$\require{mediawiki-texvc}$

연합인증

연합인증 가입 기관의 연구자들은 소속기관의 인증정보(ID와 암호)를 이용해 다른 대학, 연구기관, 서비스 공급자의 다양한 온라인 자원과 연구 데이터를 이용할 수 있습니다.

이는 여행자가 자국에서 발행 받은 여권으로 세계 각국을 자유롭게 여행할 수 있는 것과 같습니다.

연합인증으로 이용이 가능한 서비스는 NTIS, DataON, Edison, Kafe, Webinar 등이 있습니다.

한번의 인증절차만으로 연합인증 가입 서비스에 추가 로그인 없이 이용이 가능합니다.

다만, 연합인증을 위해서는 최초 1회만 인증 절차가 필요합니다. (회원이 아닐 경우 회원 가입이 필요합니다.)

연합인증 절차는 다음과 같습니다.

최초이용시에는
ScienceON에 로그인 → 연합인증 서비스 접속 → 로그인 (본인 확인 또는 회원가입) → 서비스 이용

그 이후에는
ScienceON 로그인 → 연합인증 서비스 접속 → 서비스 이용

연합인증을 활용하시면 KISTI가 제공하는 다양한 서비스를 편리하게 이용하실 수 있습니다.

Implantable medical device system with method for determining lead condition

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • A61N-001/37
출원번호 US-0671437 (1996-06-27)
발명자 / 주소
  • Mc Venes Rick D.
  • Bahr Brent A.
  • Hudrlik Terrence R.
출원인 / 주소
  • Medtronic, Inc.
대리인 / 주소
    Jaro
인용정보 피인용 횟수 : 115  인용 특허 : 0

초록

In an implantable medical device system such as a pacemaker system, there is provided a system and method for measuring lead impedance so as to obtain reliable data concerning any indication of the need to replace the lead. A relatively short duration low current AC burst is delivered after a standa

대표청구항

[ What is claimed is:] [1.] An implantable pacemaker system, comprising a pacemaker and a lead, the pacemaker having means for delivering pace pulses to a patient's heart through the lead and the pacemaker having means for sensing patient heart signals through the lead, the system having lead impeda

이 특허를 인용한 특허 (115)

  1. Swerdlow, Charles D.; Kroll, Mark W., Active surveillance of implanted medical leads for lead integrity.
  2. Armstrong, Randolph K.; Rodriguez, Albert A.; Maschino, Steven E., Alternative operation mode for an implantable medical device based upon lead condition.
  3. Goetz, Steven M.; Barnhorst, Jordan A.; Hartmann, James M., Amplitude ramping of waveforms generated by an implantable medical device.
  4. Karicherla, Annapurna; Min, Xiaoyi; Zhang, Xiaozheng; Gill, Jong, Analysis of polarization information.
  5. Kroll, Mark W.; Swerdlow, Charles D., Apparatus for detecting and localizing insulation failures of implantable device leads.
  6. Goetz, Steven M.; Barnhorst, Jordan A.; Hartmann, James M., Automated impedance measurement of an implantable medical device.
  7. Goetz, Steven M.; Barnhorst, Jordan A.; Hartmann, James M., Automated impedance measurement of an implantable medical device.
  8. Goetz, Steven M.; Torgerson, Nathan A.; Lee, Michael T., Automatic lead functionality testing.
  9. Hussain, Saadat, Battery life estimation based on voltage depletion rate.
  10. Rueter, John C.; Combs, William J., Cardiac pacing apparatus and method for continuous capture management.
  11. Scheiner, Avram, Connection verification apparatus, systems, and methods.
  12. Scheiner,Avram, Connection verification apparatus, systems, and methods.
  13. Okunev, Yuri, Data transmission via multi-path channels using orthogonal multi-frequency signals with differential phase shift keying modulation.
  14. Okunev, Yuri, Data transmission via multi-path channels using orthogonal multi-frequency signals with differential phase shift keying modulation.
  15. Bandy, William R.; Okunev, Yuri; Shanks, Wayne E., Data transmission via wide band acoustic channels.
  16. Bandy, William R.; Okunev, Yuri; Shanks, Wayne E., Data transmission via wide band acoustic channels.
  17. Colborn, John C., Delivering scheduled and unscheduled therapy without detriment to battery life or accuracy of longevity predictions.
  18. Colborn, John C., Delivering scheduled and unscheduled therapy without detriment to battery life or accuracy of longevity predictions.
  19. Swerdlow, Charles D., Detection of implantable lead failures by differential EGM analysis.
  20. Swerdlow, Charles D., Detection of implantable lead failures by differential EGM analysis.
  21. Silvestri,Luigi; Franceschini,Stefano, Determining the presence and type of probe associated with an active implantable medical device, in particular a cardiac pacemaker.
  22. Colborn, John C., Device longevity prediction for a device having variable energy consumption.
  23. Colborn, John C., Device longevity prediction for a device having variable energy consumption.
  24. Colborn, John C., Device longevity prediction for a device having variable energy consumption.
  25. Arneson, Michael; Bandy, William R.; Powell, Kevin J.; Salsman, Kenneth E.; Tirpack, Devon, Displaying image data from a scanner capsule.
  26. Arneson, Michael; Bandy, William R.; Powell, Kevin J.; Salsman, Kenneth E.; Tirpack, Devon, Displaying image data from a scanner capsule.
  27. Arneson, Michael; Bandy, William R.; Powell, Kevin J.; Salsman, Kenneth E.; Tirpack, Devon, Displaying image data from a scanner capsule.
  28. Goetz, Steven M.; Torgerson, Nathan A.; Lee, Michael T., Distributed lead functionality testing.
  29. Goetz, Steven M.; Torgerson, Nathan A.; Lee, Michael T., Distributed lead functionality testing.
  30. Rueter, John C., Dynamic adjustment of capture management “safety margin”.
  31. Armstrong, Randolph K., Dynamic lead condition detection for an implantable medical device.
  32. Inman, D. Michael, Electrode assembly with fibers for a medical device.
  33. Inman, D. Michael, Electrode assembly with fibers for a medical device.
  34. Gunderson, Bruce D., Electrode lead integrity reports.
  35. Patel, Amisha S.; Cao, Jian; Kleckner, Karen J., Electrogram classification algorithm.
  36. Ousdigian, Kevin T.; Condie, Catherine R.; Kleckner, Karen J.; Gunderson, Bruce D., Electrogram storage for suspected non-physiological episodes.
  37. Gunderson, Bruce D.; Kleckner, Karen J.; Ousdigian, Kevin T.; Patel, Amisha S.; Sanchez, Julian, Electrogram summary.
  38. Gunderson, Bruce D.; Kleckner, Karen J.; Ousdigian, Kevin T.; Patel, Amisha S.; Sanchez, Julian, Electrogram summary.
  39. Ellingson, Michael L., Enhanced sensing by an implantable medical device in the presence of an interfering signal from an external source.
  40. Patel, Amisha S.; Gunderson, Bruce D.; Brown, Mark L., Episode classifier algorithm.
  41. Patel, Amisha S.; Gunderson, Bruce D.; Brown, Mark L., Episode classifier algorithm.
  42. Drew, Touby A., Event-based lead impedance monitoring.
  43. Spear, Thomas H.; Germanson, Nancy M.; Miller, Patrick D., Fault tolerant methods and architectures for embedded intelligence in medical leads.
  44. Mercer, Elizabeth; Zhang, Johnny; Pellettiere, Joseph Michael; Lee, Jason Wenhaw, Feedback system and method for assessing fixation and stability of implantable leads.
  45. Inman, D. Michael; Begnaud, Jason D., Heat dissipation for a lead assembly.
  46. Cowley, Anthony W., Helical electrode for nerve stimulation.
  47. Kroll, Mark W., High accuracy painless method for measuring defibrillation lead impedance.
  48. Gunderson, Bruce D.; Ruzin, Donald James, Identification and remediation of oversensed cardiac events using far-field electrograms.
  49. Gunderson, Bruce D.; Ruzin, Donald James, Identification and remediation of oversensed cardiac events using far-field electrograms.
  50. Gunderson, Bruce D.; Olson, Walter H.; Musley, ShaileshKumar V.; Miller, Jennifer P., Identifying lead insulation breaches and externalization of lead conductors.
  51. Musley, ShaileshKumar V.; Gunderson, Bruce D.; Olson, Walter H.; Miller, Jennifer P., Identifying lead insulation breaches and externalization of lead conductors.
  52. Stadler, Robert W.; Gunderson, Bruce D.; Patel, Amisha S., Impedance variability analysis to identify lead-related conditions.
  53. Jorgenson David J. ; Starkson Ross O. ; McVenes Rick D. ; Trautmann Charles D. ; Wahlstrand John D. ; Peck Bradley C., Implantable lead functional status monitor and method.
  54. Jorgenson, David J.; Starkson, Ross O.; McVenes, Rick D.; Trautmann, Charles D.; Wahlstrand, John D.; Peck, Bradley C., Implantable lead functional status monitor and method.
  55. Jorgenson, David J.; Starkson, Ross O.; McVenes, Rick D.; Trautmann, Charles D.; Wahlstrand, John D.; Peck, Bradley C., Implantable lead functional status monitor and method.
  56. Jorgenson, David J.; Starkson, Ross O.; McVenes, Rick D.; Trautmann, Charles D.; Wahlstrand, John D.; Peck, Bradley C., Implantable lead functional status monitor and method.
  57. Armstrong, Randolph K.; Armstrong, Scott A., Implantable medical device charge balance assessment.
  58. Arneson, Michael R.; Bandy, William R.; Powell, Kevin J.; Jamieson, Brian, Ingestible low power sensor device and system for communicating with same.
  59. Germanson, Nancy M.; Spear, Thomas H.; Miller, Patrick David, Isolated lead conductor measurements for fault detection.
  60. Miller, Patrick D.; Spear, Thomas H.; Germanson, Nancy M., Isolating lead body for fault detection.
  61. Miller, Patrick D.; Spear, Thomas H.; Germanson, Nancy M., Isolating lead body for fault detection.
  62. Germanson, Nancy M.; Spear, Thomas H.; Miller, Patrick David, Isolating lead conductor for fault detection.
  63. Armstrong, Randolph K., Lead condition assessment for an implantable medical device.
  64. Armstrong, Randolph K., Lead condition assessment for an implantable medical device.
  65. Armstrong, Randolph K., Lead condition assessment for an implantable medical device.
  66. Kracker, Stefan G., Lead integrity testing during suspected tachyarrhythmias.
  67. Gunderson, Bruce D.; Havel, William J., Lead integrity testing triggered by sensed asystole.
  68. Gunderson, Bruce D., Lead integrity testing triggered by sensed signal saturation.
  69. Gunderson, Bruce D, Lead monitoring frequency based on lead and patient characteristics.
  70. Gunderson, Bruce D, Lead monitoring frequency based on lead and patient characteristics.
  71. Gunderson, Bruce D, Lead monitoring frequency based on lead and patient characteristics.
  72. Nygard, Tony Mikael; Tsampazis, Kostas; Ignacio, Marcus; Carter, Paul, Medical implant with current leakage circuitry.
  73. Kallis, James M., Method and apparatus for detecting imminent structural failure of an electrical lead in an implanted cardiac therapy medical device.
  74. Swerdlow, Charles, Method and apparatus for detection of lead conductor anomalies using dynamic electrical parameters.
  75. Swerdlow, Charles, Method and apparatus for detection of lead conductor anomalies using dynamic electrical parameters.
  76. Gunderson,Bruce D.; Patel,Amisha S.; Bounds,Chad A.; Wang,Li, Method and apparatus for identifying lead-related conditions using impedance trends and oversensing criteria.
  77. Gunderson,Bruce D.; Patel,Amisha S.; Bounds,Chad A.; Duffin,Edwin G., Method and apparatus for identifying lead-related conditions using lead impedance measurements.
  78. Kroll, Mark W.; Swerdlow, Charles D., Method and apparatus for implantable cardiac lead integrity analysis.
  79. Kroll, Mark William; Swerdlow, Charles Dennis, Method and apparatus for implantable cardiac lead integrity analysis.
  80. Kroll, Mark; Swerdlow, Charles; Kollmann, Daniel T., Method and apparatus for implantable cardiac lead integrity analysis.
  81. Anderson, Russell E.; Yonce, David J., Method and apparatus for measuring lead impedance in an implantable cardiac rhythm management device.
  82. Spear, Thomas H.; Germanson, Nancy M., Method and apparatus to manage lead-related conditions for fault tolerance enhancements.
  83. Spear, Thomas H.; Germanson, Nancy M.; Miller, Patrick D., Method and apparatus to manage lead-related conditions for fault tolerance enhancements.
  84. Spear, Thomas H; Germanson, Nancy M, Method and apparatus to manage lead-related conditions for fault tolerance enhancements.
  85. Ostroff, Alan H., Method and device for implantable cardiac stimulus device lead impedance measurement.
  86. Arneson, Michael R.; Bandy, William Robert; Davenport, Roger Allen; Powell, Kevin J.; Ngo, Son; Okunev, Yuri; Schober, Robert, Method for acoustic information exchange involving an ingestible low power capsule.
  87. Kroll, Mark William; Swerdlow, Charles Dennis, Method for detecting and localizing insulation failures of implantable device leads.
  88. Kroll, Mark W.; Swerdlow, Charles D., Method for detecting and treating insulation lead-to-housing failures.
  89. Kroll, Mark William; Swerdlow, Charles Dennis, Method for detecting and treating insulation lead-to-housing failures.
  90. Kroll, Mark W.; Swerdlow, Charles D., Methods and apparatus for detecting and localizing partial conductor failures of implantable device leads.
  91. Bandy, William Robert; Davenport, Roger Allen; Okunev, Yuri, Methods and systems for acoustic data transmission.
  92. Bandy, William Robert; Davenport, Roger Allen; Okunev, Yuri, Methods and systems for acoustic data transmission.
  93. Kroll, Mark W., Micro-charge ICD lead testing method and apparatus.
  94. Maschino, Steven E.; Byerman, Bryan P., Multi-electrode assembly for an implantable medical device.
  95. Conley, Vickie L.; Gilkerson, James O.; Perschbacher, David L., Pacemaker passive measurement testing system.
  96. Conley, Vickie L.; Gilkerson, James O.; Perschbacher, David L., Pacemaker passive measurement testing system.
  97. Conley, Vickie L.; Gilkerson, James O.; Perschbacher, David L., Pacemaker passive measurement testing system and method.
  98. Conley, Vickie L.; Gilkerson, James O.; Perschbacher, David L., Pacemaker passive measurement testing system and method.
  99. Conley,Vickie L.; Gilkerson,James O.; Perschbacher,David L., Pacemaker passive measurement testing system and method.
  100. Vickie L. Conley ; James O. Gilkerson ; David L. Perschbacher, Pacemaker passive measurement testing system and method.
  101. Cinbis Can ; Reinke James D. ; Tanji Todd M., Pacing lead impedance monitoring circuit and method.
  102. Schwartz, Mark; Sra, Jasbir, Pacing therapy for extending atrial refractory period.
  103. Schwartz,Mark; Sra,Jasbir, Pacing therapy for extending atrial refractory period.
  104. Armstrong, Randolph K.; Armstrong, Scott A.; Inman, D. Michael; Scott, Timothy L., Power supply monitoring for an implantable device.
  105. Armstrong, Randolph K.; Armstrong, Scott A.; Inman, D. Michael; Scott, Timothy L., Power supply monitoring for an implantable device.
  106. Armstrong, Randolph K.; Guzman, Albert W.; Nguyen, Huan D., Power supply monitoring for an implantable device.
  107. Armstrong, Randolph; Armstrong, Scott A.; Inman, Dana Michael; Scott, Timothy, Power supply monitoring for an implantable device.
  108. Mayotte, Mark J., Sensing integrity determination based on cardiovascular pressure.
  109. Ellingson, Michael L., Staged sensing adjustments by an implantable medical device in the presence of interfering signals.
  110. Hoeppner, Sara M.; Gunderson, Bruce D.; Patel, Amisha S.; Jancevski, Goran, Storage of data for evaluation of lead integrity.
  111. Cowley, Anthony W.; Hussain, Saadat, System and method for estimating battery capacity.
  112. Patel, Amisha S., T-wave oversensing.
  113. Arneson, Michael; Bandy, William; Shanks, Wayne, Ultrasound scanning capsule endoscope.
  114. Arneson, Michael; Bandy, William; Shanks, Wayne, Ultrasound scanning capsule endoscope (USCE).
  115. Stessman,Nicholas J., Voltage independent measurement apparatus, system, and method.
섹션별 컨텐츠 바로가기

AI-Helper ※ AI-Helper는 오픈소스 모델을 사용합니다.

AI-Helper 아이콘
AI-Helper
안녕하세요, AI-Helper입니다. 좌측 "선택된 텍스트"에서 텍스트를 선택하여 요약, 번역, 용어설명을 실행하세요.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.

선택된 텍스트