Динамика функциональной активности микрососудистогоэндотелия в процессе острого фармакологического тестас препаратом Актовегин
Динамика функциональной активности микрососудистогоэндотелия в процессе острого фармакологического тестас препаратом Актовегин
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Список литературы
1. Фолков Б., Нил Э. Кровообращение. М.: Медицина, 1976.
2. Cines DB, Pollak ES, Buck CA et al. Endothelial cells in physiology and in the pathophysiology of vascular disorders. Blood 1998; 91 (10): 3527–61.
3. Vascular endothelium in human physiology and pathophysiology. Ed. by P.J.T.Vallance and D.J.Webb. Taylor&Francis e-Library, 2004.
4. Vane JR, Anggard EE, Botting RM. Regulatory functions of the vascular endjthelium. New Engl J Med 1990; 323: 27–36.
5. Webb D, Vallance P. Endothelial function in Hypertension. Springer, 1998.
6. Widlansky ME, Gokce N, Keaney JF et al. The clinical implications of endothelial dysfunction. J Am Coll Cardiol 2003; 42: 1149–60.
7. Дисфункция эндотелия. Причины, механизмы, фармакологическая коррекция. Под ред. Н.Н.Петрищева. СПб.: СПбГМУ, 2003.
8. Celermajer DS, Sorensen KE, Gooch VM et al. Non-invasive detection of endothelial dysfunction in children and adults at risk of atherosclerosis. Lancet 1992; 340: 1111–5.
9. Taddie S, Virdis A, Mattei P, Salvetti A. Vasodilatation to acetylcholine in primary and secondary forms of hypertension. Hypertension 1993; 21: 929–33.
10. Затейщиков А.А., Затейщиков Д.А. Эндотелиальная регуляция сосудистого тонуса: методы исследования и клиническое значение. Кардиология. 1998; 9: 68–78.
11. Chin-Dusting PF, Cameron JD, Dart A et al. Human foream venous occlusion plethysmography: methodology, presentation and analysis. Science 1999; 96: 439–40.
12. Anderson T. Assessment and treatment of endothelial dysfunction in humans. J Am Coll Cardiol 1999; 34: 631–8.
13. Laucevicius A, Petruioniene Z, Ryliskyte L et al. First experience with Salbutamol – induced change in the photoplethysmographic digital volume. Seminars in Cardiology 2002; 8 (1): 87–93.
14. Corretti MC, Anderson TJ, Benjamin EJ et al. Guidelines for the ultrasound assessment of endothelial-dependent flow-mediated vasodilation of the brachial artery. A report of the International Brachial Artery Reactivity Task Force. J Am Coll Cardiol 2002; 39: 257–65.
15. Hayward CS, Kraidly M, Webb CM et al. Assessment of endothelial function using peripheral waveform analysis. J Am Coll Cardiol 2002; 40: 521–8.
16. Sugawara J, Maeda S, Otsuki T et al. Effects of nitric oxide synthase inhibitor on decrease in peripheral arterial stiffness with acute low-intensity aerobic exercise. Hypertension 2004; 44 (2): 119–20.
17. Лебедев П.А., Калакутский Л.И., Власова С.П. Диагностика функции сосудистого эндотелия у больных сердечно-сосудистыми заболеваниями. Методические указания. Самара, 2004.
18. Naka KK, Tweddel AC, Doshi SH et al. Flow-mediated changes in pulse wave velocity: a new clinical measure of endothelial function. Eur Heart J 2006; 27: 302–9.
19. Schmid-Schonbein H et al. Synergetic interpretation of patterned vasomotor activity in microvascular perfusion: descrete effects of myogenic and neurogenic vasoconstriction as well as arterial and venous pressure fluctuations. Int J Microcir 1997; 17: 346–59.
20. Kvernmo HD, Stefanovska A, Kirkeb_en KA et al. Oscillations in the human cutaneous blood perfusion signal modified by endothelium-dependent and endothelium-independent vasodilators. Microvasc Res 1999; 57: 298–309.
21. Stefanovska A, Bracic M, Kvernmo HD. Wavelet analysis of oscillations in peripheral blood circulation measured by Doppler technique. IEEE Trans Biomed Eng 1999; 46: 1230–9.
22. Kvandal P, Stefanovska A, Veber M et al. Regulation of human cutaneous circulation evaluated by laser Doppler flowmetry, iontophoresis, and spectral analysis: importance of nitric oxide and prostangladines. Microvasc Res 2003; 65: 160–71.
23. Лазерная допплеровская флоуметрия микроциркуляции крови. Под ред. А.И.Крупаткина, В.В.Содорова. М.: Медицина, 2005.
24. Holowatz LA, Thompson CS, Minson CT et al. Mechanisms of acetylcholin-mediated vasodilatation in young and aged human skin. J Physiol 2005; 563 (3): 965–73.
25. Kellogg DL, Zhao JL, Coey U et al. Acetylcholine-induced vasodilation is mediated by nitric oxide and prostaglandins in human skin. J Appl Physiol 2005; 98: 629–32.
26. Тихонова И.В., Танканаг А.В., Косякова Н.И., Чемерис И.К. Исследование эндотелий-зависимых колебаний кровотока в микроциркуляторном русле кожи человека. Рос. физиол. журн. им.И.М.Сеченова. 2006; 92 (12): 1429–35.
27. Bernjak A, Clarkson PBM, McClintock PVE et al. Low-frequency blood flow oscillations in congestive heart failure and after b1-blocade treatment. Microvasc Res 2008; 76 (3–2): 224–32.
28. Obermaier-Kusser B, Mu..hlbacher C, Mushack J et al. Further evidence for a two-step model of glucose-transport regulation. Inositol phosphate-oligosaccharides regulate glucose-carrier activity. Bichem J 1989; 261 (3): 699–705.
29. Braverman IM, Keh A, Goldminz D. Correlation of laser Doppler wave patterns with underlying microvascular anatomy. J Invest Dermatol 1990; 95: 283–6.
30. Чернух А.М., Александров П.Н., Алексеев О.В. Микроциркуляция. М.: Медицина, 1984.
31. Fagrell B. Problems using laser Doppler on the skin in clinical practice, Laser Doppler. London-LosAngeles-Nicosia: Med-Orion Publishing Company, 1994.
32. Salerud EG, Tenland T, Nilsson GE et al. Rhythmical variations in human skin blood flow. Int J Microcirc Clin Exp 1983; 2: 91–102.
33. Wilkin JK. Periodic cutaneous blood flow during postocclusive reactive hyperemia. Am J Physiol 1986; 250: H765–8.
34. Hoffman U, Yanar A, Franzeck UK et al. The frequency histogram, a new method for evaluation of laser Doppler flax motion. Microvasc Res 1990; 40: 293–301.
35. Крупаткин А.И. Клиническая нейроангиофизиология конечностей. М.: Научный мир, 2003.
36. Funk W, Intaglietta M. Spontaneous arteriolar vasomotion. Prog Appl Microcirc 1983; 3: 66–82.
37. Kastrup J, Bulow J, Lassen NA. Vasomotion in human skin before and after local heating recorder with laser Doppler flowmetry. Int J Microcirc 1989; 8: 205–15.
38. Крупаткин А.И. Динамический колебательный контур регуляции капиллярной гемодинамики. Физиол. чел. 2007; 33 (5): 95–103.
39. Stefanovska A. Self-organization of biological systems influenced by alactrical current. Thesis, Faculty of Electrical Engineering, University of Ljubljana, Slovenia. 1992.
40. Buerk DG, Riva CE. Vasomotion and spontaneous low-frequency oscillation in blood flow and nitric oxide in cat optic nerve head. Microvasc Res 1998; 55: 919–35.
41. Григорьева Т.А. Иннервация кровеносных сосудов. М.: Медгиз, 1954.
42. Microcirculation. Handbook of physiology Ed. R.F.Tuma, W.N.Duran, K.Ley. Academic Press, 2008.
43. Zweifach BW. Quantitative studies of microcirculatory structure and function. I. Analysis of pressure distribution in the terminal vascular bed in cat mesentery. Circ Res 1974; 34: 843–57.
44. Zweifach BW. Quantitative studies of microcirculatory structure and function. II. Direct measurement of capillary pressure in splanchnic mesenteric vessels. Circ Res 1974; 34: 858–66.
45. Тихонова И.В., Танканаг А.В., Чемерис Н.К. Динамика амплитуд колебаний периферического кровотока в процессе развития постокклюзионной реактивной гиперемии у условно-здоровых добровольцев. Регион. кровообр. и микроцир. 2009; 1 (29): 31–5.
46. Тихонова И.В., Танканаг А.В., Чемерис Н.К. Возрастные особенности динамики амплитуд колебаний кровотока кожи в процессе постокклюзионной реактивной гиперемии. Физиол. чел. 2010; 35 (2): 114–20.
47. Meyer MF, Rose CJ, Hu..lsmann J-O et al. Impaired 0.1-Hz vasomotion assessed by laser Doppler anemometry as an early index of peripheral sympathetic neuropathy in diabetes. Microvasc Res 2003; 65: 88–95.
48. Tenland T. On Laser Doppler Flowmetry. Methods and Microvascular Application. Printed in Sweden by VTT-Gafiska, Vimmerby. 1982.
2. Cines DB, Pollak ES, Buck CA et al. Endothelial cells in physiology and in the pathophysiology of vascular disorders. Blood 1998; 91 (10): 3527–61.
3. Vascular endothelium in human physiology and pathophysiology. Ed. by P.J.T.Vallance and D.J.Webb. Taylor&Francis e-Library, 2004.
4. Vane JR, Anggard EE, Botting RM. Regulatory functions of the vascular endjthelium. New Engl J Med 1990; 323: 27–36.
5. Webb D, Vallance P. Endothelial function in Hypertension. Springer, 1998.
6. Widlansky ME, Gokce N, Keaney JF et al. The clinical implications of endothelial dysfunction. J Am Coll Cardiol 2003; 42: 1149–60.
7. Дисфункция эндотелия. Причины, механизмы, фармакологическая коррекция. Под ред. Н.Н.Петрищева. СПб.: СПбГМУ, 2003.
8. Celermajer DS, Sorensen KE, Gooch VM et al. Non-invasive detection of endothelial dysfunction in children and adults at risk of atherosclerosis. Lancet 1992; 340: 1111–5.
9. Taddie S, Virdis A, Mattei P, Salvetti A. Vasodilatation to acetylcholine in primary and secondary forms of hypertension. Hypertension 1993; 21: 929–33.
10. Затейщиков А.А., Затейщиков Д.А. Эндотелиальная регуляция сосудистого тонуса: методы исследования и клиническое значение. Кардиология. 1998; 9: 68–78.
11. Chin-Dusting PF, Cameron JD, Dart A et al. Human foream venous occlusion plethysmography: methodology, presentation and analysis. Science 1999; 96: 439–40.
12. Anderson T. Assessment and treatment of endothelial dysfunction in humans. J Am Coll Cardiol 1999; 34: 631–8.
13. Laucevicius A, Petruioniene Z, Ryliskyte L et al. First experience with Salbutamol – induced change in the photoplethysmographic digital volume. Seminars in Cardiology 2002; 8 (1): 87–93.
14. Corretti MC, Anderson TJ, Benjamin EJ et al. Guidelines for the ultrasound assessment of endothelial-dependent flow-mediated vasodilation of the brachial artery. A report of the International Brachial Artery Reactivity Task Force. J Am Coll Cardiol 2002; 39: 257–65.
15. Hayward CS, Kraidly M, Webb CM et al. Assessment of endothelial function using peripheral waveform analysis. J Am Coll Cardiol 2002; 40: 521–8.
16. Sugawara J, Maeda S, Otsuki T et al. Effects of nitric oxide synthase inhibitor on decrease in peripheral arterial stiffness with acute low-intensity aerobic exercise. Hypertension 2004; 44 (2): 119–20.
17. Лебедев П.А., Калакутский Л.И., Власова С.П. Диагностика функции сосудистого эндотелия у больных сердечно-сосудистыми заболеваниями. Методические указания. Самара, 2004.
18. Naka KK, Tweddel AC, Doshi SH et al. Flow-mediated changes in pulse wave velocity: a new clinical measure of endothelial function. Eur Heart J 2006; 27: 302–9.
19. Schmid-Schonbein H et al. Synergetic interpretation of patterned vasomotor activity in microvascular perfusion: descrete effects of myogenic and neurogenic vasoconstriction as well as arterial and venous pressure fluctuations. Int J Microcir 1997; 17: 346–59.
20. Kvernmo HD, Stefanovska A, Kirkeb_en KA et al. Oscillations in the human cutaneous blood perfusion signal modified by endothelium-dependent and endothelium-independent vasodilators. Microvasc Res 1999; 57: 298–309.
21. Stefanovska A, Bracic M, Kvernmo HD. Wavelet analysis of oscillations in peripheral blood circulation measured by Doppler technique. IEEE Trans Biomed Eng 1999; 46: 1230–9.
22. Kvandal P, Stefanovska A, Veber M et al. Regulation of human cutaneous circulation evaluated by laser Doppler flowmetry, iontophoresis, and spectral analysis: importance of nitric oxide and prostangladines. Microvasc Res 2003; 65: 160–71.
23. Лазерная допплеровская флоуметрия микроциркуляции крови. Под ред. А.И.Крупаткина, В.В.Содорова. М.: Медицина, 2005.
24. Holowatz LA, Thompson CS, Minson CT et al. Mechanisms of acetylcholin-mediated vasodilatation in young and aged human skin. J Physiol 2005; 563 (3): 965–73.
25. Kellogg DL, Zhao JL, Coey U et al. Acetylcholine-induced vasodilation is mediated by nitric oxide and prostaglandins in human skin. J Appl Physiol 2005; 98: 629–32.
26. Тихонова И.В., Танканаг А.В., Косякова Н.И., Чемерис И.К. Исследование эндотелий-зависимых колебаний кровотока в микроциркуляторном русле кожи человека. Рос. физиол. журн. им.И.М.Сеченова. 2006; 92 (12): 1429–35.
27. Bernjak A, Clarkson PBM, McClintock PVE et al. Low-frequency blood flow oscillations in congestive heart failure and after b1-blocade treatment. Microvasc Res 2008; 76 (3–2): 224–32.
28. Obermaier-Kusser B, Mu..hlbacher C, Mushack J et al. Further evidence for a two-step model of glucose-transport regulation. Inositol phosphate-oligosaccharides regulate glucose-carrier activity. Bichem J 1989; 261 (3): 699–705.
29. Braverman IM, Keh A, Goldminz D. Correlation of laser Doppler wave patterns with underlying microvascular anatomy. J Invest Dermatol 1990; 95: 283–6.
30. Чернух А.М., Александров П.Н., Алексеев О.В. Микроциркуляция. М.: Медицина, 1984.
31. Fagrell B. Problems using laser Doppler on the skin in clinical practice, Laser Doppler. London-LosAngeles-Nicosia: Med-Orion Publishing Company, 1994.
32. Salerud EG, Tenland T, Nilsson GE et al. Rhythmical variations in human skin blood flow. Int J Microcirc Clin Exp 1983; 2: 91–102.
33. Wilkin JK. Periodic cutaneous blood flow during postocclusive reactive hyperemia. Am J Physiol 1986; 250: H765–8.
34. Hoffman U, Yanar A, Franzeck UK et al. The frequency histogram, a new method for evaluation of laser Doppler flax motion. Microvasc Res 1990; 40: 293–301.
35. Крупаткин А.И. Клиническая нейроангиофизиология конечностей. М.: Научный мир, 2003.
36. Funk W, Intaglietta M. Spontaneous arteriolar vasomotion. Prog Appl Microcirc 1983; 3: 66–82.
37. Kastrup J, Bulow J, Lassen NA. Vasomotion in human skin before and after local heating recorder with laser Doppler flowmetry. Int J Microcirc 1989; 8: 205–15.
38. Крупаткин А.И. Динамический колебательный контур регуляции капиллярной гемодинамики. Физиол. чел. 2007; 33 (5): 95–103.
39. Stefanovska A. Self-organization of biological systems influenced by alactrical current. Thesis, Faculty of Electrical Engineering, University of Ljubljana, Slovenia. 1992.
40. Buerk DG, Riva CE. Vasomotion and spontaneous low-frequency oscillation in blood flow and nitric oxide in cat optic nerve head. Microvasc Res 1998; 55: 919–35.
41. Григорьева Т.А. Иннервация кровеносных сосудов. М.: Медгиз, 1954.
42. Microcirculation. Handbook of physiology Ed. R.F.Tuma, W.N.Duran, K.Ley. Academic Press, 2008.
43. Zweifach BW. Quantitative studies of microcirculatory structure and function. I. Analysis of pressure distribution in the terminal vascular bed in cat mesentery. Circ Res 1974; 34: 843–57.
44. Zweifach BW. Quantitative studies of microcirculatory structure and function. II. Direct measurement of capillary pressure in splanchnic mesenteric vessels. Circ Res 1974; 34: 858–66.
45. Тихонова И.В., Танканаг А.В., Чемерис Н.К. Динамика амплитуд колебаний периферического кровотока в процессе развития постокклюзионной реактивной гиперемии у условно-здоровых добровольцев. Регион. кровообр. и микроцир. 2009; 1 (29): 31–5.
46. Тихонова И.В., Танканаг А.В., Чемерис Н.К. Возрастные особенности динамики амплитуд колебаний кровотока кожи в процессе постокклюзионной реактивной гиперемии. Физиол. чел. 2010; 35 (2): 114–20.
47. Meyer MF, Rose CJ, Hu..lsmann J-O et al. Impaired 0.1-Hz vasomotion assessed by laser Doppler anemometry as an early index of peripheral sympathetic neuropathy in diabetes. Microvasc Res 2003; 65: 88–95.
48. Tenland T. On Laser Doppler Flowmetry. Methods and Microvascular Application. Printed in Sweden by VTT-Gafiska, Vimmerby. 1982.
Авторы
А.А.Федорович, А.Н.Рогоза, Е.М.Канищева, С.А.Бойцов
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