Mitchell D. (Lansdowne PA) Lenkinski Robert E. (Drexel Hill PA) Kressel Herbert Y. (Wynnewood PA) Pollack Howard M. (Cheltenham PA) Claiborne Theodore C. (Gibsonia. all of PA) Misic George J., Intracavity probe and interface device for MRI imaging and spectroscopy.
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Nabahi Shohre,GB2, Intravaginal drug delivery device.
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Buijs Arnold (Eindhoven NLX) Abrahams Wim (Hilvarenbeek NLX), Invasive MRI transducers.
상세보기
Snelten Jeroen,NLX ; Tuithof Hans H.,NLX, Invasive device for use in a magnetic resonance imaging apparatus.
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Dumoulin Charles L. (Ballston Lake NY) Darrow Robert D. (Scotia NY), Invasive system employing a radiofrequency tracking system.
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Cabelka, Lonny V.; Manahan, David E.; Pape, Forrest C. M.; Wahlstrand, John D., Isolation circuitry and method for gradient field safety in an implantable medical device.
상세보기
Safarevich, Sergey; Gomperz, Benedict L., Laser welded joint for implantable lead.
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Wahlstrand,Carl D.; Hoegh,Thomas Barry; Hrdlicka,Gregory A.; Cross, Jr.,Thomas E.; Olsen,James M., Lead electrode for use in an MRI-safe implantable medical device.
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Robert A. Stevenson, Low inductance four terminal capacitor lead frame.
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Ludeke Kai-Michael,DEX ; Rasche Volker,DEX, MR device provided with a medical instrument, and method of determining the position of the medical instrument.
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Melzer, Andreas; Busch, Martin, MR imaging method and medical device for use in method.
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Truwit Charles L. ; Liu Haiying, MR-compatible medical devices.
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Gillies George T. ; Kucharczyk John ; Broaddus William C. ; Latchaw Richard, MR-visible medical device for neurological interventions using nonlinear magnetic stereotaxis and a method imaging.
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Young Ian Robert,GBX ; Burl Michael ; Tanttu Jukka I,FIX, MRI RF catheter coil.
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Blakeley Douglas M. (Euclid OH) Gauss Robert C. (Aurora OH) Flugan David C. (Richmond Hts. OH), MRI compatible pulse oximetry system.
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Foster, Thomas H.; Connelly, Patrick R., MRI-compatible implantable device.
상세보기
Acker David E. ; Wagshul Mark, MRI-guided therapeutic unit and methods.
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Connelly, Patrick R.; Weiner, Michael; Greatbatch, Wilson, MRI-resistant implantable device.
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Wahlstrand, Carl D.; Skime, Robert M.; Hrdlicka, Gregory A.; Olsen, James M.; Bolea, Stephen L., MRI-safe implantable medical device.
상세보기
Glowinski Arndt,DEX ; Van Vaals Johannes J.,NLX, MRI-system and catheter for interventional procedures.
상세보기
Casey James A. (Smithtown NY) McGill Robert E. (Dix Hills NY), MRI/hyperthermia dual function antenna system.
상세보기
Acker David Ellis, Magnetic determination of position and orientation.
상세보기
Scampini Steven A. (Bedford MA), Magnetic field sense system for the protection of connected electronic devices.
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Dumoulin Charles L. (Ballston Lake NY) Bottomley Paul A. (Clifton Park NY) Souza Steven P. (Williamstown MA), Magnetic resonance (MR) active invasive devices for the generation of selective MR angiograms.
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Dumoulin Charles L. (Ballston Lake NY) Souza Steven P. (Williamstown MA), Magnetic resonance (MR) angiography using a faraday catheter.
상세보기
Rubinsky Boris (Albany CA) Gilbert John (Berkeley CA) Wong Sam (Emeryville CA) Roos Mark (San Francisco CA) Pease Grant (Oakland CA), Magnetic resonance imaging assisted cryosurgery.
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Rubinsky Boris ; Gilbert John ; Wong San ; Roos Mark ; Pease Grant, Magnetic resonance imaging assisted cryosurgery.
상세보기
Lardo, Albert C.; Yang, Xiaoming; Atalar, Ergin; Karmarkar, Parag; McVeigh, Elliott R.; Halperin, Henry R.; McNamara, Christine Enger; Bottomley, Paul A., Magnetic resonance imaging guidewire probe.
상세보기
Gray, Robert W., Magnetic resonance imaging interference immune device.
상세보기
Gray, Robert W.; Simpson, III, Paul G.; Weiner, Michael L., Magnetic resonance imaging interference immune device.
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Gray,Robert W., Magnetic resonance imaging interference immune device.
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Gray,Robert W.; Helfer,Jeffrey L., Magnetic resonance imaging interference immune device.
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Reeder Scott B. ; Atalar Ergin ; Faranesh Anthony Z. ; McVeigh Elliot R., Magnetic resonance imaging method and apparatus and method of calibrating the same.
상세보기
Kuhara Shigehide (Yokohama JPX) Satoh Kozo (Yokohama JPX), Magnetic resonance imaging system.
상세보기
Satoh Kozo (Yokohama JPX), Magnetic resonance imaging system.
상세보기
Lardo, Albert C.; McVeigh, Elliott R.; Halperin, Henry R., Magnetic resonance imaging transseptal needle antenna.
상세보기
Conturo Thomas E. (1000 Fell St. ; #224 Henderson\s Wharf Baltimore MD 21231), Magnetic resonance imaging with contrast enhanced phase angle reconstruction.
상세보기
Karmarkar, Parag; Viohl, Ingmar, Magnetic resonance probes.
상세보기
Halperin, Henry R.; Berger, Ronald D.; Atalar, Ergin; McVeigh, Elliot R.; Lardo, Albert; Calkins, Hugh; Lima, Joao, Magnetic-resonance-guided imaging, electrophysiology, and ablation.
상세보기
Wang,Xingwu; Greenwald,Howard J., Magnetically shielded assembly.
상세보기
Wang,Xingwu; Greenwald,Howard J.; Miller,Ronald E.; Helfer,Jeffrey L.; Gray,Robert, Magnetically shielded assembly.
상세보기
Wang,Xingwu; Greenwald,Howard J.; Miller,Ronald E.; Helfer,Jeffrey L.; Gray,Robert, Magnetically shielded assembly.
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Helfer, Jeffrey L.; Wang, Xingwu, Magnetically shielded conductor.
상세보기
Dal Molin, Renzo, Measurement of intracardiac impedance in a multisite-type, active implantable medical device, in particular a pacemaker, defibrillator and/or cardiovertor.
상세보기
Zeijlemaker,Volkert A.; Kalin,Ron; Hrdlicka,Gregory A.; Cho,Yong Kyun; Reinke,James D.; Foerster,Laurie D., Medical implantable system for reducing magnetic resonance effects.
상세보기
Westlund, Randy; Stevenson, Robert A.; Frysz, Christine A.; Dabney, Warren S., Medical lead system utilizing electromagnetic bandstop filters.
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Acker David E. ; Govari Assaf,ILX ; Fenster Maier,ILX ; Shapiro Avishai, Medical procedures and apparatus using intrabody probes.
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Spears J. Richard (Winchester MA) Bourgelais Donna (Malden MA), Method and apparatus for angioplasty.
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Eckhard Alt DE; Lawrence J. Stotts ; Richard Sanders, Method and apparatus for dual chamber bi-ventricular pacing and defibrillation.
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Kandarpa Krishna (Wayland MA) Jakab Peter (Sharon MA), Method and apparatus for magnetic resonance imaging and heating tissues.
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Greenberg, Robert J.; Ok, Jerry, Method and apparatus for providing hermetic electrical feedthrough.
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Ok, Jerry; Greenberg, Robert J., Method and apparatus for providing hermetic electrical feedthrough.
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Ok,Jerry; Greenberg,Robert J., Method and apparatus for providing hermetic electrical feedthrough.
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Murphy-Chutorian Douglas R. (Stanford CA) Mok Walter Y. W. (Palo Alto CA) Leung Kang M. (Palo Alto CA), Method and apparatus for reducing blockage in body channels.
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Reinke,James D.; Wilkinson,Jeffrey D.; Kalin,Ron; Foerster,Laurie D.; Zeijlemaker,Volkert A., Method and apparatus for shunting induced currents in an electrical lead.
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Zeijlemaker, Volkert A.; Kalin, Ron; Hrdlicka, Gregory A.; Cho, Yong Kyun; Reinke, James D.; Foerster, Laurie D., Method and apparatus for shunting induced currents in an electrical lead.
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Kucharczyk John ; Moseley Michael E., Method and apparatus for use with MR imaging.
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Bj?rling, Anders; Hedberg, Sven-Erik; Lindegren, Ulf; Lindgren, Anders, Method and circuit for detecting cardiac rhythm abnormalities by analyzing time differences between unipolar signals from a lead with a multi-electrode tip.
상세보기
Hedberg, Sven-Erik, Method and circuit for detecting cardiac rhythm abnormalities using a differential signal from a lead with a multi-electrode tip.
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Kandarpa Krishna (Wayland MA), Method and device for recanalization of a body passageway.
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Lindegren, Ulf, Method for coating a tip region of a multipolar electrode lead.
상세보기
Min Park KR; Cheon Soo Kim KR; Hyun Kyu Yu KR, Method for fabricating a inductor of low parasitic resistance and capacitance.
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Fitzpatrick J. M. (Nashville TN) Chang Hsuan (Nashville TN), Method for magnetic resonance imaging and related apparatus.
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Peers-Trevarton Charles A. (Coral Springs FL), Method for making multiconductor coil and the coil made thereby.
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McVeigh Elliot R. ; Bolster ; Jr. Bradley D., Method for measuring myocardial motion and the like.
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McCormick William (Carlisle MA), Method of and apparatus for determining very accurately the position of a device inside biological tissue.
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Jiang, Guangqiang; Antalfy, Attila; Schnittgrund, Gary D., Method of forming hermetic vias utilizing metal-metal oxides.
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Moore John C. (Tulsa OK), Method of improving the quality of an electrocardiogram obtained from a patient undergoing magnetic resonance imaging.
상세보기
Atalar Ergin (Columbia MD) Bottomley Paul A. (Columbia MD) Zerhouni Elias A. (Baltimore MD), Method of internal magnetic resonance imaging and spectroscopic analysis and associated apparatus.
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Atalar Ergin ; Ocali Ogan, Method of magnetic resonance analysis employing cylindrical coordinates and an associated apparatus.
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Ocali Ogan ; Atalar Ergin, Method of magnetic resonance imaging and spectroscopic analysis and associated apparatus employing a loopless antenna.
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Shaul Branchevsky, Method of making an embedded green multi-layer ceramic chip capacitor in a low-temperature co-fired ceramic (LTCC) substrate.
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Haq Samuel F. ; Malone Patrick F. ; Fortney John H. ; Varner Donald P., Method of making ceramic substrate.
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Atalar Ergin (Baltimore MD) McVeigh Elliot R. (Timonium MD), Method of minimizing dead-periods in magnetic resonance imaging pulse sequences and associated apparatus.
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Langberg Edwin (Mount Laurel NJ), Method of radiofrequency ablation.
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Atalar, Ergin; Bottomley, Paul A.; Zerhouin, Elias; Halperin, Henry; McVeigh, Elliot; Lardo, Albert C., Methods for in vivo magnetic resonance imaging.
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Marchant,Roger E.; Zhang,Tianhong; Qiu,Yongxing; Ruegsegger,Mark A., Methods of making and using surfactant polymers.
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Silber, Harry A.; Lima, Jaoa A. C.; Bluemke, David A., Methods to assess vascular endothelial function.
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Mann Brian M. (Los Angeles CA) Poore John W. (South Pasadena CA), Microprocessor controlled rate-responsive pacemaker having automatic rate response threshold adjustment.
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Hrter Willibald (Heidelberg DEX) Reinbold Fritz (Sandhausen DEX), Microwave hyperthermia applicator.
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Parsche,Francis Eugene; Ruiz,Enrique, Microwave tunable inductor and associated methods.
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Atalar Ergin ; Lestio Jeffrey C. ; Charles ; Jr. Harry K. ; Carkhuff Bliss G. ; Bottomley Paul A., Miniature magnetic resonance catheter coils and related methods.
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Sadayuki Matsumura JP; Noboru Kato JP; Hiroko Nomura JP, Monolithic LC resonator and filter with a capacitor electrode within a tubular inductor.
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Stevenson, Robert A.; Haskell, Donald K.; Roberts, John E., Monolithic ceramic capacitor with barium titinate dielectric curie point optimized for active implantable medical devices operating at 37° C..
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Wilhelm Timothy J. (Peoria AZ), Multi-coplanar capacitor for electrical connector.
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Anthony A. Anthony, Multi-functional energy conditioner.
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Anthony, Anthony; Anthony, William M., Multi-functional energy conditioner.
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Anthony,Anthony A.; Anthony,William M., Multi-functional energy conditioner.
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Burdon,Jeremy W.; Yamamoto,Joyce K., Multi-path, mono-polar co-fired hermetic electrical feedthroughs and methods of fabrication therfor.
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Togashi,Masaaki, Multilayer capacitor.
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Togashi, Masaaki, Multilayer feedthrough capacitor.
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Yamate Kazunori,JPX ; Watanabe Chikara,JPX, Multilayer feedthrough capacitor.
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Warnier Jacques (Eysden NLX) Van Der Beek Gerrit (Heerlen NLX) Weerts Hubertus (Landgraaf NLX), Multilayer film, multicolour screen-printing process for the manufacture of said multilayer film and the use of same.
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Gels Robert G. (Boston MA) Robbins William L. (Newton Center MA), Multilayer miniaturized microstrip antenna.
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Reed Erik K., Multiple element capacitor.
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Kroll Mark W. (Minnetonka MN) Adams Theodore P. (Edina MN) Supino Charles G. (Arden Hills MN), Optimal energy steering for an implantable defibrillator.
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Brand, Paul; Hill, Rolf, Pacemaker housing with lead connection assembly.
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Fujiyama Terumi (Katano JPX), Panel switch.
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Morgan,Kevin L.; Yang,Michael; Williams,Sheldon; McGarvey,Andrew W., Passive fixation mechanism for epicardial sensing and stimulation lead placed through pericardial access.
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Huppenthal Jon M. (Colorado Springs CO) Saunders Candy L. (Colorado Springs CO) Jaramillo Joseph E. (Pueblo CO), Penetrator and flexible circuit assembly for sealed environment.
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Rosen Arye (Cherry Hill NJ) Walinsky Paul (Philadelphia PA), Percutaneous transluminal microwave catheter angioplasty.
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Minkoff Lawrence A. (Lattingtown NY), Permanent magnetic structure.
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Cain Charles A. (Ann Arbor MI) Ebbini Emad S. (Ann Arbor MI) Strickberger S. Adam (Ann Arbor MI), Phased array ultrasound system and method for cardiac ablation.
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Thornander Hans T. (Paris CA FRX) Poore John W. (Chatsworth CA) Sholder Jason A. (Canoga Park CA) Thacker James R. (Saugus CA) Amundson David C. (Pacific Palisades CA), Physiologically responsive pacemaker and method of adjusting the pacing interval thereof.
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Anthony, Anthony A., Polymer fuse and filter apparatus.
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Swarup Arvind,CAX, Printed lumped element stripline circuit ground-signal-ground structure.
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Rhinehart Edward J. (Monroeville PA) Kresel Herbert Y. (Wynnesal PA) Schnall Mitchell (Lansdowne PA) Lenkinski Robert E. (Drexel Hill PA) Milestone Barton (Pittsburgh PA), Probe for MRI imaging and spectroscopy particularly in the cervical region.
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Stevenson Robert A. ; Rijsdijk Theo C. M.,NLX, Process for depositing a metal coating on a metallic component of an electrical structure.
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Stevenson, Robert A.; Haskell, Donald K.; Brendel, Richard L., Process for manufacturing an EMI filter feedthrough terminal assembly.
상세보기
Money David (Pennant Hills AUX), Protection device for pacemaker implantees.
상세보기
Wang, Xingwu; Greenwald, Howard J.; Helfer, Jeffrey L.; Gray, Robert W., Protective assembly.
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Gilderdale David John,GBX, RF coil structure for intra-cavity use in magnetic resonance imaging.
상세보기
Stevenson, Robert A.; Frysz, Christine A.; Woods, Jason; Brendel, Richard L.; Johnson, Robert S.; Frustaci, Dominick J.; Dabney, Warren S.; Seitz, Keith W.; Marzano, Thomas; Roberts, John E.; Thiebolt, William C.; Williams, Christopher M.; Truex, Buehl E., RF filter for an active medical device (AMD) for handling high RF power induced in an associated implanted lead from an external RF field.
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James Keith Custer ; Pauline Mei-Seung Tong, RF power amplifier assembly employing multi-layer RF blocking filter.
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Kronich,Christine G.; Schaefer,Todd H.; Haubrich,Gregory J., Radio frequency antenna flexible circuit interconnect with unique micro connectors.
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Higgins ; Jr. Robert J. (Sunrise FL), Radio frequency filter feedthrough structure for multilayer circuit boards.
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Langberg Edwin (Mount Laurel NJ), Radiofrequency ablation catheter.
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Burdette Everette C. ; Komandina Bruce M., Real time brachytherapy spatial registration and visualization system.
상세보기
Li Hong, Reduced diameter active fixation pacing lead using concentric interleaved coils.
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Throne Robert D. (Lincoln NE), Scatter diagram analysis system and method for discriminating ventricular tachyarrhythmias.
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Ushijima,Koichi; Hassan,Hussein Khalid; Miyamoto,Noboru, Semiconductor device and method of manufacture thereof.
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Stevenson, Robert A.; Truex, Buehl E.; Brendel, Richard L.; Frysz, Christine A.; Dabney, Warren S.; Hussein, Haythem; Lorente-Adame, Jose Luis; Johnson, Robert Shawn; Brainard, Scott; Williams, Christopher Michael, Shielded three-terminal flat-through EMI/energy dissipating filter.
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Sontag Hugh D. (Maplewood MN), Signal transmission system.
상세보기
Bonner Matthew D., Single pass A-V lead with active fixation device.
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Flynn David M. ; Werlein Carol, Single pass lead and system with active and passive fixation elements.
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Brownlee Robert R., Single preformed catheter configuration for a dual-chamber pacemaker system.
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Ye,Chunfei; Ye,Xiaoning, Skew compensation by changing ground parasitic for traces.
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Falwell Gary S. (Manchester NH) Collins Russell F. (Sandown NH) Gibson ; III Charles A. (Malden MA), Snap fit distal assembly for an ablation catheter.
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Berke Howard R. (22055 McClellen Rd. Cupertino CA 95014), Solid state NMR probe.
상세보기
Haissaguerre Michel,FRX ; Falwell Gary S., Steerable catheter with fixed curve.
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Melzer Andreas,DEX ; Busch Martin,DEX, Stent and MR imaging process for the imaging and the determination of the position of a stent.
상세보기
Min-Hwa Chi TW; Chia-Shiung Tsai TW; Yeur-Luen Tu TW, Structure of merged vertical capacitor inside spiral conductor for RF and mixed-signal applications.
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Hittman Fred ; Gelb Allan S. ; Gelb Marcia J. ; Foreman Thomas N. ; Kutniewski Paul E., Substrate mounted filter for feedthrough devices.
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Marchant, Roger E.; Zhang, Tianhong; Qiu, Yongxing; Ruegsegger, Mark A., Surfactants that mimic the glycocalyx.
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Goble Colin,GBX ITX CF641AT ; Warner Robert, System and method for applying thermal energy to tissue.
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Halperin,Henry R.; Berger,Ronald D.; Atalar,Ergin; McVeigh,Elliot R.; Lardo,Albert; Calkins,Hugh; Lima,Joao, System and method for magnetic-resonance-guided electrophysiologic and ablation procedures.
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Bornzin Gene A. (Camarillo CA) Arambula Elia R. (Artesia CA) Florio Joseph J. (Sunland CA), System and method for modulating the base rate during sleep for a rate-responsive cardiac pacemaker.
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Kroll,Mark W.; Bornzin,Gene A.; Shkurovich,Sergio; Dalal,Nirav, System and method for responding to pulsed gradient magnetic fields using an implantable medical device.
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Haller,Markus; Ferek Petric,Bozidar; Donders,Adrianus P., System and method of automated invoicing for communications between an implantable medical device and a remote computer system or health care provider.
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Ben-Haim, Shlomo; Osadchy, Daniel; Peless, Udi; Greenberg, Ilan, System for determining the location and orientation of an invasive medical instrument.
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Eggers Philip E. ; Thapliyal Hira V., Systems and methods for electrosurgical treatment of tissue in the brain and spinal cord.
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Atalar, Ergin; Quick, Harald Hartmann; Karmarkar, Parag, Systems and methods for evaluating the urethra and the periurethral tissues.
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Min, Xiaoyi, Systems and methods for exploiting the tip or ring conductor of an implantable medical device lead during an MRI to reduce lead heating and the risks of MRI-induced stimulation.
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Susil, Robert C.; Susil, Gwyneth; Atalar, Ergin; Lardo, Albert C.; Halperin, Henry R.; Berger, Ronald D.; Calkins, Hugh; Bottomley, Paul, Systems and methods for magnetic-resonance-guided interventional procedures.
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Stevenson, Robert A.; Frysz, Christine A.; Dabney, Warren S.; Brendel, Richard L., Tank filters adaptable for placement with a guide wire, in series with the lead wires or circuits of active medical devices to enhance MRI compatibility.
상세보기
Stevenson, Robert A.; Dabney, Warren; Frysz, Christine A.; Brendel, Richard L., Tank filters utilizing very low K materials, in series with lead wires or circuits of active medical devices to enhance MRI compatibility.
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Kleinberg Leonard L. (Annapolis MD), Temperature responsive transmitter.
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Holland G. Neil (Chagrin Falls OH) Blakeley Douglas M. (Euclid OH) Reisker Theodore J. (Lyndhurst OH) Molyneaux David A. (Willowick OH), Temperature sensing and control system for cardiac monitoring electrodes.
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Skubitz Frank L. ; Herman Gerald M. ; Williams Terrell M., Temporary transvenous endocardial lead.
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Strul Bruno (Palo Alto CA), Thermal angioplasty system.
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Segawa Masao (Kanagawa JPX) Arakawa Masayuki (Kanagawa JPX), Thick-film high frequency signal circuit apparatus with feedthrough capacitor.
상세보기
Hodgson William S. (Cohasset MA), Torque transmitter.
상세보기
Dumoulin Charles L. (Ballston Lake NY) Souza Steven P. (Williamstown MA) Darrow Robert D. (Scotia NY), Tracking system and pulse sequences to monitor the position of a device using magnetic resonance.
상세보기
Dumoulin Charles L. (Ballston Lake NY) Darrow Robert D. (Scotia NY) Schenck John F. (Schenectady NY) Souza Steven P. (Williamstown MA), Tracking system to follow the position and orientation of a device with radiofrequency field gradients.
상세보기
Dumoulin Charles L. (Ballston Lake NY) Souza Steven P. (Williamstown MA) Darrow Robert D. (Scotia NY), Tracking system to monitor the position and orientation of a device using magnetic resonance detection of a sample conta.
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Dumoulin Charles L. (Ballston Lake NY) Souza Steven P. (Williamstown MA) Darrow Robert D. (Scotia NY), Tracking system to monitor the position and orientation of a device using multiplexed magnetic resonance detection.
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Joao A. C. Lima ; Kendrick A. Shunk ; Ergin Atalar, Transesophageal magnetic resonance analysis method and apparatus.
상세보기
Shturman Leonid (Minneapolis MN), Ultrasound imaging balloon catheter.
상세보기
Itoh Ayao (Yokohama JPX), Ultrasound therapy system.
상세보기
Bach ; Jr. Stanley M. (Shoreview MN) Shapland J. Edward (Shoreview MN) Lang Douglas J. (Arden Hills MN) Dahl Roger W. (Andover MN), Unitary intravascular defibrillating catheter with separate bipolar sensing.
상세보기
Cappa Armando M. (Reseda CA) Heer Warren R. (LaPalma CA), Universal cable connector for temporarily connecting implantable leads and implantable medical devices with a non-implan.
상세보기
Anthony,Anthony A.; Anthony,William M., Universal energy conditioning interposer with circuit architecture.
상세보기
Anthony,Anthony A.; Anthony,William M., Universial energy conditioning interposer with circuit architecture.
상세보기
Ginsburg Robert (2489 Alpine Rd. Menlo Park CA 94025) Profitt David F. (1154 Madison Santa Clara CA 95050), Vascular catheter.
상세보기
Gelfand Mark ; Gruben Kreg George ; Halperin Henry ; Koepsell Jeff ; Rothman Neil ; Tsitlik Joshua E., Vest design for a cardiopulmonary resuscitation system.
상세보기
Rudie Eric N., Voltage controlled variable tuning antenna.
상세보기
Cho Ching-Fai ; Maiershofer Helmut Carl ; Shin Do Bum ; Quil Avery Yee, Wide frequency band transition between via RF transmission lines and planar transmission lines.
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Lindgren, Anders; Heqg, Mona, “Medical electrode lead”.
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IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

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안내	총 건의 자료가 검색되었습니다. 다운받으실 자료의 인덱스를 입력하세요. (1-10,000) 검색결과의 순서대로 최대 10,000건 까지 다운로드가 가능합니다. 데이타가 많을 경우 속도가 느려질 수 있습니다.(최대 2~3분 소요) 다운로드 파일은 UTF-8 형태로 저장됩니다. 파일의 내용이 제대로 보이지 않을실 때는 웹브라우저 상단의 보기 -> 인코딩 -> 자동선택 여부를 확인하십시오. ~ Text(ASCII format) Excel format

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[미국특허] Low inductance and low resistance hermetically sealed filtered feedthrough for an AIMD 원문보기

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[미국특허] Low inductance and low resistance hermetically sealed filtered feedthrough for an AIMD 원문보기

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