Methods for prevention of intraoperative rupture during surgical interventions of intracranial aneurysm clipping

Cover Page

Cite item

Full Text

Abstract

Intraoperative aneurysmal rupture (IAR) is one of the most dramatic complications of intracranial intervention. Its frequency, depending on the aneurysm’s localization and anatomical features, may reach 50%. IAR leads to the increase of unfavorable outcomes by 1.5–3 times. There exists a variety of techniques aimed to reduce the frequency of this complication, however, all of them have essential limitations.

The review presents analyses of the basic risk factors for IAR and techniques of its prevention, as well as modern approaches directed at the alleviation of this complication’s consequences.

About the authors

S. V. Kim

Federal Research Clinical Center of Specialized Medical Care and Medical Technologies of the FMBA of Russia

Author for correspondence.
Email: mr.kims@yandex.ru

врач анестезиолог-реаниматолог

Russian Federation, Moscow

A. R. Shin

Federal Research Clinical Center of Specialized Medical Care and Medical Technologies of the FMBA of Russia

Email: dr.alex.shin@gmail.com

к.м.н., врач анестезиолог-реаниматолог, заведующий отделением анестезиологии и реанимации

Russian Federation, Moscow

A. G. Vinokurov

Federal Research Clinical Center of Specialized Medical Care and Medical Technologies of the FMBA of Russia

Email: avinok@yandex.ru

к.м.н., заведующий нейрохирургическим отделением, врач-нейрохирург, врач высшей категории

Russian Federation, Moscow

T. V. Klypa

Federal Research Clinical Center of Specialized Medical Care and Medical Technologies of the FMBA of Russia

Email: tvklypa@gmail.com

д.м.н., врач высшей категории, заместитель главного врача по анестезиологии и реанимации

Russian Federation, Moscow

V. P. Baklaushev

Federal Research Clinical Center of Specialized Medical Care and Medical Technologies of the FMBA of Russia

Email: serpoff@mail.ru

д.м.н., заместитель генерального директора по научной работе и медицинским технологиям

Russian Federation, Moscow

A. V. Troitsky

Federal Research Clinical Center of Specialized Medical Care and Medical Technologies of the FMBA of Russia

Email: serpoff@mail.ru

д.м.н., профессор, генеральный директор

Russian Federation, Moscow

References

  1. Лебедев В.В. Неотложная нейрохирургия: Руководство для врачей. М.: Медицина, 2000.
  2. De Rooij N.K., Linn F.H., van der Plas J.A. et al. Incidence of subarachnoid haemorrhage: A systematic review with emphasis on region, age, gender and time trends // J Neurol Neurosurg Psychiatry. 2007. Vol. 78. P. 1365–1372.
  3. Крылов В.В., Гельфенбейн М.С. Современные подходы к диагностике и лечению артериальных аневризм и артериовенозных мальформаций (по материалам XI Всемирного конгресса нейрохирургов) // Нейрохирургия. 1998. № 2. С. 43–54.
  4. Rinkel G.J., Djibuti M., Algra A. et al. Prevalence and risk of rupture of intracranial aneurysms: A systematic review // Stroke. 1998. Vol. 29. P. 251–256.
  5. Vlak M.H., Algra A., Brandenburg R. et al. Prevalence of unruptured intracranial aneurysms, with emphasis on sex, age, comorbidity, country, and time period: A systematic review and meta-analysis // Lancet Neurol. 2011. No. 10. P. 626–636.
  6. Morita A., Kirino T., Hashi K. UCAS Japan investigators. The natural course of unruptured cerebral aneurysms in a Japanese cohort // N Engl J Med. 2012. Vol. 366. P. 2474–2482.
  7. Feigin V.L., Lawes C.M., Bennett D.A., Anderson C.S. Stroke epidemiology: A review of population-based studies of incidence, prevalence, and case-fatality in the late 20th century // Lancet Neurol. 2003. No. 2. Р. 43–53.
  8. Greving J.P., Rinkel G.J., Buskens E., Algra A. Cost-effectiveness of preventive treatment of intracranial aneurysms: New data and uncertainties // Neurology. 2009. Vol. 73. Р. 258–265.
  9. Priebe H.J. Aneurysmal subarachnoid haemorrhage and the anaesthetist // Br J Anaesth. 2007. Vol. 99. P. 102–118.
  10. Van Gijn J., Rinkel G.J. Subarachnoid haemorrhage: Diagnosis, causes and management // Brain. 2001. Vol. 124. Pt. 2. P. 249–278.
  11. Fischer T., Johnsen S.P., Pedersen L. et al. Seasonal variation in hospitalization and case fatality of subarachnoid hemorrhage – a nationwide Danish study on 9.367 patients // Neuroepidemiology. 2005. Vol. 24. P. 32–37.
  12. Ingall T., Asplundh K. et al. A multinational comparison of subarachnoid hemorrhage in the WHO MONICA stroke study // Stroke. 2000. Vol. 31. P. 1054–1061.
  13. Sandvei M.S., Mathiesen E.B., Vatten L.J. et al. Incidence and mortality of aneurysmal subarachnoid hemorrhage in two Norwegian cohorts, 1984–2007 // Neurology. 2011. Vol. 77. P. 1833–1839.
  14. Alleyne C.H. Jr. Aneurysmal subarachnoid hemorrhage: Have outcomes really improved? // Neurology. 2010. Vol. 74. P. 1486–1487.
  15. Ie Roux A.A., Wallace M.C. Outcome and cost of aneurismal subarachnoid hemorrhage // Neurosurg Clin N Am. 2010. Vol. 21. P. 235–246.
  16. Komotar R.J., Mocco J., Solomon R.A. Guidelines for the surgical treatment of unruptured intracranial aneurysms // Neurosurgery. 2008. Vol. 62. No. 1. P. 183–193.
  17. Rose M.J. Aneurysmal subarachnoid hemorrhage: An update on the medical complications and treatments strategies seen in these patients // Curr Opin Anaesthesiol. 2011. Vol. 24. P. 500–507.
  18. Kissela B.M., Sauerbeck L., Woo D. et al. Subarachnoid hemorrhage: A preventable disease with a heritable component // Stroke. 2002. Vol. 33. No. 5. P. 1321–1326.
  19. Ruigrok Y.M., Buskens E., Rinkel G.J. Attributable risk of common and rare determinants of subarachnoid hemorrhage // Stroke. 2001. Vol. 32. No. 5. P. 1173–1175.
  20. Бывальцев В.А., Белых Е.Г., Степанов И.А. Выбор способа лечения церебральных аневризм различных локализаций в условиях развития современных эндоваскулярных технологий: метаанализ // Вестник РАМН. 2016. Т. 71. № 1.
  21. Крылов В.В. Микрохирургия аневризм головного мозга. М., 2011. С. 526–529.
  22. Крылов В.В. Хирургическое лечение артериальных аневризм головного мозга, осложненных внутричерепной гематомой // Нейрохирургия. 2002. № 2. С. 9–15.
  23. Лебедев В.В., Крылов В.В. Хирургическое лечение внутричерепных гематом в остром периоде разрыва артериальных аневризм головного мозга // Вопросы нейрохирургии им. Н.Н. Бурденко. 1988. № 4. C. 9–13.
  24. Greenberg M.S. Handbook of neurosurgery / 5th ed. New York: Thieme, Verlag, 2001.
  25. Sachs A.I. Cooperative study international aneurysms and subarachnoid hemorrhage. Report on a randomized treatment study. I. Inrodiction // Stroke. 1974. No. 5. P. 550–551.
  26. Коновалов А.Н., Крылов В.В., Филатов Ю.М. и др. Рекомендательный протокол ведения больных с субарахноидальным кровоизлиянием вследствие разрыва аневризм сосудов головного мозга // Материалы VI съезда нейрохирургов России. Новосибирск, 2012.
  27. Hunt W., Hess R. Surgical risk as related to time of intervention in the repair of intracranial aneurysms // J Neurosurg. 1968. Vol. 28. P. 14–20.
  28. Molyneux A.J., Kerr R.S., Yu L.M. et al. International Subarachnoid Aneurysm Trial (ISAT) Collaborative Group. International subarachnoid aneurysm trial (ISAT) of neurosurgical clipping versus endovascular coiling in 2143 patients with ruptured intracranial aneurysms: A randomised comparison of effects on survival, dependency, seizures, rebleeding, subgroups, and aneurysm occlusion // Lancet. 2005. Vol. 366 (9488). P. 809–817.
  29. Lanterna L.A., Tredici G., Dimitrov B.D., Biroli F. Treatment of unruptured cerebral aneurysms by embolization with guglielmi detachable coils: Case-fatality, morbidity, and effectiveness in preventing bleeding – a systematic review of the literature // Neurosurgery. 2004. Vol. 55. No. 4. P. 767–775; discussion 775–778.
  30. Lusseveld E., Brilstra E.H., Nijssen P.C. et al. Endovascular coiling versus neurosurgical clipping in patients with a ruptured basilar tip aneurysm // J Neurol Neurosurg Psychiatry. 2002. Vol. 73. P. 591–593.
  31. Stanlies D’Souza. Aneurysmal subarachnoid hemorrhage // J Neurosurg Anesthesiol. 2015. Vol. 27. P. 222–240.
  32. Valee J.N., Aymard A., Vicaut E. et al. Endovascular treatment of basilar tip aneurysms with guglielmi detachable coils: Predictors of immediate and long-term results with multivariate analysis 6-years experience // Radiology. 2003. Vol. 226. P. 867–879.
  33. Ландик С.А., Свистов Д.В., Кандыба Д.В., Савелло А.В. Сравнительный анализ исходов микрохирургического и внутрисосудистого лечения аневризм головного мозга // Нейрохирургия. 2009. № 1. С. 16–23.
  34. Свистов Д.В., Кандыба Д.В., Савелло А.В. и др. Сравнительный анализ результатов микрохирургического и внутрисосудистого лечения аневризм головного мозга // Материалы Российско-японского нейрохирургического симпозиума в рамках Всероссийской научно-практической конференции «Поленовские чтения»: Сборник статей. СПб., 2008. С. 33–53.
  35. Spetzler R.F., McDougall C.G., Albuquerque F.C. et al. The Barrow Ruptured Aneurysm Trial: 3-year results // J Neurosurg. 2013. Vol. 119. No. 1. P. 146–157.
  36. Doerfler A., Wanke I., Egelhof T. et al. Aneurysmal rupture during embolization with Guglielmi detachable coils: Causes, 69 management, and outcome // AJNR Am J Neuroradiology. 2001. Vol. 22. No. 10. P. 1825–1832.
  37. Fraser J., Riina H., Mitra N. et al. Treatment of ruptured intracranial aneurysms: Looking to the past to register the future // Neurosurg. 2006. Vol. 59. No. 6. P. 1157–1167.
  38. Свистов Д.В., Павлов О.А., Кандыба Д.В. и др. Значение внутрисосудистого метода в лечении пациентов с аневризматической болезнью головного мозга // Нейрохирургия. 2011. № 1. С. 21–28.
  39. Сенько И.В., Климов А.Б., Дашьян В.Г., Винокуров А.Г. Открытое хирургическое лечение больных после осложнений эндоваскулярной эмболизации аневризм головного мозга // Нейрохирургия. 2012. № 3.
  40. Johnston S.C., Dowd C.F. Predictors of rehemorrhage after treatment of ruptured intracranial aneurysms: The Cerebral Aneurysm Rerupture After Treatment (CARAT) study // J Neurosurg. 2008. Vol. 39. No. 1. Р. 120–125.
  41. Raymond J., Guilbert F. Long-term angiographic recurrences after selective endovascular treatment of aneurysms with detachable coils tumors // Stroke. 2003. Vol. 34. Р. 1398–1403.
  42. Civit T., Jean A., Claude M. et al. Aneurysm clipping after endovascular treatment with coils: A reports of eight patients // Neurosurgery. 1996. Vol. 38. No. 5. P. 955–961.
  43. Conrad M., Pelissou-Guyotat I., Morel C. et al. Regrowth of residual ruptured aneurysms treated by guglielmi’s detachable coils which demanded further treatment by surgical clipping. Report of 7 cases and review of the literature // Acta Neurochir (Wien). 2002. Vol. 144. No. 5. P. 419–426.
  44. Kubota H., Tanikawa R., Katsuno M. et al. Reconstruction of intracranial vertebral artery with radial artery and occipital artery grafts for fusiform intracranial vertebral aneurysm not amenable to endovascular treatment: technical note // Acta Neurochir (Wien). 2013. Vol. 155. P. 1517–1524, discussion 1524.
  45. Крылов В.В. Хирургия аневризм головного мозга: В 3 т. Т. III. М., 2012.
  46. Fridriksson S., Saveland H., Jakobsson K.E. et al. Intraoperative complications in aneurysm surgery: A prospective national study // J Neurosurg. 2002. Vol. 96. P. 515–522.
  47. Le Roux P.D., Elliot J.P., Newell D.W. et al. The incidence of surgical complications is similar in good and poor grade patients undergoing repair of ruptured anterior circulation aneurysms: A retrospective review of 355 patients // Neurosurgery. 1996. Vol. 38. P. 887–893; discussion 893–895.
  48. Крылов В.В., Годков И.М., Генов П.Г. Интраоперационные факторы риска в хирургии церебральных аневризм // Нейрохирургия. 2009. № 2.
  49. Saveland Х.H., Jakobsson K.E., Edner J, et al. Intraoperative complications in aneurysm surgery: A prospective national study // J Neurosurg. 2002. Vol. 96. P. 515–522.
  50. Гусев Е.И., Коновалов А.Н., Скворцова В.И., Гехт А.Б. Неврология: Национальное руководство. М., 2009.
  51. Lawton M.T., Du R. Effect of the neurosurgeon’s surgical experience on outcomes from intraoperative aneurysmal rupture // Neurosurgery. 2005. Vol. 57. No. 1. P. 9–15.
  52. Neuloh G., Schramm J. Monitoring of motor evoked potentials compared with somatosensory evoked potentials and microvascular Doppler ultrasonography in cerebral aneurysm surgery // J Neurosurg. 2004. Vol. 100. P. 389–399.
  53. Лебедев В.В., Крылов В.В., Шелковский В.Н. Клиника, диагностика и лечение внутричерепных артериальных аневризм в остром периоде кровоизлияния. М.: Медицина, 1996.
  54. Асатурян Г.А. Временное клипирование несущей артерии в хирургии церебральных аневризм // Нейрохирургия. 2002. № 3. С. 13–19.
  55. Крылов В.В., Евзиков Г.Ю., Сарибекян А.С. и др. Интраоперационные кровотечения при хирургическом лечении аневризм сосудов головного мозга // Вопросы нейрохирургии. 1996. № 2. С. 3–6.
  56. Batjer H., Samson D.S. Management of intraoperative aneurysm rupture // Clin Neurosurg. 1990. Vol. 36. P. 275–288.
  57. Chandler J.P., Getch C.C., Batjer H.H. Intraoperative aneurysm rupture and complication avoidance // Neurosurg Clin N Am. 1998. No. 9. Vol. 861–868.
  58. Giannotta S.L., Oppenheimer J.H., Levy M.L., Zelman V. Management of intraoperative rupture of aneurysm without hypotension // Neurosurgery. 1991. Vol. 28. P. 531–535.
  59. Lavine S.D., Masri L.S., Levy M.L., Giannotta S.L. Temporary occlusion of the middle cerebral artery in intracranial aneurysm surgery: Time limitation and advantage of brain protection // J Neurosurg. 1997. Vol. 87. P. 817–824.
  60. Samson D., Batier H.H., Kopitnik T.A. Jr. et al. Current results of the surgical management of aneurysms of the basilar apex // Neurosurgery. 1999. Vol. 44. P. 697–704.
  61. Ogilvy C., Carter B., Kaplan S. et al. Temporary vessel occlusion for aneurysm surgery: Risk factors for stroke in patients protected by induced hypothermia and hypertension and intravenous mannitol administration // J Neurosurg. 1996. Vol. 84. P. 785–791.
  62. Ka-Hung Pang P., Chan K., Zhu X. et al. Use of elective temporary clips in preventing intraoperative cerebral aneurysm rupture // Ann Coll Surg Hong Kong. 2004. Vol. 8920. P. 44–48.
  63. Tanabe J., Ishikawa T., Moroi J., Suzuki A. Preliminary study on safe thresholds for temporary internal carotid artery occlusion in aneurysm surgery based on motor-evoked potential monitoring // Surg Neurol Int. 2014. No. 5. P. 47.
  64. Асатурян Г.А., Семенютин В.Б., Масленникова Л.C. и др. Временное клипирование и мозговой кровоток у больных с церебральными аневризмами // Вопросы нейрохирургии. 2006. № 3. С. 18–21.
  65. Годков И.М. Факторы риска интраоперационных осложнений в хирургии церебральных артериальных аневризм. М., 2009.
  66. Филатов Ю.М., Элиава Ш.Ш., Сазонова О.Б., Кристесашвили Д.В. Временное клипирование артерий в хирургии аневризм головного мозга в остром периоде субарахноидального кровоизлияния // Вопросы нейрохирургии. 2002. № 4. С. 2–5.
  67. Hindman B.J., Bayman E.O., Pfisterer W.K. et al. IHAST Investigators. No association between intraoperative hypothermia or supplemental protective drug and neurological outcomes in patients undergoing temporary clipping during cerebral aneurysm surgery: Findings from the Intraoperative Hypothermia for Aneurysm Surgery Trial // Anesthesiology. 2010. Vol. 112. P. 86–101.
  68. Woertgen C., Rothoerl R.D., Albert R. et al. Effects of temporary clipping during aneurysm surgery // Neurol Res. 2008. Vol. 30. P. 542–546.
  69. Griessenauer C.J., Poston T.L., Shoja M.M. et al. The impact of temporary artery occlusion during intracranial aneurysm surgery on long-term clinical outcome. Part I. Patients with subarachnoid hemorrhage // World Neurosurg. 2014. Vol. 82. P. 140–148.
  70. Fulkerson D.H., Horner T.G., Payner T.D. et al. Endovascular retrograde suction decompression as an adjunct to surgical treatment of ophthalmic aneurysms: Analysis of risks and clinical outcomes // Neurosurgery. 2009. Vol. 64. P. 107–111.
  71. Higasida R.T., Halbach V.V., Dowd C.F. et al. Intracranial aneurysms: Interventional neurovascular treatment with detachable balloons – results in 215 cases // Radiology. 1991. Vol. 178. P. 663–670.
  72. Parkinson R.J., Bendok B.R., Getch C.C. et al. Retrograde suction decompression of giant paraclinoid aneurysms using a No. 7 French balloon-containing guide catheter. Technical note // J Neurosurg. 2006. Vol. 105. P. 479–481.
  73. Young W.L., Lawton M.T., Gupta D.K., Hashimoto T. Anesthetic management of deep hypothermic circulatory arrest for cerebral aneurysm clipping // Anesthesiology. 2002. Vol. 96. P. 497–503.
  74. Drake C.G., Barr H.W.K., Coles J.C. et al. The use of extracorporeal circulation and profound hypothermia in the treatment of ruptured intracranial aneurysm // J Neurosurg. 1964. Vol. 21. P. 575–581.
  75. Levati A., Tommasino C. Giant intracranial aneurysms treated with deep hypothermia and circulatory arrest // J Neurosurg Anesthesiol. 2007. Vol. 19. No. 1. P. 25–30.
  76. Rothoerl R.D., Brawanski A. The history and present status of deep hypothermia and circulatory arrest in cerebrovascular surgery // Neurosurg Focus. 2006. Vol. 20. No. 6. P. E5.
  77. Schebesch K.M., Proescholdt M., Ullrich O.W. et al. Circulatory arrest and deep hypothermia for the treatment of complex intracranial aneurysms – results from a single European center // Acta Neurochir (Wien). 2010. Vol. 152. P. 783–792.
  78. Uihlein A., Theye R.A., Dawson B. et al. The use of profound hypothermia, extracorporeal circulation and total circulatory arrest for an intracranial aneurysm. Preliminary report with reports of cases // Proc Staff Meet Mayo Clin. 1960. Vol. 35. P. 567–576.
  79. Aslami H., Juffermans N.P. Induction of a hypometabolic state during critical illness – a new concept in the ICU? // Neth J Med. 2010. Vol. 68. P. 190–198.
  80. Michenfelder J.D. Anesthesia and the brain: Clinical, functional, metabolic, and vascular correlates. New York, Churchill Livingstone, 1988.
  81. Miller R.D. et al. Miller’s anaesthesia. Elsevier Churchill, 2015. P. 2213–2215.
  82. Pitch W., Cottrell J.E., Smith D.S. Brain metabolism // Anesthesia and neurosurgery. 4th ed. St. Louis, MO: Mosby, 2001. P. 1–18.
  83. Choi R., Andres R.H., Steinberg G.K. et al. Intraoperative hypothermia during vascular neurosurgical procedures // Neurosurg Focus. 2009. Vol. 26. P. E24.
  84. Komotar R.J., Jones J.E., Connolly E.S. Jr. Introperative hypothermia for Aneurysm surgery Trial (IHAST) // Neurosurgery. 2005. Vol. 56. P. N9–N10.
  85. Nguyen H.P., Zaroff J.G., Bayman E.O. et al. Perioperative hypothermia (33 degrees C) does not increase the occurrence of cardiovascular events in patients undergoing cerebral aneurysm surgery: Findings from the Intraoperative Hypothermia for Aneurysm Surgery Trial // Anesthesiology. 2010. Vol. 113. P. 327–342.
  86. Todd M.M., Hindman B.J., Clarke W.R. et al. Mild intraoperative hypothermia during surgery for intracranial aneurysm // N Engl J Med. 2005. Vol. 352. P. 135–145.
  87. Haskó G. et al. Adenosine receptors: Therapeutic aspects for inflammatory and immune diseases // Nature reviews. Drug discovery: 2016.
  88. Lilly L.S. Pathophysiology of heart disease: A collaborative project of medical students and faculty. Harvard Medical School, 2011.
  89. Groff M.W., Adams D.C., Kahn R.A. et al. Adenosine-induced transient asystole for management of a basilar artery aneurysm. Case report // J Neurosurg. 1999. Vol. 91. P. 687–690.
  90. Guinn N.R. et al. Adenosine-induced transient asystole for intracranial aneurysm surgery: A retrospective review // J Neurosurg Anesthesiol. 2011. Vol. 23. P. 35–40.
  91. Luostarinen T., Takala R.S., Niemi T.T. et al. Adenosine-induced cardiac arrest during intraoperative cerebral aneurysm rupture // World Neurosurg. 2010. Vol. 73. No. 2. P. 79–83; discussion e9.
  92. Sung Ho Lee et al. Adenosine-induced transient asystole during intracranial aneurysm surgery: Indications, dosing, efficacy, and risks. Clinical Article – Vascular, 2015.
  93. Bebawy J.F. et al. Adenosine-induced flow arrest to facilitate intracranial aneurysm clip ligation does not worsen neurologic outcome // Anesth Analg. 2013. Vol. 117. P. 1205–1210.
  94. Sulter G., Steen C., De Keyser J. Use of the Barthel index and modified Rankin scale in acute stroke trials // Stroke. 1999. Vol. 30. P. 1538–1541.
  95. Khan S.A., McDonagh D.L., Adogwa O. et al. Perioperative cardiac complications and 30-day mortality in patients undergoing intracranial aneurysmal surgery with adenosine-induced flow arrest: A retrospective comparative study // Neurosurgery. 2014. Vol. 74. P. 267–272.
  96. Andrade-Barazarte H., Luostarinen T., Goehre F. et al. Transient cardiac arrest induced by adenosine: A tool for contralateral clipping of internal carotid artery-ophthalmic segment aneurysms // World Neurosurgery. 2015. Vol. 84. No. 6. P. 1933–1940.
  97. Jeon I.C., Chang C.H., Choi B.Y. et al. Cardiac troponin 1 elevation in patients with aneurysmal subarachnoid hemorrhage // J Korean Neurosurg Soc. 2009. Vol. 46. P. 99–102.
  98. Naidech A.M., Kreiter K.T., Janjua N. et al. Cardiac troponin elevation, cardiovascular morbidity and outcome after subarachnoid hemorrhage // Circulation. 2005. Vol. 112. P. 2851–2856.
  99. Mashaly H.A., Provencio J.J. Inflammation as a link between brain injury and heart damage: The model of subarachnoid hemorrhage // Cleve Clin J Med. 2008. Vol. 75. Suppl. 2. P. S26–S30.
  100. Webb J.G., Pasupati S., Achtem L., Thompson C.R. Rapid pacing to facilitate transcatheter prosthetic heart valve implantation // Catheter Cardiovasc Interv. 2006. Vol. 68. P. 199–204.
  101. Rovit R.L. Operative hypotension for intracranial vascular surgery using pacemaker-induced ventricular tachycardia // J Neurosurg. 1971. Vol. 35. P. 51–58.
  102. De Giovanni J.V., Edgar R.A., Cranston A. Adenosine induced transient cardiac standstill in catheter interventional procedures for congenital heart diseases // Heart. 1998. Vol. 80. No. 4. P. 330–333.
  103. Mehta C., Desai T., Shebani S. et al. Rapid ventricular pacing for catheter interventions in congenital aortic stenosis and coarctation: Effectiveness, safety, and rate titration for optimal results // J Interv Cardiol. 2010. Vol. 23. No. 1. P. 7–13.
  104. Sack S., Kahlert P., Khandanpour S. et al. Revival of an old method with new techniques: Balloon aortic valvuloplasty of the calcified aortic stenosis in the elderly // Clin Res Cardiol. 2008. Vol. 97. No. 5. P. 288–297.
  105. Ricotta J.J. 2nd, Harbuzariu C., Pulido J.N. et al. A novel approach using pulmonary artery catheter-directed rapid right ventricular pacing to facilitate precise deployment of endografts in the thoracic aorta // J Vasc Surg. 2012. Vol. 55. No. 4. P. 1196–1201.
  106. Okitsu K., Iritakenishi T., Imada T. A longer total duration of rapid ventricular pacing does not increase the risk of postprocedural myocardial injury in patients who undergo transcatheter aortic valve implantation // Heart Vessels. 2017. Mar 20.
  107. Saldien V., Menovsky T., Rommens M. et al. Rapid ventricular pacing for flow arrest during cerebrovascular surgery: Revival of an old concept // Neurosurgery. 2012. Vol. 70. P. 270–275.
  108. Konczalla J. et al. Rapid ventricular pacing for clip reconstruction of complex unruptured intracranial aneurysms: Results of an interdisciplinary prospective trial // J Neurosurg. 2017. August 18.
  109. Daehnert I., Rotzsch C., Wiener M., Schneider P. Rapid right ventricular pacing is an alternative to adenosine in catheter interventional procedures for congenital heart disease // Heart. 2004. Vol. 90. No. 9. P. 1047–1050.
  110. Nienaber C.A., Kische S., Rehders T.C. et al. Rapid pacing for better placing: Comparison of techniques for precise deployment of endografts in the thoracic aorta // J Endovasc Ther. 2007. Vol. 14. No. 4. P. 506–512.
  111. Lasa G., Larman M., Gaviria K. et al. Coronary stent immobilization during angioplasty by transcoronary ventricular pacing via a guidewire // Rev Esp Cardiol. 2009. Vol. 62. No. 3. P. 288–292.
  112. Schramm C., Huber A., Plaschke K. The accuracy and responsiveness of continuous noninvasive arterial pressure during rapid ventricular pacing for transcatheter aortic valve replacement // Anesth Analg. 2013. Vol. 117. No. 1. P. 76–82.
  113. Selle A., Figulla H.R., Ferrari M. et al. Impact of rapid ventricular pacing during TAVI on microvascular tissue perfusion // Clin Res Cardiol. 2014. Vol. 103. No. 11. P. 902–911.
  114. Al-Majed N.S., McAlister F.A., Bakal J.A., Ezekowitz J.A. Meta-analysis: Cardiac resynchronization therapy for patients with less symptomatic heart failure // Ann Intern Med. 2011. Vol. 154. P. 401–412.
  115. Kahlert P., Al-Rashid F., Plicht B. et al. Myocardial injury during transfemoral transcatheter aortic valve implantation: An intracoronary Doppler and cardiac magnetic resonance imaging study // EuroIntervention. 2016. Vol. 11. P. 1401–1408.
  116. Witzke C., Don C.W., Cubeddu R.J. et al. Impact of rapid ventricular pacing during percutaneous balloon aortic valvuloplasty in patients with critical aortic stenosis: Should we be using it? // Catheter Cardiovasc Interv. 2010. Vol. 75. P. 444–452.
  117. Argiriadou H., Anastasiadis K., Karapanagiotidis G., Papakonstantinou C. Subclinical decline in cerebral oxymetry saturation during rapid pacing in transfemoral aortic valve replacement // Ann Thorac Surg. 2010. Vol. 90. No. 3. P. 1023.
  118. Plaschke K., Böckler D., Schumacher H. et al. Adenosine-induced cardiac arrest and EEG changes in patients with thoracic aorta endovascular repair // Br J Anaesth. 2006. Vol. 96. P. 310–316.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c) 2018 Kim S.V., Shin A.R., Vinokurov A.G., Klypa T.V., Baklaushev V.P., Troitsky A.V.

Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies