Отбор больных и оценка результатов трансмиокардиальной лазерной реваскуляризации с помощью методов ядерной медицины

Список литературы

1. Айткожин Г. К., Исраилова В. К. Трансмиокардиальная лазерная реваскуляризация миокарда новый метод хирургического лечения больных ишемической болезнью сердца. Кардиология, 2002, 42, 1: 103 108.
2. Асланиди И.П. Комплексная оценка возможностей сцинтиграфии в определении ишемических изменений и дисфункции миокарда у больных кардиохирургического профиля. Дисс. докт., М., 2003.
3. Асланиди И.П. Радиоизотопные исследования в кардиологии и кардиохирургии. Глава в книге «Функциональная диагностика в кардиологии» под редакцией Л. А. Бокерия, Е. З. Голуховой, А. В. Иваницкого, М., 2002, 255−289.
4. Асымбекова Э.У. Диагностика и тактика лечения больных ИБС с обратимыми формами дисфункции миокарда левого желудочка. Дисс. докт., М., 1999.
5. Беленков Ю.Н. Неинвазивные методы диагностики ишемической болезни сердца. Кардиология. 1996, 1:4−11.
6. Беленков Ю.Н., Саидова М. А. Оценка жизнеспособности миокарда: клинические аспекты, методы исследования. Кардиология, 1999, 1:6−13.
7. Беришвили И.И., Сигаев И. Ю., Хелимский А. А. Трансмиокардиальная лазерная реваскуляризация миокарда. Грудная и сердечно-сосудистая хирургия, 1998, 6: 49−53.
8. Бокерия Л.А. Минимально инвазивная хирургия сердца. М., 1998.
9. Бокерия Л.А. Об итогах научно-исследовательских работ за 2001 год. Бюллетень НЦ ССХ им. А. Н. Бакулева РАМН, 2002, 10: 14−17.
10. Бокерия Л.А., Асланиди И. П., Вахромеева М. Н. и др. Однофотонная эмиссионная компьютерная томография (ОФЭКТ) с 201Т1 в оценке результатов трансмиокардиальной лазерной реваскуляризации (ТМЛР). Бюллетень НЦ ССХ им. А. Н. Бакулева РАМН, 2002, 3, 5: 37.
11. Бокерия JI.A., Асланиди И. П., Вахромеева М. Н. и др. Однофотонная эмиссионная компьютерная томография с 20, Т1 в оценке результатов изолированной трансмиокардиальной лазерной реваскуляризации. Бюллетень НЦ ССХ им. А. Н. Бакулева РАМН, 2002, 3, 7: 47−63.
12. Бокерия Л. А., Беришвили И. И., Бузиашвили Ю. И. и др. Трансмиокардиальная лазерная реваскуляризация в сочетании с аортокоронарным шунтирование в лечении больных ишемической болезнью сердца. Грудная и сердечно-сосудистая хирургия, 2001, 2: 1724.
13. Бокерия Л.А., Беришвили И. И., Бузиашвили Ю. И., Сигаев И. Ю. Трансмиокардиальная лазерная реваскуляризация, М., 2001, 107−139.
14. Бокерия Л.А., Беришвили И. И., Вахромеева М. Н. и др.1. ЛЛ 1
15. Сцинтиграфическая оценка (с Т1) результатов трансмиокардиальной лазерной реваскуляризации. Грудная и сердечно-сосудистая хирургия, 1999,6: 50−55.
16. Бокерия Л.А., Беришвили И. И., Сигаев И. Ю. и др. Результаты аутовенозной и аутоартериальной реваскуляризации миокарда у больных ишемической болезнью сердца на госпитальном этапе. Анналы хирургии, 2000, 3: 39−45.
17. Бокерия Л.А., Беришвили И. И., Сигаев И. Ю. Реваскуляризация миокарда: меняющиеся подходы и пути развития. Грудная и сердечнососудистая хирургия, 1999, 6: 102−112.
18. Бокерия Л.А., Беришвили И. И., Сигаев И. Ю. Современные тенденции и перспективы развития коронарной хирургии. Анналы хир., 1997, 4: 3145.
19. Бокерия JI.A., Борисов К. В., Бузиашвили Ю. И. и др. Трансмиокардиальная лазерная реваскуляризация первый клинический опыт в хирургическом лечении ИБС. Первая Всероссийская конференция: Минимально инвазивная хирургия сердца и сосудов. М., 1998, стр. 7.
20. Бокерия Л.А., Борисов К. В., Бузиашвили Ю. И., и соавт. Трансмиокардиальная лазерная реваскуляризация миокарда у пациентов с рецидивом стенокардии после операции аортокоронарного шунтирования. Бюллетень НЦ ССХ им. А. Н. Бакулева, 2002, 3: 40−47.
21. Бокерия Л.А., Вахромеева М. Н., Асланиди И. П. и др. Первый опыт применения позитронной эмиссионной томографии (ПЭТ) при отборе больных ИБС на трансмиокардиальную лазерную реваскуляризацию (ТМЛР). Бюллетень НЦ ССХ им. А. Н. Бакулева РАМН, 2002, 3, 5: 37.
22. Бузиашвили Ю.И., Асымбекова Э. У., Мацкеплишвили С. Т. Диагностика обратимой дисфункции миокарда у больных ишемической болезнью сердца по данным стресс-эхокардиографии. Груд, и сердечнососудистая хирургия, 1999, 6: 68−80.
23. Бузиашвили Ю.И., Асымбекова Э. У., Серов Р. А. и соавт. Клинико-морфологические особенности обратимой дисфункции миокарда левого желудочка у больных ишемической болезнью сердца. Анналы хирургии, 1999, 6: 59−57.
24. Бураковский В.И. Первые шаги. Записки кардиохирурга. Знание, М, 1988, стр. 34.
25. Бурдули Н.М. Проходимость шунтов и систолическая функция левого желудочка по данным стресс-ЭхоКГ. Грудная и сердечно-сосудистая хирургия, 2002, 1: 28−31.
26. Васюк Ю.А., Хадзегова А. Б., Ющук Е. Н. и соавт. Гибернирующий миокард и процессы ремоделирования левого желудочка. Сердечная недостаточность. 2001, 2, 4: 181−186.
27. Волженина В.Е., Долинина Е. Г., Кротова И. В., Демин А. А. ЭКГ-синхронизированная ОФЭКТ миокарда с 99шТс-технетрилом. II съезд Российского Общества Ядерной медицины. Тезисы докладов, М., 2000, стр. 18.
28. Жбанов И.В., Шабалкин Б. В. Отдаленные результаты повторного аортокоронарного шунтирования. Грудная и сердечно-сосудистая хирургия, 2000, 1: 35−37.
29. Ишенин Ю.М. Новая методика непрямой реваскуляризации миокарда желудочков сердца в эксперименте. В кн.: Актуальные вопросы реконструктивной и восстановительной хирургии. Иркутск, 1985: 144.
30. Кация Г. В. Сопоставление результатов аутовенозной и аутоартериальной реваскуляризации миокарда у больных ишемической болезнью сердца на госпитальном этапе. Дисс. канд. М., 2000.
31. Лишманов Ю.Б., Чернов В. И. Сцинтиграфия миокарда в ядерной кардиологии. Томск, 1997, стр. 104−105.
32. Облавацкая О.Г. Клиническое значение перфузионной сцинтиграфии1. ЛЛ 1миокарда с Т1 у больных ишемической болезнью сердца. Автореф. Дисс. канд., М., 1985.
33. Облавацкая О.Г. Клиническое значение перфузионной сцинтиграфии201миокарда с Т1 у больных ишемической болезнью сердца. Дисс. канд., М., 1985.
34. Паша С.П., Михеев В. Э., Сергиенко В. Б. Синхронизированная томосцинтиграфия миокарда с «тТс-МИБИ в оценке общей сократительной функции левого желудочка. Вестник рентгенологии и радиологии. 2000,1: 21−25.
35. Саидова М.А. Возможности медикаментозного и хирургического восстановления сократимости жизнеспособного миокарда у больных ИБС и ДКМП с хронической недостаточностью кровобращения. Дисс. докт., 1999.
36. Самойленко JI.E. Перфузионная сцинтиграфия миокарда в кардиологической практике. Дисс.докт., М., 1997.
37. Самойленко JI.E., Малов А. Г., Сергеенко Б. В. и соавт. Опыт применения кардиоспецифического РФП «mTc-RP-30A (кардиолит) для оценки перфузии миокарда у больных ИБС. Визуализация в клинике. 1992, 1: 13−17.
38. Самойленко Л.М., Ширяев А. А., Скридлевская Е. А. и соавт. Применение томосцинтиграфии миокарда для определения жизнеспособности миокарда у больных ишемической болезнью сердца. Вест. Рентгенол. и радиол. 1996, 6: 34−35.
39. Седов В.П., Алехин М. Н., Корнеев Н. В. Стресс-эхокардиография. М., 2002: 97.
40. Сергиенко В.Б., Сидоренко Б. А., Махмутходжаев С. А. и др. Значение сцинтиграфии миокарда с 201Т1 в диагностике ишемической болезнисердца у больных с блокадой левой ножки пучка Гиса. Кардиология, 1987, 11: 84−88.
41. Сергиенко В. Б. Самойленко JI.E., Ходарева Е. Н. и соавт. Перфузионная сцинтиграфия миокарда: взгляд через 25 лет. Практикующий врач. 1996, 15: 20−24.
42. Сигаев И.Ю., Беришвили И. И., Мерзляков В. Ю. и др. 3-й Международный Конгресс северных стран и регионов. Петрозаводск, 1999, 43−44.
43. Усов В.Ю., Чернов В. И., Лишманов Ю. Б. и соавт. Радионуклидная оценка кровоснабжения миокарда у больных, перенесших операцию кардиомиопластики. Грудная и сердечно-сосудистая хирургия, 1992, 7, 8: 36−40.
44. Филоненко Н.И. Клинико-функциональная оценка коронарного и гемодинамического резерва у больных с окклюзирующими заболеваниями аорты и магистральных артерий в предоперационном периоде. Дисс. канд., Пермь, 1991, 38.
45. Халиулин И.Г., Ущенко Д. В. Влияние кратковременных эпизодов ишемии на постишемические реперфузионные нарушения сократимости изолированного сердца крысы. Кардиология, 1996, 10: 63−67.
46. Хелимский А.А. Непосредственные и среднеотдаленные результаты трансмиокардиальной лазерной реваскуляризации у больных ИБС. Дисс. канд., М., 1999.
47. Шабалкин Б.В., Жбанов И. В., Кротовский А. П. и соавт. Расширенный подход в хирургическом лечении осложненных форм ишемической болезни сердца. Тезисы докладов II Всероссийского съезда сердечнососудистых хирургов. М., 1993, 56−57.
48. Шумаков В.И., Казаков Э. Н., Сенченко О. Р. Хирургическая тактика у больных ишемической болезнью сердца с обширными Рубцовымиизменениями миокарда и недостаточностью кровообращения. Грудная и сердечно-сосудистая хирургия, 1991, 12: 27−32.
49. Aaberge L., Aakhus S., Nordstrand К. et al. Myocardial performance after transmyocardial laser revascularization with CO2 laser. Eur. J. Echocardiography, 2001, 2: 187−196.
50. Aaberge L., Rootwelt K., Blomhoff S. et al. Continued symptomatic improvement three to five years after transmyocardial revascularization with C02 laser. JACC, 2002, 39, 10: 1588−1593.
51. Aaberge L. Nonkstrand K., Dragsund M. et al. Transmyocardial revascularization with C02 laser in patients with refractory angina pectoris. JACC, 2000,35: 5, 1170−1171.
52. Actis-Dato G.M., Hakimpour M., Bacciega M. et al. TMR and CABG: the best way to obtain a complete and a more lasting revascularization? Ann. Thorac. Surg., 2000, 69: 1993−1994.
53. Afridi I., Kleiman N.S., Raizner A.E., Zoghbi W.A. Dobutamine echocardiography in myocardial hibernation. Circulation, 1995, 91: 663−670.
54. Alderman E.L., Fisher L.D., Litwin P. et.al. Results of coronary artery bypass surgery in patients with poor left ventricular function (CASS). Circulation, 1983- 68: 785−795.
55. Allen K.B. Dowling R.D., De Rossi A.J. et al. Transmyocardial laser revascularization combined with coronary artery bypass grafting: a multicenter, blinded, prospective, randomixed, control trial. J. Thorac. Cardiovasc. Surg., 2000, 119: 540−549.
56. Allen K.B. Shaar C.J. Transmyocardial laser revascularization: surgical experience overview. Semin. Intervent. Cardiol., 2000, 5: 75−81.
57. Allen K.B., Dowling R.D., Fudge T.L. et al. Comparison of tranmyocardial revascularization with medical therapy in patients with refractory angina. N.Engl.J.Med. 1999, 341: 1029−36.
58. Allman K.C., Berry J., Sucharski L.A. et al. Determination of extent and location of coronary artery disease in patients without prior myocardial infarction by thallium-201 tomography with pharmacologic stress. J. Nucl. Med, 1992,33: 2067−2073.
59. Al-Sheikh T, Allen K. B, Straka S. P, et al. Cardiac sympathetic denervation after transmyocardial laser revascularization. Circulation, 1999- 100: 135−40.
60. Altehoefer C, J. vom Dahl M, Biedermann D. et al. Significance of defect severity in Technetium-99m-MIBI SPECT at rest to assess myocardial viability: comparison with Fluorine-18-FDG PET. J. Nucl. Med, 1994, 35: 569−574.
61. Amanullah A.M., Berman D. S, Hachamovitch R, Kiat H, Kang X, Friedman J.D. Identification of severe or extensive coronary artery disease in women by adenosine technetium-99m sestamibi SPECT. Am. J. Cardiol, 1997- 80: 132−7.
62. Ando H, Tanaka M, Hisahara M, Shirota T. Effect of coronary bypess grafting into the site of old myocardial infarction and recovery of cardiac function. Cardiovasc. Surg, 1998, 6, 5: 511−524.
63. Andreasen J.J. Transmyocardial laser revascularization. A new possible method for treatment of ichemic heart disease. Ugeskr Laeger, 1996, 158, 26: 3764−3767.
64. Armstrong W. F, O’Donnell J, Ryan T, Feigenbaum H. Effect of prior myocardial infarction and extent and location of coronary disease on accuracy of exercise echocardiography. J. Am. Coll. Cardiol, 1987- 10: 531−8.
65. Asahara Т., Murohara Т., Sullivan A., et al. Isolation of putative progenitor endothelial cells for angiogenesis. Science, 1997, 275: 964−967.
66. Baer F.M., Voth E., Schneider C.A. et al. Assessment of viable myocardium by dobutamine transesophageal echocardiography and comparison with fluorine-18-fluorodeoxyglucose positron emission tomography. J. Am. Coll. Card., 1994,24,2: 343−353.
67. Bares R., Dohmen B.M., Cremerius U. et al. Results of positron emissiontomography with fluorine-18 labeled fluorodeoxyglucose in differential diagnosis and staging of pancreatic carcinoma. Radiology, 1996, 36, 5: 435 440.
68. Bax J.J., Valkema R., Visser F.C. et al. Detection of myocardial viability with F-18-fluorodeoxyglucose and single photon emission computed tomography. G. Ital. Cardiol. 1997, 27: 1181−1186.
69. Beleslin B.D., Ostojic M., Stepanovic J. et al. Stress echocardiography in the detection of myocardial ischemia. Head-to-head comparison of exercise, dobutamine, and dipyridamole tests. Circulation, 1994, 90: 1168−76.
70. Beller G.A. Assessment of myocardial perfusion and metabolism for assessment of myocardial viability. Q. J. Nucl. Med., 1996, 40, 1: 55−67.
71. Bendel R., Kettunen R., Hartikainen J. et al. Similar effect of revascularization of technetium-99m sestamibi and 15-(p-iodophenyl) pentadecanoic acid uptake in myocardial infarction patients. Eur. J. Nucl. Med., 1999,26: 1304−1309.
72. Berger B.C., Watson D.D., Burwell L.R. et al. Redistribution of thallium at rest in patients with stable and unstable angina and the effect of coronary artery bypass surgery. Circulation, 1979, 60: 1114−1125.
73. Bergman S.R. Use and limitations of metabolic tracers labeled with positron-emitting radionuclides in the identification of viable myocardium. J. Nucl. Med., 1994, 35 (Suppl): 15S-22S.
74. Bergstrom M. Positron emission tomography in tumor diagnosis and treatment follow-up. Acta Oncologica, 1993, 32 (2): 183−188.
75. Berman D.S., Germano G. Evaluation of ventricular ejection fraction and wall motion and other parameters with gated myocardial perfusion single-photon emission computed tomography. J. Nucl. Cardiol., 1997, 4: S169-S171.
76. Berry J.J., Baker J.A., Pieper K.S. et al. The effect of metabolic milieu on cardiac PET imaging using fluorine-18-deoxyglycose and nitrogen-13-ammonia in normal volunteers. J. Nucl. Med, 1991, 32: 1518−1525.
77. Blanksma P.K., Willemsen A.T.M., Meeder J.G. et al. Quantitative myocardial mapping of perfusion and metabolism using parametric polar map displays in cardiac PET. J.Nucl.Med., 1995, 36/1: 153−158.
78. Bolli R. Mechanism of myocardial stunning. Circ., 1990, 82: 723−738.
79. Bolli R. Why myocardial stunning is clinically important? Basic Res. Cardiol, 1998,93: 169−72.
80. Bonow R.O., Dilsizian V. Thallium-201 and technetium-99m-sestamibi for assessing viable myocardium. J.Nucl.Med., 1992,33: 815−818.
81. Bonow R.O., Dilsizian V., Cuocolo A. et.al. Identification of viable miocardium in patients with chronic coronary artery disease and left ventricular disfunction. Circulation, 1991, 21, 1: 26−37.
82. Bourdillon P.D., Broderick T.M., Sawada S.G. et al. Redional wall motion index for infarct and non-infarct regions after reperfusion in acute myocardial infarction: comparison with global wall motion index. J. Am. Soc. Echocardiogr., 1989, 2: 398−408.
83. Braunwald E., Kloner R.A. The stunned myocardium: prolonged, postischemic ventricular dysfunction. Circulation, 1982, 66: 1146−1149.
84. Braunwald E., Rutherford J., Reversible ischemic left ventricular dysfunction: evidence of the hibernating myocardium. J. Am. Coll. Cardiol.1986, 8: 1467−70.
85. Brunken R., Schwaiger M., Grover-McKay M., Tilisch J., Schelbert H.R. Positrin emission tomography detects tissue metabolic activity in myocardial segments with persistent thallium perfusion defects. J. Amer. Coll. Cardiol., 1987, 10,3: 557−567.
86. Burkhoff D., Fulton R., Wharton K., Billmgham M.E., Robbms R. Myocardial perfusion through naturally occurring subendocardial channels. J. Thorac. Cardiovasc. Surg., 1997,114: 497−499.
87. Burkhoff D., Fisher P.E., Apfelbaum M., et al. Histologic apperiance of transmyocardial laser channels after 4 V-i weeks. Ann. Thorac. Surg., 1996, 61: 1532−1535.
88. Burkhoff D., Wesley M.N., Resar J.R., Lansing A.M. Factors correlating with risk of mortality after transmyocardial laser revascularization. J. Am. Coll. Cardiol., 1999, 34, 1: 55−61.
89. Burns S.M., Brown S., White C.A. et al. Quntitative analysis of myocardial perfusion changes with transmyocardial laser revascularization. Am. J. Cardiol., 2001, 87: 861−867.
90. Burns S.M., Schofield P.M., Rosen S.D. et al. Measurement of myocardial blood flow using positron emission tomography before and after transmyocardial revascularization. J. Am. Coll. Cardiol., 1998, 31 (Suppl A): 226A.
91. Burns S.M., Sharpies L.D., Tait S. et al. The transmyocardial laser revascularization: international registry report. Eur. Heart J., 1999, 20, 1:3137.
92. Camici P.G., Rosen S.D., Sprinks T.G. Positron emission tomography. Nuclear medicine in clinical diagnosis and treatment. London. Churchill-Livingstone, 1998, p.1353−1367.
93. Cerqueria M.D., Weissman N.J., Dilsizian V. et al. Standartized myocardial segmentation and nomenclature for tomographic imaging of the heart. J. Cardiovasc. Magnetic Resonanse, 2002, 42: 203−210.
94. Choi Y., Brunken R., Hawkins R. et al. Factors affecting myocardial 2-F-18.fluoro-2-deoxy-d-glucose uptake in positron emission tomography studies of normal humans. Eur. J. Nucl. Med., 1993, 20: 308−318.
95. Christian T.F., Miller T.D., Bailey K.R., Gibbons RJ. Noninvasive identification of severe coronary artery disease using exercise tomographic thallium-201 imaging. Am. J. Cardiol. 1992, 70: 14−20.
96. Chu V. F., Giaid A. et al. Angiogenesis in transmyocardial revascularization: comparison of laser versus mechanical punctures. Ann. Thorac. Surg., 1999, 68: 301−308.
97. Coats A.J. Myocardial revascularization: the search for the Holy Grail. Int. J. Cardiology, 2000, 73: 1−2.
98. Colley D.A., Frazier O.H., Kadipasaoglu K.A. et al. Transmyocardial laser revascularization: clinical experience with twelve-month follow-up. J. Thorac. Cardiovasc. Surg., 1996, 111: 791−799.
99. Collins-Nakai R.L., Noseworthy D., Lopaschuk G.D. Epinephrine increases ATP production in hearts by preferentially increasing glucose metabolism. Am. J. Physiol., 1994, 267: H1862-H1871.
100. Cooke R., Boyce S.W., Aranki S. et al. Myocardial perfusion imaging following transmyocardial laser revascularization. Presented at the Amer. Coll. of Cardiol. 46th Ann. Scientific Session, Anaheim, California, 1997.
101. Cooley D.A., Angelini P., Shannon R.L. et al. Transmyocardial laser revascularization. Anatomic evidence of long-term channel patency. Tex. Heart. Inst. J., 1994, 21, (3): 220−224.
102. Cooley D.A., Frazier O.H., Kadipasaoglu R.A. et al. Transmyocardial laser revascularization. Anatomic evidence of long-term channel patency. Texas Heart Inst. J., 1994, 21,3: 220−224.
103. Cooley D.A., Frazier O.H., Kadipasaoglu R.A. et al. Transmyocardial revascularization: clinical experience with twelve month follow-up. J. Thorac. Cardiovasc. Surg., 1996, 111: 791−979.
104. Cooper G. The fate of venous and arterial grafts: can outcome be modifield? In 13-th Annual Meeting of Eur. Association for Cardio-Thoracic Surg., Glasgow, 1999, p. 10.
105. Corrales G, Garcia-Rubbira J. C, Font J.I. et al. Transmyocardial laser revascularization with holmium laser. Cardiology, 1998, 90: 187−194.
106. De Carlo M, Milano A. D, Pratali S. et al. Symptomatic improvement after transmyocardial laser revascularization: how long does it last? Ann. Thorac. Surg, 2000, 70: 1130−1133.
107. DeGuzman B. J, Cohn L. H, Horvath K. A, Ahmad R. M, Laurence R. G, Chen F. Y, Lautz D.B. Thoracoscopic transmyocardial laser revascularization. Ann. Thorac. Surg, 1997, 64, 1: 171−174.
108. Dennis S. C, Gevers W, Opie L.H. Protons in ischemia: where do they come from, where do they go to? J. Mol. Cell. Cardiol, 1991, 23: 10 771 086.
109. DePasquale E. E, Nody A. C, DePuey E.G. et al. Quantitative rotational thallium-201 tomography for identifying and localizing coronary artery disease. Circulation, 1988, 77: 316−27.
110. Deutsch E, Clavan K. A, Sodd V.I. et al. Cationic Tc-99m complex as potential myocardial agents. J.Nucl.Med, 1981, 22: 897−907.
111. Dey H. M, Soufer R. Reverse redistribution on planar thallium scintigraphy: relationship to rest thallium uptake and long-term outcome. Eur. J. Nucl. Med, 1995,22: 237−242.
112. Diegeler A. et al. Transmyocardial revascularization TMLR using the Holium-Yag laser. World Congress on Minimally Invasive Cardiac Surgery. Paris, France, 1997.
113. Diegeler A., Schneider J., Lauer B. et al. Transmyocardial laser revascularization using the holmium: YAG laser for treatment of end-stage coronary artery disease. Eur. J. Cardiothorac. Surg., 1998, 13: 392−397.
114. Dilsizian V., Bonow R.O. Current diagnostic techniques of assign myocardial viability in hibernating and stunned myocardium. Circulation, 1993, 87: 1−20.
115. Dilsizian V., Rocco T.P., Fredman N.M.T., Leon M.B., Bonow R.O. Enhanced detection of ischemic but viable myocardium by the reinjection of thallium after stress-redistribution imagine. N. Engl. J. Med., 1990, 323: 141−146.
116. Donovan C.L., Landolfo K. P, Lowe J.E. Improvement in inducible ischemia during dobutamine stress echocardiography after transmyocardial laser revascularization in patients with refractory angina pectoris. J. Am. Coll. Cardiol., 1997,30: 607−612.
117. Du Toit J, Opie L.H. Modulation of severity of reperfusion stunning in the isolated rat heart by agents altering calcium flux at onset of reperfusion. Circ. Res, 1992, 70: 960−967.
118. Edmond M., Mock M. В., Davis К. B. et.al. Long-term survival of medically-treated patients in the Coronary Artery Surgery Study (CASS) registry. Circulation, 1994, 90: 2645−2657.
119. Eitzman D., Al-Aouar Z., Kanter H.W. et al. Clinical outcome of patients with advanced coronary artery disease after viability studies with positron emission tomography. J. Am. Coll.Cardiol., 1992, 20:.559−565.
120. Elefteriades J.A., Tolis G.Jr., Levi E. et al. Coronary artery bypass grafting in severe left ventricular dysfunction: excellent survival with improved ejection fraction and functional state. J. Am. Coll. Cardiol., 1993, 22: 14 111 417.
121. Fallavollita J.A., Logue M., Canty J.M. Coronary patency and its relation to contractile reserve in hibernating myocardium. Cardiovasc. Research, 2002, 55: 131−140.
122. Ferrari R., Cargononi A., Bernocchi P. et al. Metabolic adaptation during a sequence of no-flow and low-flow ischemia. Apossible trigger for hibernation. Circulation, 1996, 94: 2587- 96.
123. Khomoto T. Histologic analysis of transmyocardial channels: comparison of C02 and holmium: YAG lasers. Ann. Thorac. Surg., 1997, 64, 2: 466−472.
124. Flameng W., Schwarz F., Hehrlem F., Boel A. Functional significance of coronary collaterals in man. Basic Res. Cardiol., 1978, 73: 188−199.
125. Fleischer K.J., Baumgartner W.A., Hruban R.H., Hutchins G.M., Fongerj
126. J.D., Goldschmidt-Clermont P.J. One-month histologic response of transmyocardial laser channels with molecular intervention. Ann. Thorac. Surg., 1996,62, 4: 1051−1058.
127. Fleischmann K.E., Hunink M.G., Kuntz K.M., Douglas P. S. Exercise echocardiography or exercise SPECT imaging: a meta-analysis of diagnostic test performance. JAMA, 1998, 280: 913−921.
128. Frangogionnis N.G., Shimoni S., Chang S.M., Ren G. et al. Active interstitial remodeling: an important process in the hibernating human myocardium. JACC, 2002, 39 (9): 1468−1474.
129. Frazier O.H., Cooley D.A., Kadipasaglu K.A. et al. Transmyocardial revascularization: Initial clinical results. Circulation, 1994, 90, 2, I, 640: i1.3444.pi
130. Frazier O.H., Cooley D.A., Kadipasaglu K.A. et al. Transmyocardial1 revascularization with laser: Preliminary findings. Circulation, 1995, 92,1. Suppl. II): 58−65.
131. Frazier O.H., March R.J., Horvath K.A. Transmyocardial revascularizationiwith a carbon dioxide laser in patients with end-stage coronary artery ^ disease. N.Engl. J. Med., 1999, 341: 1021−1028.
132. Frazier O.H., Kadipasaoglu K.A., Radovancevic B, Cihan H.B., March R.J., Mirhosemi M., Cooley D.A. Transmyocardiai laser revasculanzation in allograft coronary artery disease. Ann. Thorac. Surg., 1998, 65: 1138−1141.
133. Friedman J., Van Trian K., Maddahi J. et al. «Upward creep» of the heart: a frequent sourse of false-positive reversible defects during thallium-201 stress-redistribution SPECT. J. Nucl. Med., 1989, 30: 1718−1722.
134. Fukuyama Т., Ashikara Т., Ando H. et al. Delyed recovery from myocardial ischemia associated with stunned myocardium. 12-th World Congress of Cardiology, Berlin, 1994, p. 1019.1 ft
135. Gambhir S.S., Schwaiger M., Huang S.C. et.al. Simple noninvasive quantification method for measuring myocardial glucose utilization in humans employing positron emission tomography and Fluorine-18-Deoxyglucose. J. Nucl. Med., 1989, 30, 3: 359−366.
136. Gassier N., Wintzer H.O., Stubbe H.M. et al. Transmyocardial laser revascularization. Histological features in human nonresponder myocardium. Circulation, 1997, 95: 371−375.
137. Germano G., Kavanagh P.B., Berman D.S. An automatic approach to the analysis, quantitation and review of perfusion and function from myocardial perfusion SPECT images. Int. J. Cardiac. Imaging, 1997, 13: 337−346.
138. Germano G., Kiat H., Kavanagh B. et al. Automatic quantification of ejection fraction from gated myocardial perfusion SPECT. J. Nucl. Med. 1995,36: 2138−47.
139. Gewirtz H. Pathophysiology of chronic myocardial hibernation letter- comment., Circulation, 1997, 96: 1052−1053.
140. Gewirtz H., O’Keefe D.D., Pohost G.M. et al. The effect of ischemia of thallium 201 clearence from the myocardium. Circulation, 1978, 58: 216 219.
141. Gibbons R.J., Chatterjee К., Daley J. et al. ACC/AHA/ACP ASIM Guidelines for the Management of patients with chronic stable Angina. JACC, 1999, 33, 7: 2092−2197.
142. Gibson R.S., Beller G.A. Should exercise electrocardiographic testing be replaced by radioscope methods? Rahimtoola SH, Brest AN, eds. Controversies in Coronary Artery Disease, Philadelphia, FA Davis, 1983, p.1−31.
143. Gioia G., Milan E., Giubbini R. et al. Prognostic value of tomographic rest-redistribution thallium-201 imaging in medically treated patients with coronary artery disease and left ventricular dysfunction. J.Nucl.Cardiol., 1996,3: 150−156.
144. Goda Т., Loisance D., Vouron J., Leandri J., Gaston A., Wierzbicki Z. Myocardial revascularization by C02 laser. Eur. Surg. Res., 1987, 19 (2): 113−117.
145. Grandin C., Wiyns W., Melin J. A. et al. Delineation of myocardial viability by PET. J. Nucl.Med., 1995, 36, 9: 1543−1552.
146. Gropler R.J., Geltman E.M., Sampathkumaran K. et al. Comparison of carbon-11-acetate with fluorine-18-deoxyglucose for delineating viable myocardium by positron emission tomography. J. Am. Coll. Cardiol., 1993, 22: 1587−1597.
147. Gropler R.J., Geltman E.M., Sampathkumaran K. et al. Functional recovery after coronary revascularization for chronic coronary artery disease in dependent on maintenance of oxidative metabolism. J. Am. Coll. Cardiol., 1992, 20: 569−577.
148. Gropler R.J., Siegel B.A., Lee K.J. et al. Nonuniformity in myocardial accumulation of fluorine-18-fIuorodeoxyglucose in normal fasted humans. J. Nucl. Med., 1990, 31: 1749−1756.
149. Gunning M.G., Chua T. P, Harrington D. et al. Hibernating myocardium: clinical and functional response to revascularisation. Eur. J. Cardiothorac. Surg, 1997, 11: 1105−1112.
150. Gunning M. G, Kaprielan R. R, Pepper J. et al. The histology of viable and hibernating myocardium in relation to imaging characteristics. J. Am. Coll. Cardiology, 2002, 39, 3: 428−435.
151. Haas F, Jennen L, Heinzmann U. et al. Ischemically compromised myocardium displays different time-sourses of functional recovery: correlation with morphological alternations? Eur. J. Cardio-thorac. Surg, 2001,20: 290−291.
152. Hakimi M, Buchert R, Aybek T. et al. Ergebnisse der transmyokardialen Laser-revaskularisation nach 12 Monaten: Directe Quantifizeirung des myokardialen Flusses und der Coronarreserve mittels 13NH3 PET. Nuklearmedizin, 1997, p. 36: A28.
153. Hamacher K, Coenen H. H, Stoecklin G. Efficient Stereospeciflc Synthesis of No-carrier-added 2-18 °F.-Fluoro-2-Deoxy-D-Glucose Using Aminopolyether Supported Nucleophilic Substitution. J. Nucl. Med, 1986, 27: 235−238.
154. Hansford R. G, Cohen L. Relative importance of pyruvate dehydrogenase interconversion and feedback inhibition in the effect of fatty acids on pyruvate oxidation by rat heart mitochondria. Arch. Biochem. Biophys, 1978, 191:65−81.
155. Hardy R. I, Goldman L, Kaplan S, James F. W, Bove K.E. A histologic study of laser-induced transmyocardial channels. Lasers. Surg. Med, 1987, 6, 6: 563−573.
156. Hardy R. I, Kaplan S, Millard R. W, James F.W. Regional myocardial blood flow and cardiac mechanics in dog hearts with C02 laser-induced intramyocardial revascularization. Basic. Res. Cardiol, 1990, 85, 2: 179 197.
157. Hartman R. A, Whittaker P. The physics of transmyocardial laser revasculanzation. J. CI. Laser. Med. Surg, 1997, 15: 255−259.
158. Haverich A. Beating heart surgery. 13-th Annual Meeting of Eur. Association for Cardio-Thoracic Surg, Glasgow, 1999, p. 14−15.
159. He Z. X, Iscandrian A. S, Gupta N.C. et al. Assessing coronary artery disease with dipyridamole technetium-99m-tetrofosmin SPECT: a multicenter trial. J.Nucl.Med, 1997, 38 (1): 44−48.
160. Hearse D.J. Stunning: a radical review. Cardiovasc. Drugs. Ther, 1991, 5: 853−876.
161. Hearse J.D. Myocardial ischemia: can we agree on a definition for the 21st century? Cardiovascular Res, 1994,28: 1737−1744.
162. Hecht H. S, DeBord L, Shaw R. et al. Digital supine bicycle stress echocardiography: a new technique for evaluating coronary artery disease. J. Am. Coll. Cardiol, 1993, 21: 950−956.
163. Hendel R. C, Henry T. D, Rocha-Singh K. et al. Effect of intracoronary recombinant human vascular endothelial growth factor on myocardial perfusion: evidence for a dose-depentend effect. Circulation, 2000, 101: 11 821.
164. Heusch G, Schulz. Hibernating myocardium: a review. Transmyocardial laser revascularization. Eds. M. Klein, H.D.Schulte, E. Gams, Berlin, Springer, 1998, p. 11−31.
165. Heyndrickx G. R, Millard R. W, McRitchie R.J. et al. Regional myocardial functional and electrophysiological alterations after brief coronary artery occlusion in conscious dogs. J.Clin. Invest, 1975, 56: 978−985.
166. Higuchi Т., Nakajima К., Taki J. Assessment of regional myocardial function by ECG-gated myocardial SPECT. Kaki Igaku, 1999, 36, 5: 445 451.
167. Hirsch G.M., Thompson G.W., Arora R.C. et al. Transmyocardial laser revascularization does not denervate the canine heart. Ann. Thoxac. Surg., 1999, 68: 460−468.
168. Holman B.L., Jones A.G., Lister-James J. et al. A new Tc-99m-labeled myocardial imaging agent, Hexakis (t-Butylisonitrile)-Technetium (Tc-99m-TBI): initial experience in the human. J.Nucl.Med., 1991, 34: 30−38.
169. Horvath K. A., Mannting F., Cummings N. et al. Transmyocardial laser revascularization: operative technics and clinical results of two years. J. Thorac. Cardiovasc. Surg., 1996, III: 1047−1053.
170. Horvath K.A., Cohn L.H., Appleyard R.F., Schoen F.J., Laurence R.G., Smith W.J. Recovery and viability of an acute myocardial infarct after transmyocardial laser revascularization. J. Am. Coll. Cardiol., 1995, 25, 1: 258−263.
171. Horvath K.A., Green R., Belkind N. et al. Left ventricular functional improvement after transmyocardial laser revascularization. Ann. Thorac. Surg., 1998,66,3: 721−725.
172. Hovarth K.A., Belkind N., Wu I. et al. Functional comparison of transmyocardial laser revascularization by mechanical and laser means. Ann. Thorac. Surg, 2001, 72: 1997−2002.
173. Hughes C, Biswas S. S, Yin B. et al. A comparison of mechanical and laser transmyocardial revascularization for induction of angiogenesis and arteriogenesis in chronically ischemic myocardium. JACC, 2002, 39, 7: 1220−1228.
174. Hughes G.C., Donovan C.L., Lowe J.E., Landolfo K.P. Combined TMR and Mitral Valve Replacement via Left Thoracotomy. Ann. Thorac. Surg., 1998,. 65,4: 1141−42.
175. Hughes G.C., Abdel-aleem S., Biswas S.S. et al. Transmyocardial laser revascularization: experimental and clinical results. Can. J. Cardiol., 1999, 15:797−806.
176. Hughes G.S. Cellular models of hibernating myocardium: implications for future research. Cardiovasc. Res., 2001, 51: 191−193.1 ft
177. Ido Т., Wan C.N., Fowler J.S. et al. Fluorination with F a convenient synthesis of 2-deoxy-fluoro-D-glucose. J. Org. Chem., 1977, 42: 2341−2342.
178. Iegaden O., Bontemps L., de Devigney G. et al. Two-year assessment by exercise thallium scintigraphy of myocardial revascularization using bilateral internal mammary and gastroepeploic arteries. Eur. J. Cardio-Thorac. Surg., 1999, 16,2: 131−134.
179. Iida H., Eberl S. Quantitative assessment of regional myocardial blood flow with thallium-201 and SPECT. J. Nucl. Cardiol., 1998, 5, 3: 313−331.
180. Ikonomidis I., Athanassopoulos G., Karatasakis G. et al. Dispersion of ventricular repolarization is determined by the presence of myocardial viability in patients with old myocardial infarction. Eur. Heart J., 2000, 21: 446−456.
181. Iskandrian A.E., Acio E. Methodology of a novel myocardial viability protocol. J. Nucl. Cardiol., 1998, 5: 206−209.
182. Iskandrian A.S., Heo J., Askenase A. et al. Thallium imaging with single photon emission computed tomography. Am. Heart J., 1987, 114: 852−865.
183. Iskandrian A.S., Heo J., Shelbert H.R. Myocardial viability: methods of assessment and clinical relevance. Am. Heart J. 1996, 132: 1226−35.
184. Iskandrian A.E., Heo J., Nallamothu N. Detection of coronary artery disease in women with use of stress single-photon emission computed tomography myocardial perfusion imaging. J. Nucl. Cardiol., 1997, 4: 32 935.
185. Iskandrian A.S., Heo J., Kong В., Lyons E. Effect of exercise level on the ability of thallium-201 tomographic imaging in detecting coronary artery disease: analysis of 461 patients. J. Am. Coll. Cardiol., 1989, 14: 147 786.
186. Iskandrian A.S., Heo J., Lemlek J. et al. Identification of high-risk patients with left main and three-vessel coronary artery disease by adenosine-single photon emission computed tomographic thallium imaging. Am. Heart J., 1993, 125: 1130−5.
187. Jansen E.D., Frenz M., Kadipasaoglu K.A., PfeferT.J., Altermatt H.J., Motamedi M., Welch A.J. Laser-tissue interaction during transmyocardial laser revasculanzation. Ann. Thorac. Surg., 1997, 63: 640−647.
188. Jeevanandam V., Auteri J.S., Oz M.C., Watkins J.F., Rose E., Smith C.R. Myocardial revascularization by laser induced channels. Surg. Forum., 1991, 41: 225−227.
189. Jones S., Hendel R.C. Technetium-99m-tetrafosmin: a new myocardial perfusion agent. J.Nucl.Med.Technol., 1993, 21: 191−195.
190. Kadipasaoglu K. A., Sartori M., Masai Т., Cihan H. В., Clubb F. J., Conger J. L., Frazier О. H. Intraoperative arrhythmias and tissue damage during transmyocardial laser revascularization. Ann. Thorac. Surg., 1999, 67 (2): 423−431.
191. Kauden D.S., Sigal S., Soufer R. et al. Thallium-201 for assessment of mtocardial viability: quantitative comparison of 24-hour redistribution imaging with imaging after reinjection at rest. JACC, 1991, 18: 1480−1486.
192. Kaul S. Technical, economic, interpretative, and outcomes issues regarding utilization of cardiac imaging techniques in patients with known or suspected coronary artery disease. Am. J. Cardiol., 1995, 75: 18D-24D.
193. Khattar R.S., Hendel R.C., Crawley J.C.W. et al. Improved diagnostic accuracy of planar imaging with technetium 99m-labeled tetrofosmin compared with thallium-201 for the detection of coronary artery disease. J. Nucl. Cardiol., 1997, 4: 291−296.
194. Kida M., Fujiwara H., Uegita T. et al. Dobutamine prevents both myocardial stunning and phosphocreatine overshoot without affecting ATP level. J. Mol. Cell. Cardiol, 1993, 25: 875−885.
195. Kim C.B., Oesterle S.N., Kernoff R, Billingham M.E., Walton A. S, Hayase M, Javier M, Kesten R. Percutaneous method of laser transmyocardial revascularization. Cathet. Cardiovasc. Diagn, 1997, 40 (2): 223−228.
196. King L. M, Opie L.H. Glucose and glycogen utilization in myocardial ischemia changes in metabolism and consequences for the myocyte. Mol. Cell. Biochem, 1998, 180: 3−26.
197. Klein M, Dauben H. P, Schulte H.D. Transmyocardial laser revascularization in patients with end-state coronary artery disease. Cardiovasc. Surg, 1996, 4 (Suppl. I): 15.
198. Kloner R. A, Allen J, Cox T.A. et al. Stunning left ventricular myocardium after exercise tredmill testing in coronary artery desiase. Am. J. Cardiol, 1991,68:329−334.
199. Kloner R. A, Przyklenk K, Patel B.S. Altered myocardial states. The stunned and hibernating myocardium. Am. J. Med, 1989, 86, Suppl. 1 A: 1422.
200. Kluge R, Lauer B, Stahl F. et al. Changes in myocardial perfusion after catheter-based percutaneous laser revascularization. Eur. J. Nucl. Med, 2000, 27: 1292−1299.
201. Knuuti M. J, Maki M, Yki-Jarvinen H. et al. The effect of insulin and FFA on myocardial glucose uptake. J. Mol. Cell. Cardiol, 1995, 27, 7: 13 591 367.
202. Knuuti MJ, Nuutila P, Ruotsalainen U. et al. Euglycemic and hyperinsulinemic clamp and oral glucose load in stimulating glucosemyocardial utilization during positron emission tomography. J. Nucl. Med, 1992, 33: 1255−1262.
203. Knuuti M. J, Saraste M, Nuutila P. et al. Myocardial viability: 18F-FDG PET in prediction of wall motion recovery after revascularization. Am. Heart J, 1994, 127: 784−796.
204. Koch R, Lang R. M, Garcia M.J. et al. Objective evaluation of regional left ventricular wall motion during dobutamine stress echocardiographic studies using segmental analysis of color kinesis images. J. Amer. Coll. Cardiol, 1999, 34, 2:409−419.
205. Kohmoto T, Fisher P. E, Gu A, Zhu S. M, De Rosa C. M, Smii C. R, Burkhoff D. Physiology, histology, and 2-week morphology of acute transmyocardial channels made with CO2 laser. Ann. Thorac. Surg, 1997, 63: 1275−1283.
206. Kohmoto T, Burkhoff D, Smith C. R, Spotnitz H. M, Yano O. J, Zhu S. M, Gu A, Fisher P.E. Does blood flow through holmium: YAG transmyocardial laser channels? Ann. Thorac. Surg, 1996, 61,3: 861−868.
207. Kohmoto T, De Rosa C, Yamamoto N. et al. Evidence of vascular growth associated with laser treatment of normal canine myocardium. Ann. Thorac. Surg, 1998, 65: 1360−1367.
208. Kraatz E.G., Misfeld M, Jungbluth B. et al. Survival after transmyocardial laser revascularization in relation to nonlasered myocardial zones. Ann. Thorac. Surg, 2001, 71: 532−536.
209. Krabatsch T, Schaper F, Leder C. et al. Histologic findings after transmyocardial laser revascularization. J. Card. Surg, 1996, 11: 326−331.
210. Krabatsch Th, Modersohn D, Konertz W, Hetzer R. Acute changes in functional and metabolic parameters following transmyocardial laser revascularization: an experimental study. Ann. Thorac. Cardiovasc. Surg, 2000, 6, 6: 383−388.
211. Krabatsch Th, Tambeur L, Lieback E. et al. Transmyocardial laser revascularization in the treatment of end-stage coronary artery disease. Ann. Thorac. Cardiovasc. Surg, 1998, 4, 2:64−71.
212. Kruse T, Maisch B, Bethge C, Moosdorf R, Hoffken H. Transmyocardial laser revascularization and rehabilitation. Herz, 1997, 22, 4: 211−216.
213. Kwong K. F, Kanellopoulos G. K, Nickols J. C, Pogwizd S. M, Saffitz J. E, Schuessler R.B. et al. Transmyocardiai laser treatment denervates canine myocardium. J. Thorac. Cardiovasc. Surg, 1997, 114: 883−890.
214. Landoflo C. K, Landoflo K. P, Hughes G.C. et al. Intermediate-term clinical outcome following transmyocardial laser revascularization in parients with refractory angina pectoris. Circulation, 1999, 100, II: 128−133.
215. Lansing A. M. Transmyocardial laser revascularization. (Correspondence). Lancet, 1999,353: 1705.
216. Lansing A.M. Transmyocardial laser revascularization. Ann. Thorac. Surg, 2000, 70: 1763.
217. Lansing A.M. Transmyocardial revascularization: mechanism of action with carbon dioxide and holmium-yttrium-aluminium-garnet lasers. J. Thorac. Cardiovasc. Surg, 1998, 115: 1392.
218. Lauer B, Junghans U, Stahyl F, Kluge R» Oesterle S. N, Schuler G.C. Catheter-based percutaneous myocardial revascularization in patients with end-stage coronary artery disease. J.Am. Coll. Cardiol, 1999, 34: 1663−70.
219. Le Helloco A, Devillers A, Brut A. et al. Assessment of myocardial ischemia with exercise test coupled with dipyridamole in patients with recent myocardial infarction. 12-th World Congress of Cardiology, Berlin, 1994, p. 843.
220. Lee L, Patel S. R, Hackett N.R. Focal angiogen therapy using transmyocardial delivery of an adenovirus vector coding for vascular endothelial growth factor 121. Ann. Thorac. Surg, 2000, 69, 1: 14−24.
221. Leppo J. A, Meerdink D.J. Comparative myocardial extraction of two technetium-labeled BATO derivatives (SQ30317, SQ32014) and thallium. Ibid, 1990,31:67−74.
222. Lerch R. Визуализация метаболических процессов: эффективный метод диагностики? Сердце и метаболизм, 2002, 8: 1−2.
223. Liu B, El Alaoui-Talibi Z, Clanachan A. S, Schulz R, Lopaschuk G.D. Uncoupling of contractile function from mitochondrial TCA cycle activity and MV02 during reperfusion of ischemic hearts. Am. J. Physiol, 1996, 270: H72-H80.
224. Liu P, Kies M. C, Orada R.D. et al. The persistent defect on exercise thallium imaging and it’s fate after myocardial revascularization: Does it represent scar or ischemia? Am. Heart J, 1985, 110: 996.
225. Livni E, Elmaleh D. R, Levy S, Brownell G. L, Strauss H.W. Beta-methyl l-nC.heptadecanoic acid: a new metabolic tracer for positron emission tomography. J. Nucl .Med, 1982, 23: 169−175.
226. Lopaschuk G. D, Belke D. D, Gamble J, Itoi T, Schonekess B.O. Regulation of fatty acid oxidation in the mammalian heart in health and disease. Biochem. Biophys. Act, 1994, 1213: 263−276.
227. Lui В., Clanachan A.S., Schulz R. et al. Cardiac efficiency is improved after ischemia by altering both the source and fate of protons. Circulation Research, 1996, 79: 940−948.
228. Luotolahti M., Saraste M., Hartiala J. Exercise echocardiography in the diagnosis of coronary artery disease. Ann. Med., 1996, 28: 73−77.
229. Lutter G., Frey M., Saurbier В., Nitzsche E., Hoegerle S. et al. Treatment strategies in therapy refractory angina pectoris: transmyocardial laser revascularization. Z. Kardiol., 1998, 87 (Suppl 2): 199−202.
230. Lutter G., Martin J., Dern P. et al. Evalution of indirect revascularization method after 3 months chronic myocardial ischemia. Eur. J. Cardiothorac. Surg., 2000, 18:38−45.
231. Machulla H., Marsmann M., Dutschka K. Biochemical concept and synthesis of a radioiodinated phenyl fatty acid for in vivo metabolic studies of the myocardium. Eur. J. Nucl. Med., 1980, 5: 171−173.
232. Mack C. A., Patel S. R., Rosengart Т.К. Myocardial angiogenesis as a possible mechanism for TMLR efficacy. J. Clin. Laser. Med. Surg., 1997, 15 (6): 275−279.
233. Maddahi J, Roy L, Van Train K. et al. The finst United States experience in normal human myocardial imaging with Tc-99m-metoxyisobutyl (RP-30A). Clin. Nucl. Med, 1986, 11: 17.
234. Maddahi J, Schelbert H. R, Brunken R. et.al. Roles of thallium-201 and PET imaging in evaluation of myocardial viability and management of patients. J .Nucl. Med, 1994, 35: 707−15.
235. Magrina J, Josa M, Muxi A. et al. Improvement of myocardial perfusion after myocardial laser revascularization. Rev. Esp. Cardiol, 1999, 52, 6: 437.
236. Mahmarian J. J, Boyce T. M, Goldberg R. K, Cocanougher M. K, Roberts R, Verani M.S. Quantitative exercise thallium-201 single photon emission computed tomography for the enhanced diagnosis of ischemic heart disease. J. Am. Coll. Cardiol, 1990, 15: 318−29.
237. Maisch B, Funck R, Schunian U, Moosdorf R. Indications for transmyocardial laser therapy. Z. Kardiol, 1996, 85 (Suppl. 6): 269−279.
238. Maki M, Luotolahti M, Nuutila P. et al. Glucose uptake in chronically dysfunctional but viable myocardium. Circulation, 1996, 93, 9: 1658−1666.
239. Mallekan R, Reynolds C, Narula N. et al. Angiogenesis after transmyocardial laser revascularization. A nonspecific response to injury. Circulation, 1998 (Suppl. 1): 1162−1165.
240. March R.J. Transmyocardial laser revascularization with the C02 laser: one year results of a randomized, controlled trial. Semin. Thorac. Cardiovasc. Surg, 1999, 11: 12−18.
241. March R. J, Guynn T. Cardiac allograft vasculopathy. The potential role for transmyocardial laser revasculanzation. J. Heart Lung Transplant, 1995, 14: 5242−246.
242. Marcovitz P. A, Armstrong W.F. Accuracy of dobutamine stress echocardiography in detecting coronary artery disease. Am. J. Cardiol, 1992, 69: 1269−73.
243. Marshall R. S, Tilisch J. H, Phelps M.E. et al. Identification and differentiation of resting myocardial ischemia and infarction in man with positron emission tomography, 18-F-labeled fluorodeoxyglucose, and N-13-ammonia. Circulation, 1983, 67: 766−778.
244. Marwick Т.Н., Anderson T, Williams M.J. et al. Exercise echocardiography is an accurate and cost-efficient technique for detection of coronary artery disease in women. J.Am. Coll. Cardiol, 1995, 26: 335−41.
245. Marwick Т.Н., Nemec J. J, Pashkow F. J, Stewart W. J, Salcedo E.E. Accuracy and limitations of exercise echocardiography in a routine clinical setting. J. Am. Coll. Cardiol, 1992, 19: 74−81.
246. Marwick Т.Н., Torelli J, Harjai K. et al. Influence of left ventricular hypertrophy on detection of coronary artery disease using exercise echocardiography. J. Am. Coll. Cardiol, 1995, 26: 1180−1186.
247. Maublant J, Cassasgnes J, Jourde M. et al. Myocardial emission tomography with thallium-201. Eur. J. Nucl. Med, 1981, 6: 289−294.
248. McFadden P.M., Robbms R. J, Ochsner J. L, Van Meter C. H, Majorie S. Transmyocardiai revasculanzation for cardiac transplantation allograft vasculopathy. J. Thorac. Cardiovasc. Surg, 1998, 115: 1385−1388.
249. McGhie A. I, Weyman A. Searching for hibernating myocardium. Time to reevaluate investigative strategies? Circulation, 1996, Decl, 94 (11): 2685−8.
250. Meluzin J, Cigarroa C. G, Brickner E. et al. Dobutamine echocardiography in predicting improvement in global left ventricular systolic function after bypass or angioplasty in patients with healed myocardial infarction. Am. J. Cardiol, 1999, 76:877−886.
251. Milano A, Pratali S, Tartarmi G, Mariotti R, De Carlo M, Paterni G, Bom G, Bortolotti U. Early results of transmyocardial revasculanzation with a holmium laser. Ann. Thorac. Surg, 1998, 65 (3): 700−704.
252. Milano A, Bortolotti U, Pietrabissa A. Transmyocardial laser revascularization using a thoracoscopic approach. Am. J. Cardiol, 1997, 80, 4: 538−539.
253. Minisi A. J, Topas O, Quinn S. et al. Cardiac nociceptive reflexes after transmyocardial laser revascularization: implications for the neural hypothesis of angina relief. J. Thorac. Cardiovasc. Surg, 2001, 122: 712 719.
254. Mirhoseini M. Laser applications in thoracic and cardiovascular surgery. Med. Instrum., 1983, 17, 6: 401−403.
255. Mirhoseini M, Cayton M. Revascularization of the heart by laser. J. Microsurg, 1981, 2: 253−260.
256. Mirhoseini M, Cayton M.M. Transmyocardial laser revascularization: historical background and future derections. J.Clin. Laser. Med. Surg, 1997, 15,6: 245−253.
257. Mirhoseini M, Cayton M. M, Muckerheide M. Transventricular revascularization by laser. Lasers. Surg. Med, 1982, 2 (2): 187−198.
258. Mirhoseini M, Fisher J. C, Shelgikar S, Cayton M.M. Laser myocardial revascularization. Lasers. Surg. Med, 1986, 6, 5: 459−461.
259. Mirhoseini M, Shelgikar S, Cayton M.M. New conceprs in revascularization of the myocardium. Ann. Thorac. Surg, 1988, 45: 415 420.
260. Misfeld M, Szabo K, Kreatz E.G. et al. Electron-microscopic findings after transmyocardial laser revascularization in on acute ischemic pig model. Eur. J. Cardio-Thorac. Surg, 1998, 19: 398−403.
261. Mohiuddin S. M, Ravage C. K, Esterbrooks D. J, Lucas B.D.Jr, Hilleman D.E. The comparative safety and diagnostic accuracy of adenosine myocardial perfusion imaging in women versus men. Pharmacotherapy, 1996, 16: 646−651.
262. Monti L. D, Lucignani G, Landolini C. et al. Myocardial glucose uptake evaluated by positron emission tomography and fluorodeoxyglucose during hyperglycemic clamp in IDDM patients. Diabetes, 1995, 44: 537−542.
263. Moosdorf R. Transmyocardial revascularization. Z. Kardiol, 1997, 86 (Suppl. 1): 115−124.
264. Moosdorf R, Maisch B, Hoffken H. Transmyokardiale Laser-revaskularisation Grenzen und Moglichkeiten. Z. Kardiol, 1996, 85 (Suppl. 6): 281−285.
265. Мог T, Minamiji K, Kurogane H. et al. Rest-injection thallium-201 imaging for assessing viability of severe asynergic regions. J.Nucl.Med, 1991, 32: 1718−1724.
266. Murry C. E, Richard V. J, Reimer K.A. et al. Ischemic precondicioning slows energy metabolism and delays ultrastructural damage during a sustained ischemic episode. Circ. Res, 1990, 66: 913−931.
267. Murry C. E, Jennings R. B, Reimer K.A. Preconditioning with ischemia: a delay of lethal cell injury in ischemic myocardium. Circulation, 1986, Nov, 74 (5): 1124−36.
268. Naegele H, Kalmar P, Lubeck E. et al. Transmyocardial laser revascularization as therapeutic option for end-stage coronary artery disease. Eur. Heart J, 1996, 17, (Abstr. Suppl.): 804.
269. Nagele H, Stubbe H. M, Nienaber C, Rodiger W. Results of transmyocardial laser revascularization in non-revascularizable coronary artery disease after 3 years follow-up. Eur. Heart. J, 1998, 19: 1525−30.
270. Nagele H, Kalmar P, Lubeck M. et al. Transmyokardiale Laser-revaskularisation Behandlungsoption der koronaren Herzerkrankung? Z. Kardiol, 1997, 86: 171−178.
271. Nathanson M, Ihnken K. Transmyocardial laser channeling, coronary artery bypass, statistical analyses and their interpretations. J. Thorac. Cardiovasc. Surg, 2000, 121,3: 601.
272. Neely J. R, Morgan H.E. Relationship between carbohydrate metabolism and energy balance of heart muscle. Ann. Rev. Physiol, 1974,36:413−459.
273. Neubauer S, Horn M, Naumann A. et al. Impraiment of energy metabolism in intact residual myocardium of rat hearts with chronic myocardial infarction. J. Clin. Invest, 1995, 95: 1092−1100.
274. Nienaber C. A, Brunken R. C, Sherman C.T. et al. Metabolic and functionaly recovery of ischemic human myocardium after coronary angioplasty. J. Am. Coll. Cardiol, 1991, 18: 966−978.
275. Oesterle S.N., Reifart N.J., Meier В., Lauer В., Schuler G.C. Initial results of laser-based percutaneous myocardial revasculanzation for angina pectons Am. J. Cardiol., 1998, 8: 659−662.
276. Okada M. Transmyocardial laser revascularization (TMLR): a long way to the first successful clinical application in the world. Ann. Thorac. Cardiovasc. Surg., 1998, 4, 3: 119−124.
277. Okada M., Ikuta H., Shimizu K. et al. Alternatives method of myocardial revascularization by laser: experimental and clinical study. Kobe J. Med. Scin., 1986, 32,5: 151−161.
278. O’Keefe J.H., Barnhart C.S., Bateman T.M. Comparison of stress echocardiography and stress myocardial perfusion scintigraphy for diagnosing coronary artery disease and assessing its severity. Am. J. Cardiol., 1995, 7S: 25D-34D.
279. O’Keefe .JH., Bateman T.M., Silvestri R., Barnhart C. Safety and diagnostic accuracy of adenosine thallium-201 scintigraphy in patients unable to exercise and those with left bundle branch block. Am. Heart. J., 1992, 124: 614−21.
280. Oliver M.F., Opie .LH. Effects of glucose and fatty acids on myocardial ischemia and arrhythmias. Lancet., 1994, 343: 155−158.
281. Owen A.R., Stables R.H. Myocardial revascularisation by laser. Int. J.Cardiol., 2000, 72: 215−220.
282. Pagano D., Lewis M., Townend J. et al. Coronary revascularisation for postischemic heart failure: how myocardial viability affects survival. Heart, 1999, 82: 684−88.
283. Pagley P.R., Beller G.A., Watson D.D. et al. Improved outcome after coronary artery bypass surgery in patients with ischemic cardiomyopathy and residual myocardial viability. Circulation, 1997, 96: 793−800.
284. Paolini G, Lucignani G, Zuccari M. et al. Identification and revascularization of hibernating myocardium in angina-free patients with left ventricular dysfunction. Eur. J. Cardio-thorac. Surg, 1994, 8: 139−144.
285. Pavie A.J. Repeat coronary surgery. 13-th Annual Meeting of Eur. Association for Cardio-Thoracic Surg, Glasgow, 1999, p. 18−19.
286. Pelletier M. P, Giaid A, Siwaraman S. Angiogenesis and growth factor expression in a model of transmyocardial revascularization. Ann. Thorac. Surg, 1998, 66: 12−18.
287. Pennell D, Underwood R, Costa D, Ell P. Thallium myocardial perfusion tomography in clinical cardiology. London, 1992, p. 226.
288. Perez N. G, Gao W. D, Marban E. Novel myofilament Ca sensitizing property of xanthine oxidase inhibitors. Circ. Res, 1998, 83: 423−430.
289. Perrone-Filardi P, Pace L, Prastaro M. et al. Dobutamine echocardiography predicts improvement of hypoperfiised dysfunctional myocardium after revascularization in patients with coronary artery disease. Circul, 1995, 91(10): 2556−65.
290. Perrone-Filardi P, Pace F, Squame F. et al. Dobutamine echocardiography versus thallium-201 tomography for assessing viability in patients with coronary artery disease. 12-th World Congress of Cardiology, Berlin, 1994, p. 898.
291. Previteli M, Lanzarini L, Poli A. et al. Dobutamine stress echocardiography early after myocardial infarction treated with thrombolysis. Eur. J. Cardio-Thorac. Surg, 1999, 16, 2: 97−104.
292. Puc M. M, Levin S, Tran H.S. et al. Transmyocardial laser revascularization: current status. J. Invest. Surg, 2000, 13: 15−27.
293. Rahimtoola S.H. From coronary artery disease to heart failure: role of the hibernating myocardium. Am. J. Cardiol, 1995, 75: 16E- 2E.
294. Rahimtoola S.H. A perspective on the three large multicenter randomized clinical trials of coronary bypass surgery for chronic stable angina. Circulation, 1985, 72 (Suppl. V): V123-V135.
295. Rahimtoola S.H. Importance of diagnosing hibernating miocardium: how and whom? JACC, 1997, 30: 1701−06.
296. Rahimtoola S.H. The hibernating myocardium. Am. Heart J, 1989, 117: 21 121.
297. Ratib O, Phelps M. E, Huang S.C. et.al. Positron tomography with deoxyglucose for estimating local myocardial glucose metabolism. J. Nucl Med, 1982- 23:577.
298. Rimoldi O, Burns S. M, Rosen S.D. et al. Measurement of myocardial blood flow with positron emission tomographt before and after transmyocardial laser revascularization. Circulation, 1999, 100 (Suppl. II): II 134−11 138.
299. Rocco T. P, Dilsizian V, McKusisk K. A, Fischman A. J, Boucher C. A, Strauss H.W. Comparison of thallium redistribution with rest reinjection imaging for detection of viable myocardium. Am. J. Cardiol, 1990, 66: 158 163.
300. Roethy W, Yamamoto N, Burkhoff D. An examination of potential mechanisms underlying transmyocardial laser revascularization induced in myocardial blood flow. Semin. Thorac. Cardiovasc. Surg, 1999, 11: 24−28.
301. Roger V. L, Pellikka P. A, Oh J. K, Bailey K. R, Tajik A.J. Identification of multivessel coronary artery disease by exercise echocardiography. J. Am. Coll. Cardiol, 1994, 24: 109−14.
302. Roger V. L, Pellikka P. A, Oh J. K, Miller F. A, Seward J. B, Tajik A.J. Stress echocardiography. Part I. Exercise echocardiography: techniques, implementation, clinical applications, and correlations. Mayo Clin. Proc, 1995, 70: 5−15.
303. Rubello D, Zanco P, Candelpergher G. et al. Usefulness of 99mTc-M3BI stress myocardial SPECT bull’s-eye quantification in coronary artery disease. Q. J. Nucl. Med, 1995, 39: 111−15.
304. Ryan T, Segar D. S, Sawada S.G. et al. Detection of coronary artery disease with upright bicycle exercise echocardiography. J. Am. Soc. Echocardiogr, 1993,6: 186−97.
305. Saddik M, Lopaschuk G.D. Myocardial triglyceride turnover during reperfusion of isolated rat hearts subjected to a transient period of global ischemia. J. Biol. Chem, 1991, 267: 3825−3831.
306. Saha G. B, Maclntyre W. J, Brunken R.C. et al. Present assessment of myocardial viability by nuclear medicine. Seminars in Nuclear medicine, 1996, 26,4:315−335.
307. Sawada S, Eisner G, Segar D.S. et al. Evaluation of patterns of perfusion and metabolism in dobutamine responsive myocardium. JACC, 1997, 29, 1: 55−61.
308. Sawada S. G, Segar D. S, Ryan T. et al. Echocardiographic detection of coronary artery disease during dobutamine infusion. Circulation, 1991, 83: 1605−14.
309. Sayeed-Shah U, Reul R. M, Byrne J.G. et al. Combination TMR and gene therapy. Semin. Thorac. Cardiovasc. Surg, 1999, 11: 36−39.
310. Schelbert H. Metabolic imaging to assess myocardial viability. J. Nucl Med, 1994, 35 (Suppl): 8S-14S.
311. Schelbert H. Principles of Positron Emission Tomography. In: Skorton D, Schelbert H, Wolf G, Brundage B. eds. Marcus' Cardiac. Imaging,. 2nd ed. Philadelphia, Pa WB Saunders, 1996, p. 1063−1092.
312. Schelbert H. R, Buxton D. Insights into coronary artery disease gained from metabolic imaging. Circulation, 1988, 78: 496−505.
313. Schipke J. D, Birkenkamp-Demtroder K. Another view of myocardial hibernation. Intern. J. Cardiol, 2001, 79: 13−17.
314. Schneider J, Diegeler A, Krakor R. et al. Transmyocardial laser revascularization with the holmiunr. YAG laser: loss of symptomatic improvement after 2 years. Eur. J. Cardio-thoracic Surg, 2001, 19: 164−169.
315. Schneider J, Diegeler A, Walter T, Kluge R, Mohr F. W. Transmyocardial laser revascularization loss of effectiveness after 2 and 3 years. 13th Annual Meeting of the SACTS, Abstracts. Glasgow, 1999, 017: 134.
316. Schoebel F. C, Jax T. W, Heintzen M.P. et al. Refractory angina pectoris in end-stage coronary artery disease: evolving therapeutic concepts. Amer. Heart J, 1997,134, 4: 587−602.
317. Schofield P.M., Sharpies L. D, Caine N. et al. Transmyocardial laser revascularization in patients with refractory angina: a randomized controlled trial. Lancet, 1999, 353: 519−524.
318. Schumacher В, Pecher P, von Specht B.U. et al. Indication of neoangiogenesis in ischemic myocardium by human growth factors. First clinical results of a new treatment of coronary heart disease. Circulation, 1998, 97: 645−650.
319. Schwaiger M, Hicks R. The clinical role of metabolic imaging of the heart by positron emission tomography. J. Nucl. Med, 1991, 32: 565−572.
320. Schwaiger M, Hutchins G.D. Evaluation of coronary artery disease with positron emission tomography. J. Nucl. Med, 1992, 22, 4: 210−223.
321. Sellke F. W, Laham R. J, Edelman E.R. et al. Therapeutic angiogenesis with basic fibroblast growth factor: techniques and early results. Ann. Thorac. Surg, 1998, 65: 1540−1544.
322. Sen P. K, Udwadia Т.Е., Kinare S. G, Parulkar G.B. Transmyocardial revascularization: a new approach to myocardial revascularization. J. Thorac. Cardiovasc. Surg, 1965, 50: 181−189.
323. Senior R, Kaul S, Lahiri A. Myocardial viability on echocardiography predict long-term survival after revascularization in patients with ischemic congestive heart failure. J. Am. Coll. Cardiol, 1999, 33, 7: 1848−1854.
324. Shivalhar B, Maes A, Borgers M. et al. Only hibernating myocardium in variably shows early recovery after coronary revascularization Circulation, 1996, 94: 308−315.
325. Shulz R, Migasaki S, Miller M. et al. Consequences of regional inotropic stimulation on ischemic myocardium on regional myocardial blood flow and function in anesthetized swine. Circ. Res, 1989, 64: 1116−1126.
326. Sigel J. E, Abramovich C. M, Lytle B. W, Rathff N.B. Transmyocardial laser revasculanzation. Three sequential autopsy cases. J. Thorac. Cardiovasc. Surg, 1998, 115: 1381−1385.
327. Solot G, Hermans J, Merlo P. et al. Correlation of 99Tcm-sestamibi SPECT with coronary angiography in general hospital practice. Nucl. Med. Commun, 1993, 14: 23−9.
328. Som P., Atkins H.L., Bandoypadhyay D. et al. Fluorinated glucose analog, 2-fluoro-2-deoxy-D-glucose (F-18): nontoxic tracer for rapid tumor detection. J. Nucl. Med., 1980, 21: 670−675.
329. Spanier Т., Smith C.R., Burkhoff D. Angiogenesis: a possible mechanism underlying the clinical benefits of transmyocardial laser revascularization. J. Clin. Laser Med. Surg., 1997, 15: 269−273.
330. Stahl F., Junghans U., Beuthien-Baumann B. et al. Increased myocardial glucosa-uptake after percutaneous myocardial laser revascularization in parients with end-stage coronary artery disease. Eur. Heart J., 1999, 20: 673.
331. Stamou S.C., Boyce C.W., Cooke R.H. et al. One-year outcome bypass grafting and transmyocardial laser revascularization for refractory angina pectoris. Am. J. Cardiol., 2002, 89: 1365−1368.
332. Stollfuss J.C., Haas F., Matsunari I. et al. 99m-Tc-tetrofosmin SRECT for prediction of functionaly recivery defined by MRI in patients with severe left ventricular dysfunction: additional value of gated SPECT. J. Nucl. Med., 1999, 40: 1824−1831.
333. Sundt T.M., Kwong K.F. Clinical experience with holmium: YAG laser for transmyocardial laser revascularization and myocardial denervation as a mechanism. Semin. Thorac. Cardiovasc. Surg., 1999, 11: 19−23.
334. Sylven C., Hagerman I., Ylen M., Nyquist O., Nowak J. Variance ECG detection of coronary artery disease a comparison with exercise stress test and myocardial scintigraphy. Clin. Cardiol., 1994, 17: 132−40.
335. Symes V.F., Losordo D.W., Vale P.R. et al. Gene therapy with vascular endothelial growth factor for inoperative coronary artery disease. Ann. Thorac. Surg., 1999, 68: 830−837.
336. Szekely L., Kreisz I., Salamon F. et al. Transmyocardial laser revascularization evidence of enhanced angiogenesis by a new type of laser. 9-th World Congress of the International Society of Cardio-Thoracic Surgeons, Lisbon, Portugal, 1999.
337. Takeuchi M, Araki M, Nakashima Y, Kuroiwa A. Comparison of dobutamine stress echocardiography and stress thallium-201 single-photon emission computed tomography for detecting coronary artery disease. J. Am. Soc. Echocardiogr, 1993, 6: 593−602.
338. Tamaki N, Yonekura Y, Mukai T. et al. Stress thallium-201 transaxial emission computed tomography: quantitative versus qualitative analysis for evaluation of coronary artery disease. J Am. Coll. Cardiol, 1984, 4: 1213−21.
339. Tamaki N, Yonecura Y, Kawamoto M. et al. Simple quantification of regional myocardial uptake of fluorine-18-fluorodeoxyglucose in the fasting condition. J. Nucl. Med, 1991, 32: 2152−2157.
340. Tamaki N. T, Ohtani H, Yonekura Y. et al. Significance of fill in after thallium-201 reinjection following delyed imaging: Comparison with regional wall motion and angiographic findings. J. Nucl. Med, 1990, 31: 1617−1623.
341. Tillish J, Brunken N, Marshall R. et al. Reversibility of cardiac wall motion abnorvalities predicted by positron tomography. N.Engl. J. Med, 1986, 314: 884−888.
342. Trehan N. The Assian Registry of TMR. TMR Symposium, Prague, 1996.
343. Trehan N, Mishra M, Bapna R. et al. Transmyocardial laser revascularization combined with coronary artery bypass grafting without cardiopulmonary bypass. Eur. J. Cardiothorac. Surg, 1997, 12, 2: 276−284.
344. Trehan N, Mishra M, Kohli M. et al. Transmyocardial laser revascularization as an adjunct to CABG. Indian Heart J, 1996, 48, 4: 381 388.
345. Trehan N, Mishra M, Mehta Y, Yangid D. R. Transmyocardial laser as an adjunct to minimally invasive CABG for complete myocardial revascularization. Ann. Thorac. Surg, 1998, 66: 1113−1118.
346. Tsang J. C, Chiu R.C. The phantom of «myocardial sinusoids»: a historical reappraisal. Ann. Thorac. Surg, 1995, 60, 6: 1831−1835.
347. Van Train K. F, Garcia E. V, Maddahi J. et al. Multicenter trial validation for quantitative analysis of same-day rest-stress technetium-99m-sestamibi myocardial tomograms. J. Nucl. Med, 1994, 35: 609−18.
348. Van Train K. F, Maddahi J, Berman D.S. et al. Quantitative analysis of tomographic stress thallium-201 myocardial scintigrams: a multi-center trial. J. Nucl. Med, 1990, 31: 1168−79.
349. Vanoverschelde J, Wijns W, Depre C. et al. Mechanisms of chronic regional postischemic dysfunction in humans: new insights from the study of noninfarcted collateral-dependent myocardium. Circulation, 1993, 87: 15 131 523.
350. Vanoverschelde J.L. Chronic myocardial hibernation. Circulation, 1994, 89: 1907−1908.
351. Verheul H. A, Moulijn A. C, Hondema S, Schouwink M, Dunning A.J. Late results of 200 repeat coronary bypass operations. Ann. J. Cardiol, 1991, 67: 24−30.
352. Vincent J. G, Bardos P, Kruse J, Maass D. End stage coronary artery disease treated with transmyocardial C02 laser revascularization: a chance for the «inoperable» patient. Eur. J. Cardiothorac. Surg, 1997, 121: 888−894.
353. Vogt A.M., Nef H, Schaper J. et al. Metabolic control analisis of anaerobic glycolysis in human hibernating myocardium replaces traditional concepts of flux control. FEBS Letters, 2002, 517: 245−250.
354. Vosberg H.R. Assessment of myocardial perfusion and metabolic: promises and limitations. Transmyocardial laser revascularization. Eds. M. Klein, H.D.Schulte, E. Gums, Berlin, Springer, 1998.
355. Wearns J. T, Mettier S. R, Klump T. G, Zschiesche A.B. The nature of the vascular communications between the coronary arteries and the chambers of the heart. Am. Heart. J, 1933, 9: 143−170.
356. Whittaker P. Detection and assessment of laser-mediated injury in transmyocardial revasculanzation. J. Clm. Laser. Med. Surg, 1997, 15: 261 267.
357. Whittaker P, Rakusan K, Kloner R.A. Transmural channels can protect ischemic tissue. Assessment of long-term myocardial response to laser- and needle-made channels. Circulation, 1996, 93: 143−152.
358. Whittaker P, Kloner R. A, Przyklenk K. Laser-mediated transmural myocardial channels do not salvage acutely ichemic myocardium. J. Am. Coll. Cardiol, 1993, 22: 302−309.
359. Wijns W, Jaque A.M., Leners N. et. al. Accumulation of polymorph nuclear leukocytes in reperfused ischemic canine myocardium: Relation with tissue viability assessed by fluorine- 18−2-deoxyglucose uptake. J. Nucl Med, 1988- 29: 1826−1832.
360. Williams K, Schneider C.M. Increased stress right ventricular activity on dual isotope perfusion SPECT. J. Amer. Coll. Cardiol, 1999, 34, 2: 420−427.
361. Wu M, Zhu L, Yu Y. Clinical application of transmyocardial laser revascularization. Zhonghua Wai Ke Za Zhi, 1997, 35: 613−615.
362. Yamamoto N, Kohmoto T, Gu A. et al. Angiogenesis is enchanced in ischemic canine myocardium by transmyocardial laser revascularization. J. Am. Coll. Cardiol, 1998, 31: 1426−1433.
363. Yano O. J, Bielefeld M. R, Jeevanandam V. Prevention acute regional ischemia with endocardial laser channel. Ann. Thorac. Surg, 1993, 56: 4653.
364. Yano O. J, Bielefeld M. R, Jeevanandam V. Prevention of acute regional ischemia with endocardial laser channel. Ann. Thorac. Surg, 1994, 57: 784 785.
365. Zlotnick A. Y, Ahmad R. M, Reul R.M. Neovascularization occurs at the site of closed laser channels after transmyocardial laser revascularization. Surg. Forum, 1996,47: 286−287.