Литература
Говоров Б. Б., Асатурян Г. А.,Семенютин В. Б., Панунцев В. С., Алиев В. А., Алексеев В. В. Способ контактной микрососудистой доплерографии: Патент на изобретение № 2231978. – 2004.
Лысачев А. Г. Эндоваскулярное хирургическое лечение артерио-венозных мальформаций головного мозга: автореф. дис. д-ра мед. наук. – М., 1989. – 42 с.
Мацкевич И. П., Свирид Г. П. Теория вероятности и математическая статистика. – Минск: Высшая школа, 1993. – 260 с.
Свистов Д. В. Периоперационная транскраниальная доплерография при артериовенозных мальформациях головного мозга: дис.. канд. мед. наук. – СПб., 1993.– 282 с.
Семенютин В. Б., Никитин П. И., Антонов В. И., Бухаев И. М. Возможности мониторинга внутричерепной гемодинамики при эндоваскулярном выключении из кровообращения артериовенозных мальформаций головного мозга // Регионарное кровообращение и микроциркуляция. – 2006, № 3 (9). – С. 4–12.
Семенютин В. Б., Никитин П. И., Говоров Б. Б. Интраоперационная контактная микрососудистая доплерография в хирургии поверхностных артериовенозных мальформаций, расположенных в функционально значимых зонах головного мозга // Рос. нейрохир. – 2001, 3(5). – С. 5.
Хилько В. А., Зубков Ю. Н. Внутрисосудистая нейрохирургия. – Л.: Медицина, 1982. – С. 53.
Юнкеров В. И., Григорьев С. Г. Математико-статистическая обработка данных медицинских исследований. – СПб.: ВМедА, 2002. – 266 с.
Bartels E. Evaluation of Arteriovenous Malformations (AVMs) With Transcranial Color-Coded Duplex Sonography: Does the Location of an AVM Influence Its Sonographic Detection? // J. Ultrasound Med. – 2005. – Vol. 24. – P. 1511–1517.
Berenstein A., Lasjaunias P. Surjical Neuroanjiography. Vol. 4 Endovascular Treatment of Cerebral Lesions. – Epringer-Verlag: New York, 1992. – Р. 195–196.
Black K. L., Rubin J. M., Chandler W. F., McGillicuddy J. E. Intraoperative color-flow Doppler imaging of AVM's and aneurysms // J. Neurosurg. – 1988, 68(4). – Р. 635–639.
Cathignol P., Chapelon J. Y., Fourcade C. Velocimetre Doppler a l’usage de petit vaiseaux, le Microflo Boisigma (Paris). – 1978, 1. – Р. 426–429.
Connors J. J. III, Wojak J. C. Interventional neuroradiology. Strategies and practical techniques. – 1999. – 795 р.
Diehl R. R., Henkes H., Nahser H. C., Kuhne D., Berlit P. Blood flow velocity and vasomotor reactivity in patients with arteriovenous malformations. A transcranial Doppler study Stroke. – 1994, 25. Р. 1574–1580.
Duffau H., Capelle L., Sichez J., Faillot T., Abdennour L., Law Koune J. D., Dadoun S., Bitar A., Arthuis F., Van Effenterre R., Fohanno D. Intra-operative direct electrical stimulations of the central nervous system: the Salpetriere experience with 60 patients // Acta Neurochir (Wien). – 1999, 141(11). – Р. 1157–1167.
Fleischer L. H., Young W. L., Pile-Spellman J., terPenning B., Kader A., Stein B. M., Mohr J. P. Relationship of transcranial Doppler flow velocities and arteriovenous malformation feeding artery pressures // Stroke. – 1993, 24. – Р. 1897–1902.
Fischer E. Anterior cerebral and pericallosal arteries. // Huber P. ed. Cerebral Angiography, 2nd ed. – Georg Thieme Verlag: New York, 1982. – Р. 79–81.
Fogarty-Mack P., Pile-Spellman J., Hacein-Bey L., Ostapkovich N., Joshi S., Vulliemoz Y., Young W. L. Superselective intraartcrial papaverine administration: effect on regional cerebral blood flow in patients with arteriovenous malformations // J. Neurosurg. – 1996, 85. – Р. 395–402.
Gao E., Young W. L., Ornstein E., Pile-Spellman J. and Ma Q. A theoretical model of cerebral hemodynamics: application to the study of arteriovenous malformations // J. Cereb. Blood Flow Metab. – 1997, 17. – Р. 905–918.
Gross D. T. Interventional neuroradioogy // Curr. Opin. Neurol. – 1993, 6. – Р. 891–899.
Hademenos G. J., Massoud T. F., Vinuela F. A biomathematical model of intracranial arteriovenous malformations based on electrical network analysis: theory and hemodynamics // Neurosurgery. – 1996, 38(5). – Р. 1005–1014.
Hassler W. Hemodinamic aspects of cerebral angiomas // Acta Neurochirurgica. – 1986. -Supp. Vol. 37. – 108 p.
Hassler W., Gilsbach J. Intra- and perioperative aspects of the hemodinamics of supratentorial AV malformations // Acta Neurochir. – 1984. – Vol. 73, 1/2.– P. 35–44.
Kato Y., Sano H., Kanaoka N., Imai F., Katada K., Kanno T. Successful resection of arteriovenous malformations in eloquent areas diagnosed by surface anatomy scanning and motor evoked potential // Neurol. Med. Chir. (Tokyo). – 1998; 38 suppl. – Р. 217–221.
Klötzsch C., Henkes H., Nahser H. C., Kühne D., Berlit P. Transcranial Color-Coded Duplex Sonography in Cerebral Arteriovenous Malformations Stroke. 1995. 26. – Р. 2298–2301.
Kombos T., Pietila T., Kern B. C., Kopetsch O., Brock M. Demonstration of cerebral plasticity by intra-operative neurophysiological monitoring: report of an uncommon case. Acta Neurochir (Wien), 1999; 141(8). – Р. 885–9.
Lazar R. M., Marshall R. S., Pile-Spellman J. et al. Anterior translocation of language in patients with left cerebral arteriovenous malformations. Neurology. 1997; 49. – Р. 802–808.
Lo E. H., Fabricant J. I., Levy R. P., Phillips M. N., Frankel K. A., Alpen E. L. An experimental compartmental flow model for assessing the hemodynamic response of intracranial arteriovenous malformations to stereotactic radiosurgery. Neurosurgery 1991; 28. – Р. 251–259.
Luessenhop A. J., Rosa L. Cerebral arteriovenous malformations. Indications for and results of surgery, and the role of intravascular techniques. J Neurosurg. 1984 Jan; 60(1). – Р. 14–22.
Luginbuhl M., Schroth G., Thomson D. Interventional neuroradiology and minimally invasive neurosurgery. Curr Opin Anaesthesiol. 1997 10. – Р. 287–296.
Maldjian J., Atlas S. W., Howard R. S. 2nd, Greenstein E., Alsop D., Detre J. A., Listerud J., D'Esposito M., Flamm E. S. Functional magnetic resonance imaging of regional brain activity in patients with intracerebral arteriovenous malformations before surgical or endovascular therapy // J Neurosurg. – 1996, 84(3). – Р. 477–83.
Manchola I. F., De Salles A. A., Foo T. K., Ackerman R. H., Candia G. T., Kjellberg R. N. Arteriovenous malformation hemodynamics: a transcranial Doppler study // Neurosurgery. – 1993, 33(4). – Р. 556–562.
Manninen P. H., Gignac E. M., Gelb A. W. et al. Anesthesia for interventional neuroradiology // J. Clin. Anesth. – 1995, 7. – Р. 448–452.
Mast H., Mohr J. P., Osipov A., Pile-Spellman J., Marshall R. S., Lazar R. M., Stein B. M., Young W. L. “Steal” is an unestablished mechanism for the clinical presentation of cerebral arteriovenous malformations // Stroke. – 1995, 26(7). – Р. 1215–1220.
Mine S., Hirai S., Yamakami I., Ono J., Yamaura A., Nakajima Y. Location of primary somatosensory area in cerebral arteriovenous malformation involving sensorimotor area // No To Shinkei. – 1999, 51(4). – Р. 331–337.
Muacevic A., Steiger H. J. Computer-assisted resection of cerebral arteriovenous malformations // Neurosurgery. – 1999, 45(5). – Р. 1164–1170; discussion 1170–1.
Nagasawa S., Kawanishi M., Kondoh S., Kajimoto S., Yamaguchi K., Ohta T. Haemodynamic simulation study of cerebral arteriovenous malformations. Part 2. Effects of impaired autoregulation and induced hypotension // J. Cerebr. Blood Flow and Metab. – 1996. – V. 16. – P. 162–169.
Nagasawa S., Kawanishi M., Tanaka H., Nagayasu S., Kikuchi H. Haemodynamic study of arteriovenous malformations using a hydraulic model // Neurol Res. – 1993,15. – Р. 409–412.
Nyberg G., Andersson J., Antoni G., Lilja A., Pellettieri L., Valind S., Langstrom B. Activation PET scanning in pretreatment evaluation of patients with cerebral tumours or vascular lesions in or close to the sensorimotor cortex // Acta Neurochir (Wien). – 1996, 138(6). – Р. 684–694.
Ogilvy C. S., Stieg P. E., Awad I., Brown R. D., Kondziolka D., Rosenwasser R., Young W. L., Hademenos G. Recommendations for the Management of Intracranial Arteriovenous Malformations A Statement for Healthcare Professionals From a Special Writing Group of the Stroke Council, American Stroke Association. // Stroke. – 2001 – Vol. 32 – P. 1458–1471.
Ornstein E., Blesser W. B., Young W. L., Pile-Spellman J. A computer simulation of the haemodynamic effects of intracranial arteriovenous malformation occlusion // Neurol Res. – 1994,16(5). – Р. 345–52.
Otsuki H., Nakatani S., Yamasaki M., Kinoshita A., Iwamoto F., Kagawa N. Intraoperative ultrasound arteriography with the «Coded Harmonic Angio» technique. Report of three cases // J Neurosurg. – 2001, 94(6). – Р. 992–995.
Peters K. R., Quisling R. G., Gilmore R., Mickle P., Kuperus J. H. Intraarterial use of sodium methohexital for provocative testing during brain embolotherapy // AJNR – 1993, 14. – Р. 171–174.
Pietila T. A., Stendel R., Jansons J., Schilling A., Koch H. C., Brock M. The value of intraoperative angiography for surgical treatment of cerebral arteriovenous malformations in eloquent brain areas // Acta Neurochir (Wien). – 1998, 140(11). – Р. 1161–1165.
Pik J. H., Morgan M. K. Microsurgery for small arteriovenous malformations of the brain: results in 110 consecutive patients // Neurosurgery – 2000, 47(3). – Р. 571–575; discussion 575.
Rauch R., Vinuela F., Dion J., Duckwiler G., Amos E. C., Jordan S. E., Martin N., Jensen M. E., Bentson J., Thibault L. Preembolization functional evaluation in brain malformation: the superselective Amytal test // Am. J. Neuroradiol. – 1992. – № 13. – P. 303–318.
Rubin J. M., Hatfield M. K., Chandler W. F., Black K. L., DiPietro M. A. Intracerebral arteriovenous malformations: intraoperative color Doppler flow imaging // Radiology. – 1989, 170(1 Pt 1). – Р. 219–222.
Schaller C., Schramm J., Haun D. Significance of factors contributing to surgical complications and to late outcome after elective surgery of cerebral arteriovenous malformations // J Neurol Neurosurg Psychiatry. – 1998, 65(4). – Р. 547–554.
Seghier M., Lazeyras F., Momjian S., Annoni J. M., de Tribolet N., Khateb A. Language representation in a patient with a dominant right hemisphere: fMRI evidence for an intrahemispheric reorganization // Neuroreport. – 2001, 12(13). – Р. 2785–2790.
Stapleton S. R., Kiriakopoulos E., Mikulis D., Drake J. M., Hoffman H. J., Humphreys R., Hwang P., Otsubo H., Holowka S., Logan W., Rutka J. T. Combined utility of functional MRI, cortical mapping, and frameless stereotaxy in the resection of lesions in eloquent areas of brain in children // Pediatr Neurosurg. – 1997, 26(2). – Р. 68–82.
Vinas F. C., Zamorano L., Mueller R. A., Jiang Z., Chugani H., Fuerst D., Muzik O., Mangner T. J., Diaz F. G. [15O]-water PET and intraoperative brain mapping: a comparison in the localization of eloquent cortex // Neurol Res. – 1997, 19(6). – Р. 601–608.
Wada J., Rassmussen T. Intracarotid injection of sodium amytal for the lateralization of cerebral speech dominance: Experimental and clinical observations // J Neurosurg. – 1960, 17. – Р. 266–282.
Woydt M., Perez J., Meixensberger J., Krone A., Soerensen N., Roosen K. Intra-operative colour-duplex-sonography in the surgical management of cerebral AV-malformations // Acta Neurochir (Wien). – 1998, 140(7). – Р. 689–698.
Woydt M., Vince G. H., Krauss J., Krone A., Soerensen N., Roosen K. New ultrasound techniques and their application in neurosurgical intra-operative sonography // Neurol Res. – 2001, 23(7). – Р. 697–705.
Yamada S., Iacono R. P., Mandybur G. T., Anton R., Lonser R., Yamada S., Haugen G. Endoscopic procedures for resection of arteriovenous malformations // Surg Neurol. – 1999, 51(6). – Р. 641–649.
Young W. L., Pilc-Spellman J., Prohovnik I. Kader A. Stein B. M. Columbia University AVM Study Project. Evidence for adaptive autoregulatory displacement in hypotensive cortical territories adjacent to arteriovenous malformations // Nerosurgery. – 1994, 34. – Р. 601–611.
Young W. L., Prohovnik I., Ornstein E., Ostapkovich N., Sisti M. B., Solomon R. A., Stein B. M. The effect of arteriovenous malformation resection on cerebrovascular reactivity to carbon dioxide. – Neurosurgery. – 1990, 27. – Р. 257–267.
Zamorano L., Matter A., Saenz A., Portillo G., Diaz F. Interactive image-guided surgical resection of intracranial arteriovenous malformations // Comput Aided Surg. – 1998, 3(2). – Р. 5 7–63.
Следующая глава:
Результаты лечения и осложнения
Предыдущая глава:
Эмболизация и функциональное значение афферентных сосудов