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Неинвазивная стимуляция ангиогенеза у больных c ишемической болезнью сердца с использованием ударно-волновой терапии (обзор литературы)
Неинвазивная стимуляция ангиогенеза у больных c ишемической болезнью сердца с использованием ударно-волновой терапии (обзор литературы)
Мацкеплишвили С.Т., Борбодоева Б.М. Неинвазивная стимуляция ангиогенеза у больных c ишемической болезнью сердца с использованием ударно-волновой терапии (обзор литературы). КардиоСоматика. 2016; 7 (3–4): 91–96.
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Аннотация
Статья представляет обзор опубликованных данных, посвященных важнейшей проблеме современной кардиологии – лечению ишемической болезни сердца (ИБС) при наличии дисфункции левого желудочка, а также улучшению качества жизни больных. Рассматриваются проблемы терапии ИБС в современной кардиологии, новые подходы к лечению ИБС у пациентов с невозможностью выполнения хирургической реваскуляризации либо уже перенесших реваскуляризацию миокарда. Акцент делается на безопасность и эффективность применения ударно-волновой терапии у этой категории больных.
Ключевые слова: ишемическая болезнь сердца, стабильная стенокардия, аортокоронарное шунтирование, терапевтический ангиогенез, ударно-волновая терапия.
Key words: coronary artery disease, stable angina, coronary artery bypass grafting, therapeutic angiogenesis, shock-wave therapy.
Ключевые слова: ишемическая болезнь сердца, стабильная стенокардия, аортокоронарное шунтирование, терапевтический ангиогенез, ударно-волновая терапия.
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Key words: coronary artery disease, stable angina, coronary artery bypass grafting, therapeutic angiogenesis, shock-wave therapy.
Полный текст
Список литературы
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18. Ichioka S et al. Effects of shear stress on wound-healing angiogenesis in the rabbit ear chamber. J Surg Res 1997; 72 (1): 29–35.
19. Pan Q, Chathery Y, Wu Y et al. Neuropilin*1 binds to VEGF and regulates endothelial cell migration and sprouting. J Biol Chem 2007; 282: 24049–56.
20. Wang CJ, Huang HY, Pai CH. Shock Wave Enhanced Neovascularization At Tendon-Bone Junction: An Experiment In Dogs. J Foot Ankle Surg 2002; 41 (1): 16–22.
21. Zuoziene G, Zakarkaite D, Aidietiene S et al. Cardiac shock wave therapy in patients with end-stage coronary artery disease. First experience in Vilnius, Lithuania XXII Nordic-Baltic Congress of Cardiology. June 3–5, 2009.
22. Wang CJ, Wang FS, Yang KD et al. Shock Wave Therapy Induces Neovascularization At The Tendon- Bone Junction. A Study In Rabbits. J Orthop Res 2003; 21 (6): 984–9.
23. Luscinskas FW, Lim YC, Lichtman AH. Wall shear stress: the missing step for T cell transmigration? Nat Immunol 2001; 2 (6): 478–80.
24. Reher P, Doan N, Bradnock B et al. Effect of Ultrasound on the Production of IL-8, basic FGF and VEGF. Cytokine 1999; 11 (6): 416–23.
25. Aicher A, Heeschen C, Sasaki K et al. Low-energy shock wave for enhancing recruitment of endothelial progenitor cells: a new modality to increase efficacy of cell therapy in chronic hind limb ischemia. Circulation 2006; 114 (25): 2823–30.
26. Nurzynska D, Di Meglio F, Castaldo C et al. Shock waves activate in vitro cultured progenitors and precursors of cardiac cell lineages from the human heart. Ultrasound Med Biol 2008; 34 (2): 334–42.
27. Sun СK, Chang LT, Fang HY et al. Shock wave-pretreated bone marrow cells further improve left ventricular function after myocardial infarction in rabbits. Ann Vasc Surg 2010; 24 (6): 809–21.
28. Nishida T et al. Extracorporeal Cardiac Shock Wave Therapy Markedly Ameliorates Ischemia-Induced Myocardial Dysfunction in Pigs in Vivo. Circulation 2004; 110: 3055–61.
29. Young SR, Dyson M. The Effect of Therapeutic Ultrasound On An giogenesis. Ultrasound Med Biol 1990; 16 (3): 261–9.
30. Doan N, Reher P, Meghji S, Harris M. In Vitro Effects of Therapeutic Ultrasound On Cell Proliferation, Protein Synthesis, and Cytokine Production By Human Fibroblasts, Osteoblasts and Momocytes. J Oral Maxillofac Surg 1999; 57 (4): 409–19.
31. Aicher A, Heeschen C, Sasaki K-i, Zeiher AM. Shock Wave Therapy Recruits Systematically Infused Endothelial Progenitor Cells – Implications For Shock Wave – Facilitated Cell Therapy in chronic ischemia. Presented at the AHA Convention. November 2005.
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36. Holfeld J, Zimpfer D, Albrecht-Schgoer K et al. Epicardial shock-wave therapy improves ventricular function in a porcine model of ischaemic heart disease. J Tissue Eng Regen Med 2014 May 19. DOI: 10.1002/term.1890. [Epub ahead of print].
37. Tepeköylü C, Wang FS, Kozaryn R et al. Department of Cardiac Surgery, Innsbruck Medical University, Innsbruck, Austria. Shock wave treatment induces angiogenesis and mobilizes endogenous CD31/CD34-positive endothelial cells in a hind limb ischemia model: implications for angiogenesis and vasculogenesis. J Thorac Cardiovasc Surg 2013; 146 (4): 971–8. DOI: 10.1016/j.jtcvs.2013.01.017. Epub 2013 Feb 8.
38. Peng YZ, Guo T, Yang P, Yang HW et al. Effects of extracorporeal cardiac shock wave therapy in patients with ischemic heart failure. Zhonghua Xin Xue Guan Bing Za Zhi 2012; 40 (2): 141–6.
39. Lei P, Tao SM, Shuai Q, Bao YX et al. Extracorporeal cardiac shock wave therapy ameliorates myocardial fibrosis by decreasing the amount of fibrocytes after acute myocardial infarction in pigs. Coron Artery Dis 2013; 24 (6): 509–15.
40. Caspari GH, Erbel R. Revascularization with Extracorporeal Shock Wave Therapy: First Clinical Results. Circulation 1999; 100 (Suppl. 18): 84.
41. Gutersohn A, Caspari G, Erbel R. New non-invasive therapeutic opportunities in the treatment of “refractory” angina and myocardial ischemia: 5 years of clinical experience. ESC 2004.
42. Leibowitz D, Weiss A et al. The efficacy of cardiac shock wave therapy in the treatment of refractory angina: A pilot prospective, randomized, double-blind trial. Int J Cardiology 2013; 167 (Issue 6): 3033–4.
43. Cassar A, Prasad M, Karia D et al. Safety and efficacy of extracorporeal shock wave myocardial revascularization therapy for refractory angina pectoris. Mayo Clin Proc 2014.
44. Peng YZ, Guo T, Yang P et al. Effects of extracorporeal cardiac shock wave therapy in patients with ischemic heart failure. Zhonghua Xin Xue Guan Bing Za Zhi 2012; 40 (2): 141–6.
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2. Belenkov Yu.N., Mareev V.Yu. Printsipy ratsional'nogo lecheniia serdechnoi nedostatochnosti. M.: Media Medika, 2000. [in Russian]
3. Buziashvili Yu.I., Stepanov M.M, Matskeplishvili S.T., Aripov M.A. Otsenka parametrov remodelirovaniia levogo zheludochka u bol'nykh IBS pri EkhoKG v pokoe. Biulleten' NTsSSKh. 2004; 9: 64–70. [in Russian]
4. Asymbekova E.U. Diagnostika i taktika lecheniia bol'nykh IBS s obratimymi formami disfunktsii miokarda levogo zheludochka. Avtoref. dis. … d-ra med. nauk. NTsSSKh im A.N.Bakuleva. M., 1999. [in Russian]
5. Buziashvili Yu.I., Klyuchnikov I.V., Asymbekova E.U. et al. Geometricheskie kriterii diagnostiki zhiznesposobnosti miokarda. Problems biomedical research. 2001; 6 (1): 90–7. [in Russian]
6. Frank R. Shock wave generator: pat. 2559227 USA. 1951.
7. Yutkin L.A. Sposob polucheniia vysokikh i sverkhvysokikh davlenii. A. s. 105011 (SSSR). 1957. [in Russian]
8. Delius M et al. Biological effects of shock waves: Cavitation by shock waves in piglet liver. Ultrasound Med Biol 1990; 16 (5): 467–72.
9. Scales CD, Preminger GM et al. Changing gender prevalence of stone disease. J Urol 2007; 177 (3): 979–82.
10. Furia JP et al. Shock wave therapy compared with intramedullary screw fixation for nonunion of proximal fifth metatarsal metaphyseal-diaphyseal fractures. J Bone Joint Surg 2010; 92 (4): 846–85.
11. Preminger GM et al. 2007 guideline for the management of ureteral calculi. Eur Urol 2007; 52 (6): 1610–31.
12. Häusler E, Kiefer W. Anregung von Stoßwellen in Flüssigkeiten durch Hochgeschwindigkeits-Wassertropfen. Verhandlungen Dtsch Phys Gesellschaft (VI) 1971; 6: 786–9.
13. Paumgartner G, Sackmann M, Holl J, Sauerbruch T. Extracorporeal shock-wave lithotripsy of gallstones. Gallstone Disease: Pathophysiology and Therapeutic Approaches. W.Swobodnik, H.Ditsc-huneit, R.D.Soloway. Berlin: Springer-Verlag, 1990; p. 161–4.
14. Polyanskaya O.Yu., Dudina T.V., Sharabchiev Yu.T. Ispol'zovanie ekstrakorporal'noi udarno-volnovoi terapii v travmatologii i ortopedii. Mezhdunarodnye obzory: klinicheskaia praktika i zdorov'e. 2013; 3 (3). [in Russian]
15. Shell' Ya. Sovremennye predstavleniia o fokusirovannoi i radial'noi terapii. Sportivnaja meditsina. 2013; 1: 3–6. [in Russian]
16. Mariotto S et al. Extracorporeal Shock Waves: from lithotripsy to anti- inflammatory action by NO Production. Nitric Oxide 2005; 12 (2): 89–96.
17. Topper JN et al. Identification of vascular endothelial genes differentially responsive to fluid mechanical stimuli: cyclooxygenase-2, manganese superoxide dismutase, and endothelial cell nitric oxide synthase are selectively up-regulated by steady laminar shear stress. Proceed Nat Acad Sci 1996; 93 (19): 10417–22.
18. Ichioka S et al. Effects of shear stress on wound-healing angiogenesis in the rabbit ear chamber. J Surg Res 1997; 72 (1): 29–35.
19. Pan Q, Chathery Y, Wu Y et al. Neuropilin*1 binds to VEGF and regulates endothelial cell migration and sprouting. J Biol Chem 2007; 282: 24049–56.
20. Wang CJ, Huang HY, Pai CH. Shock Wave Enhanced Neovascularization At Tendon-Bone Junction: An Experiment In Dogs. J Foot Ankle Surg 2002; 41 (1): 16–22.
21. Zuoziene G, Zakarkaite D, Aidietiene S et al. Cardiac shock wave therapy in patients with end-stage coronary artery disease. First experience in Vilnius, Lithuania XXII Nordic-Baltic Congress of Cardiology. June 3–5, 2009.
22. Wang CJ, Wang FS, Yang KD et al. Shock Wave Therapy Induces Neovascularization At The Tendon- Bone Junction. A Study In Rabbits. J Orthop Res 2003; 21 (6): 984–9.
23. Luscinskas FW, Lim YC, Lichtman AH. Wall shear stress: the missing step for T cell transmigration? Nat Immunol 2001; 2 (6): 478–80.
24. Reher P, Doan N, Bradnock B et al. Effect of Ultrasound on the Production of IL-8, basic FGF and VEGF. Cytokine 1999; 11 (6): 416–23.
25. Aicher A, Heeschen C, Sasaki K et al. Low-energy shock wave for enhancing recruitment of endothelial progenitor cells: a new modality to increase efficacy of cell therapy in chronic hind limb ischemia. Circulation 2006; 114 (25): 2823–30.
26. Nurzynska D, Di Meglio F, Castaldo C et al. Shock waves activate in vitro cultured progenitors and precursors of cardiac cell lineages from the human heart. Ultrasound Med Biol 2008; 34 (2): 334–42.
27. Sun СK, Chang LT, Fang HY et al. Shock wave-pretreated bone marrow cells further improve left ventricular function after myocardial infarction in rabbits. Ann Vasc Surg 2010; 24 (6): 809–21.
28. Nishida T et al. Extracorporeal Cardiac Shock Wave Therapy Markedly Ameliorates Ischemia-Induced Myocardial Dysfunction in Pigs in Vivo. Circulation 2004; 110: 3055–61.
29. Young SR, Dyson M. The Effect of Therapeutic Ultrasound On An giogenesis. Ultrasound Med Biol 1990; 16 (3): 261–9.
30. Doan N, Reher P, Meghji S, Harris M. In Vitro Effects of Therapeutic Ultrasound On Cell Proliferation, Protein Synthesis, and Cytokine Production By Human Fibroblasts, Osteoblasts and Momocytes. J Oral Maxillofac Surg 1999; 57 (4): 409–19.
31. Aicher A, Heeschen C, Sasaki K-i, Zeiher AM. Shock Wave Therapy Recruits Systematically Infused Endothelial Progenitor Cells – Implications For Shock Wave – Facilitated Cell Therapy in chronic ischemia. Presented at the AHA Convention. November 2005.
32. Fu M, Sun CK, Lin YC et al. Extracorporeal shock wave therapy reverses ischemia-related left ventricular dysfunction and remodeling: molecular-cellular and functional assessment. PLoS One 2011; 6 (9): e24342.
33. Vasyuk Yu.A., Khadzegova A.B, Shkol'nik E.L. et al. Effektivnost' udarno-volnovoi terapii v lechenii khronicheskoi serdechnoi nedostatochnosti ishemicheskogo geneza. Kardiologiia. 2010; 12: 22–6. [in Russian]
34. Ito K, Fukumoto Y, Shimokawa H. Extracorporeal shock wave therapy for ischemic cardiovascular disorders. Am J Cardiovasc Drugs 2011; 11 (5): 295–302. DOI: 10.2165.
35. Yu W, Shen T, Liu B et al. Cardiac shock wave therapy attenuates H9c2 myoblast apoptosis by activating the AKT signal athway. Epub 2014 Apr 28.
36. Holfeld J, Zimpfer D, Albrecht-Schgoer K et al. Epicardial shock-wave therapy improves ventricular function in a porcine model of ischaemic heart disease. J Tissue Eng Regen Med 2014 May 19. DOI: 10.1002/term.1890. [Epub ahead of print].
37. Tepeköylü C, Wang FS, Kozaryn R et al. Department of Cardiac Surgery, Innsbruck Medical University, Innsbruck, Austria. Shock wave treatment induces angiogenesis and mobilizes endogenous CD31/CD34-positive endothelial cells in a hind limb ischemia model: implications for angiogenesis and vasculogenesis. J Thorac Cardiovasc Surg 2013; 146 (4): 971–8. DOI: 10.1016/j.jtcvs.2013.01.017. Epub 2013 Feb 8.
38. Peng YZ, Guo T, Yang P, Yang HW et al. Effects of extracorporeal cardiac shock wave therapy in patients with ischemic heart failure. Zhonghua Xin Xue Guan Bing Za Zhi 2012; 40 (2): 141–6.
39. Lei P, Tao SM, Shuai Q, Bao YX et al. Extracorporeal cardiac shock wave therapy ameliorates myocardial fibrosis by decreasing the amount of fibrocytes after acute myocardial infarction in pigs. Coron Artery Dis 2013; 24 (6): 509–15.
40. Caspari GH, Erbel R. Revascularization with Extracorporeal Shock Wave Therapy: First Clinical Results. Circulation 1999; 100 (Suppl. 18): 84.
41. Gutersohn A, Caspari G, Erbel R. New non-invasive therapeutic opportunities in the treatment of “refractory” angina and myocardial ischemia: 5 years of clinical experience. ESC 2004.
42. Leibowitz D, Weiss A et al. The efficacy of cardiac shock wave therapy in the treatment of refractory angina: A pilot prospective, randomized, double-blind trial. Int J Cardiology 2013; 167 (Issue 6): 3033–4.
43. Cassar A, Prasad M, Karia D et al. Safety and efficacy of extracorporeal shock wave myocardial revascularization therapy for refractory angina pectoris. Mayo Clin Proc 2014.
44. Peng YZ, Guo T, Yang P et al. Effects of extracorporeal cardiac shock wave therapy in patients with ischemic heart failure. Zhonghua Xin Xue Guan Bing Za Zhi 2012; 40 (2): 141–6.
45. Alunni G et al. The beneficial effect of extracorporeal shockwave myocardial revascularization in patients with refractory angins. Cardiovasc Revasc Med 2015; 16 (1): 6–11.
46. Kaller M et al. Cardiac shock wave therapy and myocardial perfusion in severe coronary artery disease. Clin Res Cardiol 2015; p. 1–7.
47. Turchin V.D., Yuvchik E.V. Udarno-volnovaia terapiia: pervyi opyt lecheniia bol'nykh ishemicheskoi bolezn'iu serdtsa. Doktor.Ru. Kardiologiia. Revmatologiia. 2009; 7 (51): 7–11. [in Russian]
48. Frosin S.A., Ragozin O.N., Isakova E.Yu., Khabarov A.N. Ekstrakorporal'naia serdechnaia udarno-volnovaia terapiia: izuchenie antiaritmicheskogo effekta u patsientov so stenokardiei napriazheniia II–IV v sochetanii s narusheniiami ritma pri lokalizovannom vozdeistvii na mezhzheludochkovuiu peregorodku miokarda. Mir nauki, kul'tury, obrazovaniia. 2012; 3: 278–80. [in Russian]
49. Gabrusenko S.A., Malakhov V.V., Shitov V.N. et al. Opyt primeneniia lechebnogo metoda kardiologicheskoi udarno-volnovoi terapii u b ol'nykh ishemicheskoi bolezn'iu serdtsa. Kardiologiia. 2013; 53 (5): 20–6. [in Russian]
50. Chumakova O.V. Udarno-volnovaia terapiia refrakternoi stenokardii u patsientov posle priamoi revaskuliarizatsii miokarda. Vestn. eksperim. i klin. khirurgii. 2011; IV (4): 796–98. [in Russian]
51. Yargin S.V. Ob udarno-volnovoi terapii v kardiologii: kratkoe soobshchenie. Ukr. med. chasopis. 2010.; 2 (76): 89–90. [in Russian]
52. Di Meglio F, Nurzynska D, Castaldo C et al. Cardiac shock wave therapy: assessment of safety and new insights into mechanisms of tissue regeneration. J Cell Mol Med 2012; 16 (4): 936–42.
2. Беленков Ю.Н., Мареев В.Ю. Принципы рационального лечения сердечной недостаточности. М.: Медиа Медика, 2000. / Belenkov Yu.N., Mareev V.Yu. Printsipy ratsional'nogo lecheniia serdechnoi nedostatochnosti. M.: Media Medika, 2000. [in Russian]
3. Бузиашвили Ю.И., Степанов М.М, Мацкеплишвили С.Т., Арипов М.А. Оценка параметров ремоделирования левого желудочка у больных ИБС при ЭхоКГ в покое. Бюллетень НЦССХ. 2004; 9: 64–70. / Buziashvili Yu.I., Stepanov M.M, Matskeplishvili S.T., Aripov M.A. Otsenka parametrov remodelirovaniia levogo zheludochka u bol'nykh IBS pri EkhoKG v pokoe. Biulleten' NTsSSKh. 2004; 9: 64–70. [in Russian]
4. Асымбекова Э.У. Диагностика и тактика лечения больных ИБС с обратимыми формами дисфункции миокарда левого желудочка. Автореф. дис. … д-ра мед. наук. НЦССХ им А.Н.Бакулева. М., 1999. / Asymbekova E.U. Diagnostika i taktika lecheniia bol'nykh IBS s obratimymi formami disfunktsii miokarda levogo zheludochka. Avtoref. dis. … d-ra med. nauk. NTsSSKh im A.N.Bakuleva. M., 1999. [in Russian]
5. Бузиашвили Ю.И., Ключников И.В., Асымбекова Э.У. и др. Геометрические критерии диагностики жизнеспособности миокарда. Problems biomedical research. 2001; 6 (1): 90–7. / Buziashvili Yu.I., Klyuchnikov I.V., Asymbekova E.U. et al. Geometricheskie kriterii diagnostiki zhiznesposobnosti miokarda. Problems biomedical research. 2001; 6 (1): 90–7. [in Russian]
6. Frank R. Shock wave generator: pat. 2559227 USA. 1951.
7. Юткин Л.А. Способ получения высоких и сверхвысоких давлений. А. с. 105011 (СССР). 1957. / Yutkin L.A. Sposob polucheniia vysokikh i sverkhvysokikh davlenii. A. s. 105011 (SSSR). 1957. [in Russian]
8. Delius M et al. Biological effects of shock waves: Cavitation by shock waves in piglet liver. Ultrasound Med Biol 1990; 16 (5): 467–72.
9. Scales CD, Preminger GM et al. Changing gender prevalence of stone disease. J Urol 2007; 177 (3): 979–82.
10. Furia JP et al. Shock wave therapy compared with intramedullary screw fixation for nonunion of proximal fifth metatarsal metaphyseal-diaphyseal fractures. J Bone Joint Surg 2010; 92 (4): 846–85.
11. Preminger GM et al. 2007 guideline for the management of ureteral calculi. Eur Urol 2007; 52 (6): 1610–31.
12. Häusler E, Kiefer W. Anregung von Stoßwellen in Flüssigkeiten durch Hochgeschwindigkeits-Wassertropfen. Verhandlungen Dtsch Phys Gesellschaft (VI) 1971; 6: 786–9.
13. Paumgartner G, Sackmann M, Holl J, Sauerbruch T. Extracorporeal shock-wave lithotripsy of gallstones. Gallstone Disease: Pathophysiology and Therapeutic Approaches. W.Swobodnik, H.Ditsc-huneit, R.D.Soloway. Berlin: Springer-Verlag, 1990; p. 161–4.
14. Полянская О.Ю., Дудина Т.В., Шарабчиев Ю.Т. Использование экстракорпоральной ударно-волновой терапии в травматологии и ортопедии. Международные обзоры: клиническая практика и здоровье. 2013; 3 (3). / Polyanskaya O.Yu., Dudina T.V., Sharabchiev Yu.T. Ispol'zovanie ekstrakorporal'noi udarno-volnovoi terapii v travmatologii i ortopedii. Mezhdunarodnye obzory: klinicheskaia praktika i zdorov'e. 2013; 3 (3). [in Russian]
15. Шелль Я. Современные представления о фокусированной и радиальной терапии. Спортивная медицина. 2013; 1: 3–6. / Shell' Ya. Sovremennye predstavleniia o fokusirovannoi i radial'noi terapii. Sportivnaja meditsina. 2013; 1: 3–6. [in Russian]
16. Mariotto S et al. Extracorporeal Shock Waves: from lithotripsy to anti- inflammatory action by NO Production. Nitric Oxide 2005; 12 (2): 89–96.
17. Topper JN et al. Identification of vascular endothelial genes differentially responsive to fluid mechanical stimuli: cyclooxygenase-2, manganese superoxide dismutase, and endothelial cell nitric oxide synthase are selectively up-regulated by steady laminar shear stress. Proceed Nat Acad Sci 1996; 93 (19): 10417–22.
18. Ichioka S et al. Effects of shear stress on wound-healing angiogenesis in the rabbit ear chamber. J Surg Res 1997; 72 (1): 29–35.
19. Pan Q, Chathery Y, Wu Y et al. Neuropilin*1 binds to VEGF and regulates endothelial cell migration and sprouting. J Biol Chem 2007; 282: 24049–56.
20. Wang CJ, Huang HY, Pai CH. Shock Wave Enhanced Neovascularization At Tendon-Bone Junction: An Experiment In Dogs. J Foot Ankle Surg 2002; 41 (1): 16–22.
21. Zuoziene G, Zakarkaite D, Aidietiene S et al. Cardiac shock wave therapy in patients with end-stage coronary artery disease. First experience in Vilnius, Lithuania XXII Nordic-Baltic Congress of Cardiology. June 3–5, 2009.
22. Wang CJ, Wang FS, Yang KD et al. Shock Wave Therapy Induces Neovascularization At The Tendon- Bone Junction. A Study In Rabbits. J Orthop Res 2003; 21 (6): 984–9.
23. Luscinskas FW, Lim YC, Lichtman AH. Wall shear stress: the missing step for T cell transmigration? Nat Immunol 2001; 2 (6): 478–80.
24. Reher P, Doan N, Bradnock B et al. Effect of Ultrasound on the Production of IL-8, basic FGF and VEGF. Cytokine 1999; 11 (6): 416–23.
25. Aicher A, Heeschen C, Sasaki K et al. Low-energy shock wave for enhancing recruitment of endothelial progenitor cells: a new modality to increase efficacy of cell therapy in chronic hind limb ischemia. Circulation 2006; 114 (25): 2823–30.
26. Nurzynska D, Di Meglio F, Castaldo C et al. Shock waves activate in vitro cultured progenitors and precursors of cardiac cell lineages from the human heart. Ultrasound Med Biol 2008; 34 (2): 334–42.
27. Sun СK, Chang LT, Fang HY et al. Shock wave-pretreated bone marrow cells further improve left ventricular function after myocardial infarction in rabbits. Ann Vasc Surg 2010; 24 (6): 809–21.
28. Nishida T et al. Extracorporeal Cardiac Shock Wave Therapy Markedly Ameliorates Ischemia-Induced Myocardial Dysfunction in Pigs in Vivo. Circulation 2004; 110: 3055–61.
29. Young SR, Dyson M. The Effect of Therapeutic Ultrasound On An giogenesis. Ultrasound Med Biol 1990; 16 (3): 261–9.
30. Doan N, Reher P, Meghji S, Harris M. In Vitro Effects of Therapeutic Ultrasound On Cell Proliferation, Protein Synthesis, and Cytokine Production By Human Fibroblasts, Osteoblasts and Momocytes. J Oral Maxillofac Surg 1999; 57 (4): 409–19.
31. Aicher A, Heeschen C, Sasaki K-i, Zeiher AM. Shock Wave Therapy Recruits Systematically Infused Endothelial Progenitor Cells – Implications For Shock Wave – Facilitated Cell Therapy in chronic ischemia. Presented at the AHA Convention. November 2005.
32. Fu M, Sun CK, Lin YC et al. Extracorporeal shock wave therapy reverses ischemia-related left ventricular dysfunction and remodeling: molecular-cellular and functional assessment. PLoS One 2011; 6 (9): e24342.
33. Васюк Ю.А., Хадзегова А.Б, Школьник Е.Л. и др. Эффективность ударно-волновой терапии в лечении хронической сердечной недостаточности ишемического генеза. Кардиология. 2010; 12: 22–6. / Vasyuk Yu.A., Khadzegova A.B, Shkol'nik E.L. et al. Effektivnost' udarno-volnovoi terapii v lechenii khronicheskoi serdechnoi nedostatochnosti ishemicheskogo geneza. Kardiologiia. 2010; 12: 22–6. [in Russian]
34. Ito K, Fukumoto Y, Shimokawa H. Extracorporeal shock wave therapy for ischemic cardiovascular disorders. Am J Cardiovasc Drugs 2011; 11 (5): 295–302. DOI: 10.2165.
35. Yu W, Shen T, Liu B et al. Cardiac shock wave therapy attenuates H9c2 myoblast apoptosis by activating the AKT signal athway. Epub 2014 Apr 28.
36. Holfeld J, Zimpfer D, Albrecht-Schgoer K et al. Epicardial shock-wave therapy improves ventricular function in a porcine model of ischaemic heart disease. J Tissue Eng Regen Med 2014 May 19. DOI: 10.1002/term.1890. [Epub ahead of print].
37. Tepeköylü C, Wang FS, Kozaryn R et al. Department of Cardiac Surgery, Innsbruck Medical University, Innsbruck, Austria. Shock wave treatment induces angiogenesis and mobilizes endogenous CD31/CD34-positive endothelial cells in a hind limb ischemia model: implications for angiogenesis and vasculogenesis. J Thorac Cardiovasc Surg 2013; 146 (4): 971–8. DOI: 10.1016/j.jtcvs.2013.01.017. Epub 2013 Feb 8.
38. Peng YZ, Guo T, Yang P, Yang HW et al. Effects of extracorporeal cardiac shock wave therapy in patients with ischemic heart failure. Zhonghua Xin Xue Guan Bing Za Zhi 2012; 40 (2): 141–6.
39. Lei P, Tao SM, Shuai Q, Bao YX et al. Extracorporeal cardiac shock wave therapy ameliorates myocardial fibrosis by decreasing the amount of fibrocytes after acute myocardial infarction in pigs. Coron Artery Dis 2013; 24 (6): 509–15.
40. Caspari GH, Erbel R. Revascularization with Extracorporeal Shock Wave Therapy: First Clinical Results. Circulation 1999; 100 (Suppl. 18): 84.
41. Gutersohn A, Caspari G, Erbel R. New non-invasive therapeutic opportunities in the treatment of “refractory” angina and myocardial ischemia: 5 years of clinical experience. ESC 2004.
42. Leibowitz D, Weiss A et al. The efficacy of cardiac shock wave therapy in the treatment of refractory angina: A pilot prospective, randomized, double-blind trial. Int J Cardiology 2013; 167 (Issue 6): 3033–4.
43. Cassar A, Prasad M, Karia D et al. Safety and efficacy of extracorporeal shock wave myocardial revascularization therapy for refractory angina pectoris. Mayo Clin Proc 2014.
44. Peng YZ, Guo T, Yang P et al. Effects of extracorporeal cardiac shock wave therapy in patients with ischemic heart failure. Zhonghua Xin Xue Guan Bing Za Zhi 2012; 40 (2): 141–6.
45. Alunni G et al. The beneficial effect of extracorporeal shockwave myocardial revascularization in patients with refractory angins. Cardiovasc Revasc Med 2015; 16 (1): 6–11.
46. Kaller M et al. Cardiac shock wave therapy and myocardial perfusion in severe coronary artery disease. Clin Res Cardiol 2015; p. 1–7.
47. Турчин В.Д., Ювчик Е.В. Ударно-волновая терапия: первый опыт лечения больных ишемической болезнью сердца. Доктор.Ру. Кардиология. Ревматология. 2009; 7 (51): 7–11. / Turchin V.D., Yuvchik E.V. Udarno-volnovaia terapiia: pervyi opyt lecheniia bol'nykh ishemicheskoi bolezn'iu serdtsa. Doktor.Ru. Kardiologiia. Revmatologiia. 2009; 7 (51): 7–11. [in Russian]
48. Фросин С.А., Рагозин О.Н., Исакова Е.Ю., Хабаров А.Н. Экстракорпоральная сердечная ударно-волновая терапия: изучение антиаритмического эффекта у пациентов со стенокардией напряжения II–IV в сочетании с нарушениями ритма при локализованном воздействии на межжелудочковую перегородку миокарда. Мир науки, культуры, образования. 2012; 3: 278–80. / Frosin S.A., Ragozin O.N., Isakova E.Yu., Khabarov A.N. Ekstrakorporal'naia serdechnaia udarno-volnovaia terapiia: izuchenie antiaritmicheskogo effekta u patsientov so stenokardiei napriazheniia II–IV v sochetanii s narusheniiami ritma pri lokalizovannom vozdeistvii na mezhzheludochkovuiu peregorodku miokarda. Mir nauki, kul'tury, obrazovaniia. 2012; 3: 278–80. [in Russian]
49. Габрусенко С.А., Малахов В.В., Шитов В.Н. и др. Опыт применения лечебного метода кардиологической ударно-волновой терапии у больных ишемической болезнью сердца. Кардиология. 2013; 53 (5): 20–6. / Gabrusenko S.A., Malakhov V.V., Shitov V.N. et al. Opyt primeneniia lechebnogo metoda kardiologicheskoi udarno-volnovoi terapii u b ol'nykh ishemicheskoi bolezn'iu serdtsa. Kardiologiia. 2013; 53 (5): 20–6. [in Russian]
50. Чумакова О.В. Ударно-волновая терапия рефрактерной стенокардии у пациентов после прямой реваскуляризации миокарда. Вестн. эксперим. и клин. хирургии. 2011; IV (4): 796–98. / Chumakova O.V. Udarno-volnovaia terapiia refrakternoi stenokardii u patsientov posle priamoi revaskuliarizatsii miokarda. Vestn. eksperim. i klin. khirurgii. 2011; IV (4): 796–98. [in Russian]
51. Яргин С.В. Об ударно-волновой терапии в кардиологии: краткое сообщение. Укр. мед. часопис. 2010; 2 (76): 89–90. / Yargin S.V. Ob udarno-volnovoi terapii v kardiologii: kratkoe soobshchenie. Ukr. med. chasopis. 2010.; 2 (76): 89–90. [in Russian]
52. Di Meglio F, Nurzynska D, Castaldo C et al. Cardiac shock wave therapy: assessment of safety and new insights into mechanisms of tissue regeneration. J Cell Mol Med 2012; 16 (4): 936–42.
________________________________________________
2. Belenkov Yu.N., Mareev V.Yu. Printsipy ratsional'nogo lecheniia serdechnoi nedostatochnosti. M.: Media Medika, 2000. [in Russian]
3. Buziashvili Yu.I., Stepanov M.M, Matskeplishvili S.T., Aripov M.A. Otsenka parametrov remodelirovaniia levogo zheludochka u bol'nykh IBS pri EkhoKG v pokoe. Biulleten' NTsSSKh. 2004; 9: 64–70. [in Russian]
4. Asymbekova E.U. Diagnostika i taktika lecheniia bol'nykh IBS s obratimymi formami disfunktsii miokarda levogo zheludochka. Avtoref. dis. … d-ra med. nauk. NTsSSKh im A.N.Bakuleva. M., 1999. [in Russian]
5. Buziashvili Yu.I., Klyuchnikov I.V., Asymbekova E.U. et al. Geometricheskie kriterii diagnostiki zhiznesposobnosti miokarda. Problems biomedical research. 2001; 6 (1): 90–7. [in Russian]
6. Frank R. Shock wave generator: pat. 2559227 USA. 1951.
7. Yutkin L.A. Sposob polucheniia vysokikh i sverkhvysokikh davlenii. A. s. 105011 (SSSR). 1957. [in Russian]
8. Delius M et al. Biological effects of shock waves: Cavitation by shock waves in piglet liver. Ultrasound Med Biol 1990; 16 (5): 467–72.
9. Scales CD, Preminger GM et al. Changing gender prevalence of stone disease. J Urol 2007; 177 (3): 979–82.
10. Furia JP et al. Shock wave therapy compared with intramedullary screw fixation for nonunion of proximal fifth metatarsal metaphyseal-diaphyseal fractures. J Bone Joint Surg 2010; 92 (4): 846–85.
11. Preminger GM et al. 2007 guideline for the management of ureteral calculi. Eur Urol 2007; 52 (6): 1610–31.
12. Häusler E, Kiefer W. Anregung von Stoßwellen in Flüssigkeiten durch Hochgeschwindigkeits-Wassertropfen. Verhandlungen Dtsch Phys Gesellschaft (VI) 1971; 6: 786–9.
13. Paumgartner G, Sackmann M, Holl J, Sauerbruch T. Extracorporeal shock-wave lithotripsy of gallstones. Gallstone Disease: Pathophysiology and Therapeutic Approaches. W.Swobodnik, H.Ditsc-huneit, R.D.Soloway. Berlin: Springer-Verlag, 1990; p. 161–4.
14. Polyanskaya O.Yu., Dudina T.V., Sharabchiev Yu.T. Ispol'zovanie ekstrakorporal'noi udarno-volnovoi terapii v travmatologii i ortopedii. Mezhdunarodnye obzory: klinicheskaia praktika i zdorov'e. 2013; 3 (3). [in Russian]
15. Shell' Ya. Sovremennye predstavleniia o fokusirovannoi i radial'noi terapii. Sportivnaja meditsina. 2013; 1: 3–6. [in Russian]
16. Mariotto S et al. Extracorporeal Shock Waves: from lithotripsy to anti- inflammatory action by NO Production. Nitric Oxide 2005; 12 (2): 89–96.
17. Topper JN et al. Identification of vascular endothelial genes differentially responsive to fluid mechanical stimuli: cyclooxygenase-2, manganese superoxide dismutase, and endothelial cell nitric oxide synthase are selectively up-regulated by steady laminar shear stress. Proceed Nat Acad Sci 1996; 93 (19): 10417–22.
18. Ichioka S et al. Effects of shear stress on wound-healing angiogenesis in the rabbit ear chamber. J Surg Res 1997; 72 (1): 29–35.
19. Pan Q, Chathery Y, Wu Y et al. Neuropilin*1 binds to VEGF and regulates endothelial cell migration and sprouting. J Biol Chem 2007; 282: 24049–56.
20. Wang CJ, Huang HY, Pai CH. Shock Wave Enhanced Neovascularization At Tendon-Bone Junction: An Experiment In Dogs. J Foot Ankle Surg 2002; 41 (1): 16–22.
21. Zuoziene G, Zakarkaite D, Aidietiene S et al. Cardiac shock wave therapy in patients with end-stage coronary artery disease. First experience in Vilnius, Lithuania XXII Nordic-Baltic Congress of Cardiology. June 3–5, 2009.
22. Wang CJ, Wang FS, Yang KD et al. Shock Wave Therapy Induces Neovascularization At The Tendon- Bone Junction. A Study In Rabbits. J Orthop Res 2003; 21 (6): 984–9.
23. Luscinskas FW, Lim YC, Lichtman AH. Wall shear stress: the missing step for T cell transmigration? Nat Immunol 2001; 2 (6): 478–80.
24. Reher P, Doan N, Bradnock B et al. Effect of Ultrasound on the Production of IL-8, basic FGF and VEGF. Cytokine 1999; 11 (6): 416–23.
25. Aicher A, Heeschen C, Sasaki K et al. Low-energy shock wave for enhancing recruitment of endothelial progenitor cells: a new modality to increase efficacy of cell therapy in chronic hind limb ischemia. Circulation 2006; 114 (25): 2823–30.
26. Nurzynska D, Di Meglio F, Castaldo C et al. Shock waves activate in vitro cultured progenitors and precursors of cardiac cell lineages from the human heart. Ultrasound Med Biol 2008; 34 (2): 334–42.
27. Sun СK, Chang LT, Fang HY et al. Shock wave-pretreated bone marrow cells further improve left ventricular function after myocardial infarction in rabbits. Ann Vasc Surg 2010; 24 (6): 809–21.
28. Nishida T et al. Extracorporeal Cardiac Shock Wave Therapy Markedly Ameliorates Ischemia-Induced Myocardial Dysfunction in Pigs in Vivo. Circulation 2004; 110: 3055–61.
29. Young SR, Dyson M. The Effect of Therapeutic Ultrasound On An giogenesis. Ultrasound Med Biol 1990; 16 (3): 261–9.
30. Doan N, Reher P, Meghji S, Harris M. In Vitro Effects of Therapeutic Ultrasound On Cell Proliferation, Protein Synthesis, and Cytokine Production By Human Fibroblasts, Osteoblasts and Momocytes. J Oral Maxillofac Surg 1999; 57 (4): 409–19.
31. Aicher A, Heeschen C, Sasaki K-i, Zeiher AM. Shock Wave Therapy Recruits Systematically Infused Endothelial Progenitor Cells – Implications For Shock Wave – Facilitated Cell Therapy in chronic ischemia. Presented at the AHA Convention. November 2005.
32. Fu M, Sun CK, Lin YC et al. Extracorporeal shock wave therapy reverses ischemia-related left ventricular dysfunction and remodeling: molecular-cellular and functional assessment. PLoS One 2011; 6 (9): e24342.
33. Vasyuk Yu.A., Khadzegova A.B, Shkol'nik E.L. et al. Effektivnost' udarno-volnovoi terapii v lechenii khronicheskoi serdechnoi nedostatochnosti ishemicheskogo geneza. Kardiologiia. 2010; 12: 22–6. [in Russian]
34. Ito K, Fukumoto Y, Shimokawa H. Extracorporeal shock wave therapy for ischemic cardiovascular disorders. Am J Cardiovasc Drugs 2011; 11 (5): 295–302. DOI: 10.2165.
35. Yu W, Shen T, Liu B et al. Cardiac shock wave therapy attenuates H9c2 myoblast apoptosis by activating the AKT signal athway. Epub 2014 Apr 28.
36. Holfeld J, Zimpfer D, Albrecht-Schgoer K et al. Epicardial shock-wave therapy improves ventricular function in a porcine model of ischaemic heart disease. J Tissue Eng Regen Med 2014 May 19. DOI: 10.1002/term.1890. [Epub ahead of print].
37. Tepeköylü C, Wang FS, Kozaryn R et al. Department of Cardiac Surgery, Innsbruck Medical University, Innsbruck, Austria. Shock wave treatment induces angiogenesis and mobilizes endogenous CD31/CD34-positive endothelial cells in a hind limb ischemia model: implications for angiogenesis and vasculogenesis. J Thorac Cardiovasc Surg 2013; 146 (4): 971–8. DOI: 10.1016/j.jtcvs.2013.01.017. Epub 2013 Feb 8.
38. Peng YZ, Guo T, Yang P, Yang HW et al. Effects of extracorporeal cardiac shock wave therapy in patients with ischemic heart failure. Zhonghua Xin Xue Guan Bing Za Zhi 2012; 40 (2): 141–6.
39. Lei P, Tao SM, Shuai Q, Bao YX et al. Extracorporeal cardiac shock wave therapy ameliorates myocardial fibrosis by decreasing the amount of fibrocytes after acute myocardial infarction in pigs. Coron Artery Dis 2013; 24 (6): 509–15.
40. Caspari GH, Erbel R. Revascularization with Extracorporeal Shock Wave Therapy: First Clinical Results. Circulation 1999; 100 (Suppl. 18): 84.
41. Gutersohn A, Caspari G, Erbel R. New non-invasive therapeutic opportunities in the treatment of “refractory” angina and myocardial ischemia: 5 years of clinical experience. ESC 2004.
42. Leibowitz D, Weiss A et al. The efficacy of cardiac shock wave therapy in the treatment of refractory angina: A pilot prospective, randomized, double-blind trial. Int J Cardiology 2013; 167 (Issue 6): 3033–4.
43. Cassar A, Prasad M, Karia D et al. Safety and efficacy of extracorporeal shock wave myocardial revascularization therapy for refractory angina pectoris. Mayo Clin Proc 2014.
44. Peng YZ, Guo T, Yang P et al. Effects of extracorporeal cardiac shock wave therapy in patients with ischemic heart failure. Zhonghua Xin Xue Guan Bing Za Zhi 2012; 40 (2): 141–6.
45. Alunni G et al. The beneficial effect of extracorporeal shockwave myocardial revascularization in patients with refractory angins. Cardiovasc Revasc Med 2015; 16 (1): 6–11.
46. Kaller M et al. Cardiac shock wave therapy and myocardial perfusion in severe coronary artery disease. Clin Res Cardiol 2015; p. 1–7.
47. Turchin V.D., Yuvchik E.V. Udarno-volnovaia terapiia: pervyi opyt lecheniia bol'nykh ishemicheskoi bolezn'iu serdtsa. Doktor.Ru. Kardiologiia. Revmatologiia. 2009; 7 (51): 7–11. [in Russian]
48. Frosin S.A., Ragozin O.N., Isakova E.Yu., Khabarov A.N. Ekstrakorporal'naia serdechnaia udarno-volnovaia terapiia: izuchenie antiaritmicheskogo effekta u patsientov so stenokardiei napriazheniia II–IV v sochetanii s narusheniiami ritma pri lokalizovannom vozdeistvii na mezhzheludochkovuiu peregorodku miokarda. Mir nauki, kul'tury, obrazovaniia. 2012; 3: 278–80. [in Russian]
49. Gabrusenko S.A., Malakhov V.V., Shitov V.N. et al. Opyt primeneniia lechebnogo metoda kardiologicheskoi udarno-volnovoi terapii u b ol'nykh ishemicheskoi bolezn'iu serdtsa. Kardiologiia. 2013; 53 (5): 20–6. [in Russian]
50. Chumakova O.V. Udarno-volnovaia terapiia refrakternoi stenokardii u patsientov posle priamoi revaskuliarizatsii miokarda. Vestn. eksperim. i klin. khirurgii. 2011; IV (4): 796–98. [in Russian]
51. Yargin S.V. Ob udarno-volnovoi terapii v kardiologii: kratkoe soobshchenie. Ukr. med. chasopis. 2010.; 2 (76): 89–90. [in Russian]
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Авторы
С.Т.Мацкеплишвили*1,2, Б.М.Борбодоева2
1 Медицинский научно-образовательный центр ФГБОУ ВО Московский государственный университет им. М.В.Ломоносова. 119991, Россия, Москва, Ломоносовский пр-т, д. 27, корп. 10;
2 ФГБНУ Научный центр сердечно-сосудистой хирургии им. А.Н.Бакулева. 121552, Россия, Москва, Рублевское ш., д. 135
*simonmats@mc.msu.ru
1 Lomonosov Moscow State University Medical Center. 119991, Russian Federation, Moscow, Lomonosovsky pr-t, d. 27, korp. 10;
2 A.N.Bakulev Scientific Centre of Cardiovascular Surgery. 121552, Russian Federation, Moscow, Rublevskoe sh., d. 135
*simonmats@mc.msu.ru
1 Медицинский научно-образовательный центр ФГБОУ ВО Московский государственный университет им. М.В.Ломоносова. 119991, Россия, Москва, Ломоносовский пр-т, д. 27, корп. 10;
2 ФГБНУ Научный центр сердечно-сосудистой хирургии им. А.Н.Бакулева. 121552, Россия, Москва, Рублевское ш., д. 135
*simonmats@mc.msu.ru
________________________________________________
1 Lomonosov Moscow State University Medical Center. 119991, Russian Federation, Moscow, Lomonosovsky pr-t, d. 27, korp. 10;
2 A.N.Bakulev Scientific Centre of Cardiovascular Surgery. 121552, Russian Federation, Moscow, Rublevskoe sh., d. 135
*simonmats@mc.msu.ru
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