The influence of combined effects of hyperbaria and hyperoxia on human heart rate variability during exercise strain

Е.Yu. Bersenev, A.I. Dyachenko, A.V. Suvorov, P.N. Demina, I. Berseneva, T.V. Dyachkova
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Abstract

With the participation of 8 male volunteers, the dynamics of values of heart rate autonomic regulation were studied at response to physical load on a bicycle ergometer twice: both respirating by the room air under normobaric environment and simulating effects of the altered hyperoxic respiratory gas mixture (HRGM) by the rebreathe respiration methods from a rebreather at the high-pressure chamber (at «depth» 7 m). The devices and methods of Holter electrocardiogram monitoring were used under 24 hours research. The specialized software to analyze the data was used. The electrocardiogram (ECG) and calculated time series of cardiac intervals data obtained were subjected to mathematical processing to calculate statistical and spectral values of heart rate variability (HRV). Additionally, the geometric and nonlinear analysis methods of HRV were investigated. It has been established that influencing factors (compound and pressure of the HRGM) affect the autonomic regulation of heartbeats both at rest and during physical load. Clinical practitioners the HRV values are studied at rest and during strictly regulated tests, i.e. in stationary conditions. The analysis of non-stationary processes, for example, when it is necessary to continuously analyze data, the so-called transient processes under increasing psychological stress, to assess changes in the autonomic regulation of the heart during breathing of gas mixtures with different compositions (hypoxic therapy, hyperbaric oxygenation, etc.), and, especially during physically upload are used the methods of nonlinear and geometric analysis of HRV that are independent of the degree of nonstationary processes and, to some extent, of artifactual cardiac intervals. During the breathing the respiratory gas mixtures with an increased substance of O2 under conditions of high pressure, the activity of the parasympathetic branches of the autonomic nervous system (ANS) significantly increases. The nonlinear dynamics indexes reflect significant differences in the activity of autonomic components under experimental conditions in the direction of strengthening the parasympathetic links of the ANS. The use of nonlinear analysis values is more acceptable when evaluating obtained of non-stationary processes. In general, the study confirms that the regulatory response to the effects of hyperbaria and hyperoxia when performing a bicycle ergometer test with stepwise increase exercise strain is manifested by the prevalence of the activity of the parasympathetic part of the ANS autonomic regulation of cardiac rhythm compared to regular room air and barometric pressure.
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高血压和高氧对运动负荷时心率变异性的综合影响
在 8 名男性志愿者的参与下,研究人员两次在自行车测力计上研究了心率自律神经调节值对体力负荷的动态响应:在常压环境下使用室内空气呼吸,以及在高压舱("深度 "7 米)中使用呼吸器进行呼吸模拟高氧呼吸气体混合物(HRGM)改变的影响。在 24 小时的研究中使用了 Holter 心电图监测设备和方法。使用专业软件分析数据。获得的心电图(ECG)和计算出的心脏间期时间序列数据经过数学处理,计算出心率变异性(HRV)的统计值和频谱值。此外,还研究了心率变异的几何和非线性分析方法。现已证实,影响因素(心率变异测量仪的复合体和压力)会影响心脏跳动的自律性调节,无论是在休息时还是在体力负荷时。临床医师对心率变异值的研究是在静息状态和严格规定的测试期间,即在静止状态下进行的。对非稳态过程的分析,例如,当需要持续分析数据时,即所谓的心理压力增加时的瞬态过程,评估呼吸不同成分的混合气体(缺氧治疗、高压氧等)时心脏自主神经调节的变化,尤其是在身体负荷增加时,则使用心率变异的非线性和几何分析方法,这些方法不受非稳态过程程度的影响,在一定程度上也不受伪造心搏间期的影响。在高压条件下呼吸氧气含量增加的混合气体时,自律神经系统(ANS)副交感神经分支的活动明显增加。非线性动力学指数反映了实验条件下自律神经成分活动的显著差异,其方向是加强自律神经系统的副交感神经联系。在评估所获得的非稳态过程时,使用非线性分析值更容易被接受。总之,研究证实,与普通的室内空气和气压相比,在进行自行车测力计测试时,运动负荷逐步增加,对高湿度和高氧影响的调节反应表现为自律神经系统副交感神经部分对心律的自律调节活动的普遍性。
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来源期刊
Cardiometry
Cardiometry MEDICAL LABORATORY TECHNOLOGY-
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审稿时长
6 weeks
期刊介绍: Cardiometry is an open access biannual electronic journal founded in 2012. It refers to medicine, particularly to cardiology, as well as oncocardiology and allied science of biophysics and medical equipment engineering. We publish mainly high quality original articles, reports, case reports, reviews and lectures in the field of the theory of cardiovascular system functioning, principles of cardiometry, its diagnostic methods, cardiovascular system therapy from the aspect of cardiometry, system and particular approaches to maintaining health, engineering peculiarities in cardiometry developing. The interdisciplinary areas of the journal are: hemodynamics, biophysics, biochemistry, metrology. The target audience of our Journal covers healthcare providers including cardiologists and general practitioners, bioengineers, biophysics, medical equipment, especially cardiology diagnostics device, developers, educators, nurses, healthcare decision-makers, people with cardiovascular diseases, cardiology and engineering universities and schools, state and private clinics. Cardiometry is aimed to provide a wide forum for exchange of information and public discussion on above scientific issues for the mentioned experts.
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