[Tests with controlled respiration in assessing the variability of the parameters of the cardiorespiratory system of athletes]
| Autor: | Romanchuk, AP, Guziy, OV |
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| Rok vydání: | 2017 |
| Předmět: | |
| DOI: | 10.5281/zenodo.802943 |
| Popis: | The features of the evaluation of the results of the study of the parameters of the variability of the cardiorespiratory system are shown using tests with controlled respiration 6 and 15 times per minute. As a result of the survey of 1930 male athletes, the ranges of normative values of heart rate variability, systolic and diastolic arterial pressure, as well as respiration in case of spontaneous and controlled breathing were determined. {"references":["1.\tАтаханов Щ.Э., Робертсон Д. Ортостатическая гипотония и вегетативная недостаточность (механизмы и классификации) //Кардиология. – 1995. – № 3, – С. 41 – 50","2.\tБаевский Р.М., Мотылянская Р.Е. Ритм сердца у спортсменов. – М.: ФиС, 1986. – 142 с.","3.\tВегетативные расстройства: Клиника, лечение, диагностика /Под ред. А.М. Вейна. – М.: Мединформ, 2000. – 752 с.","4.\tГузій О.В., Романчук О.П. Варіабельність довільного дихання як критерій відновлення організму висококваліфікованих спортсменів після змагального навантаження // Медична гідрологія та реабілітація. – 2015. – т.13. - №4 - С. 67","5.\tРоманчук А.П. Роль частоты спонтанного дыхания в поддержании систолического давления (на примере обследования высококвалифицированных спортсменов) // Современные наукоёмкие технологии. - №6. – 2005. – С.49-52.","6.\tРоманчук О.П. До питання оцінки активності вегетативної нервової системи у спортсменів // Медична реабілітація, курортологія, фізіотерапія. - №4. – 2005. – С. 31-34.","7.\tРоманчук А.П. Комплексный подход к диагностике состояния кардиореспираторной системы у спортсменов: Монография / А.П. Романчук, Л. А. Носкин, В. В. Пивоваров, М. Ю. Карганов. – Одесса: Феникс. – 2011. – 256 с.","8.\tРоманчук А.П., Овчарек А.М., Браславский И.А. Вегетативное обеспечение кардиореспираторной системы студентов, занимающихся различными видами спорта // Теория и практика физической культуры. - №7. – 2006 - С. 48-50","9.\tAguirre A, Wodicka GR, Maayan C, Shannon DC Interaction between respiratory and RR interval oscillations at low frequencies. J Auton Nerv Syst; 1990. – 29:241–246.","10.\tAkselrod S Components of heart rate variability. Heart rate variability. - N. Y.: Armonk. - 1995","11.\tAndreas S, Hajak G, von Breska B, Rüther E, Kreuzer H Changes in heart rate during obstructive sleep apnoea. Eur Respir J. 1992. Jul;5(7):853-7.","12.\tCooke WH, Cox JF, Diedrich AM, Taylor JA, Beightol LA, et al Controlled breathing protocols probe human autonomic cardiovascular rhythms. Am J Physiol; 1998. 274:H709-H718.","13.\tGuziy OV , Romanchuk AP. Multifunctional determinants of athletes' health // Journal of Medicine and Health Research, 2017, 2 (1): 12-21","14.\tHirsch JA, Bishop B Respiratory sinus arrhythmia in humans: how breathing pattern modulates heart rate. Am J Physiol. 1981. Oct;241(4):H620-9.","15.\tIellamo F, Legramante JM, Massaro M, Raimondi G, Galante A Effects of a Residential Exercise Training on Baroreflex Sensitivity and Heart Rate Variability in Patients With Coronary Artery Disease. Circulation; 2000. 102:2588-2592.","16.\tKaremaker John M., DeBoer, Roel W. Vagal baroreflex latency in circulatory control. Сomment to: Eckberg et al: Respiratory modulation of human autonomic function on Earth. J Physiol 594.19 (2016) pp 5611–5627. The Journal of Physiology. March 2017 DOI: 10.1113/JP273766","17.\tLin YC, Shida KK, Hong SK Effects of hypercapnia, hypoxia, and rebreathing on heart rate response during apnea. J Appl Physiol. 1983. - Jan;54(1):166-71.","18.\tMalliani A, Lombardi P, Pagani M Power spectrum analysis of heart rate variability: a tool to explore neural regulatory mechanisms. Br Heart J; 1994.- 71:1–2","19.\tPivovarov VV. [A spiroarteriocardiorhythmograph]. Rus. Med. Tekh. 2006; (1): 38-41.","20.\tPreas II HL, Jubran A, Vandivier RW, Reda D, Godin PJ, et al Effect of Endotoxin on Ventilation and Breath Variability. Am J Respir Crit Care Med; 2001. 164:620-626.","21.\tRobertson D Mechanisms of orthostatic hypotension. Curr Cardiol. 1993. - 8:737-745.","22.\tRomanchuk A.P. Estimation of cardiovascular system reactance of sportsmen at use of tests with controlled respiration\t// Journal Of Health Sciences (J Of H Ss), 3(4), 2013 - Р. 335-344","23.\tRomanchuk A.P. The Complex Approach to a Multipurpose Estimation of a Sportsmen Condition / In: Polysystemic Approach to School, Sport and Environment Medicine, M. Karganov ed., 2014. OMICS Group eBooks, 731 Gull Ave, Foster City. CA 94404, USA, 160 p., P. 39-57","24.\tThierry B, Liang P, Robbins PA Breath-to-breath relationships between respiratory cycle variables in humans at fixed end-tidal PCO2 and PO2. J Appl Physiol 1996. 81(5):2287-2296.","25.\tVaschillo E.G., Fonoberova M., Mezic I., Buckman J. F., Fonoberov V., Mezic A.J., Vaschillo B., Bates M.E. A Computational Physiology Approach to Personalized Treatment Models: The Beneficial Effects of Slow Breathing on the Human Cardiovascular System. AJP Heart and Circulatory Physiology 307(7) · July 2014 DOI: 10.1152/ajpheart.01011.2013"]} |
| Databáze: | OpenAIRE |
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