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Beat-to-beat autonomic cardiovascular response to short-term 10002 breathing: A time-frequency analysis approach

机译：对短期100％02呼吸的逐次自律性心血管反应：一种时频分析方法

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In sixteen healthy volunteers, we assessed the effects produced by short-term 100% O2 breathing on the instantaneous time courses of R-R intervals (RR), arterial pressure (AP), arterial oxygen saturation (SaO2), respiratory volume (Res), and, estimated by a time frequency distribution, the high frequency powers of RR (HFrr) and Res (HFRes), the low frequency powers of RR (LFrr) and systolic pressure (LFSP), the LFRR/HFRR ratio, baroreflex sensitivity (BRS) by alpha index and respiratory sinus arrhythmia sensitivity (RSAS). Short-time hyperoxemia provoked various effects with different latencies: a) RR lengthening, with 15-s latency; b) AP increase, with 75-s latency, c) BRS and RSAS increases with 120-s latency, d) HFrr increase and LFSP and LFrr/HFrr decreases, with 135-s latency, and d) no significant changes on Res. During hyperoxemia, the instantaneous time courses of these variables are fluctuating, with subtle yet significant changes at different latencies. Initially, hyperoxemia lengthens RR by direct inhibition of the sinoatrial node, and later on, it elicits a direct vasoconstriction-dependent increment of AP, which, via baroreflex with augmented sensitivity, increases vagal outflow and reduces sympathetic activity, changes strengthened by the augmented RSAS, but hyperoxemia does not modify the respiratory variables.

机译：在16名健康志愿者中，我们评估了短期100％O2呼吸对RR间隔（RR），动脉压（AP），动脉血氧饱和度（SaO2），呼吸量（Res）和通过时间频率分布，RR（HFrr）和Res（HFRes）的高频功率，RR（LFrr）和收缩压（LFSP）的低频功率，LFRR / HFRR比，压力反射敏感度（BRS）进行估算通过alpha指数和呼吸道窦性心律不齐敏感性（RSAS）。短时高氧血症以不同的潜伏期引起了各种影响：a）RR延长，潜伏期为15秒; b）AP以75秒的等待时间增加，c）BRS和RSAS以120秒的等待时间增加，d）HFrr增加，而LFSP和LFrr / HFrr减少，以135s等待时间，并且d）Res没有明显变化。在高氧血症期间，这些变量的瞬时时间过程是波动的，在不同的延迟下会有细微但显着的变化。最初，高氧血症通过直接抑制窦房结延长RR，随后引发AP的直接血管收缩依赖性增加，这通过压力反射和敏感性增强而增加，增加了迷走神经流出并减少了交感神经活动，通过增强的RSAS增强了改变，但高氧血症不会改变呼吸变量。

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《Computing in Cardiology Conference》|2016年|857-860|共4页
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Salvador Carrasco-Sosa; Alejandra Guillén-Mandujano;
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Time-frequency analysis; Baroreflex; Sensitivity; Frequency estimation; Heart rate variability; Blood pressure;

机译：时频分析压力反射灵敏度频率估计心率变异性血压;

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1. Effect of paced breathing on ventilatory and cardiovascular variability parameters during short-term investigations of autonomic function. [J] . Pinna GD, Maestri R, La Rovere MT, American Journal of Physiology . 2006,第1期

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2. CARDIOVASCULAR AND AUTONOMIC RESPONSES TO LEFT AND RIGHT UNILATERAL NOSTRIL BREATHING [J] . Gholamrezaei Ali, Van Diest Ilse, Vlaeyen Johan, Psychosomatic Medicine: Journal of the American Psychosomatic Society . 2019,第4期

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3. Erratum to: Diagnostic performance analysis for diabetic cardiovascular autonomic neuropathy based on short-term heart rate variability using Bayesian methods: preliminary analysis [J] . Jun Chen, Shuang-Bin Yang, Juanmei Liu, Diabetology and Metabolic Syndrome . 2017,第1期

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4. Beat-to-beat autonomic cardiovascular response to short-term 10002 breathing: A time-frequency analysis approach [C] . Salvador Carrasco-Sosa, Alejandra Guillén-Mandujano Computing in Cardiology Conference . 2016

机译：击败自动心血管反应短期100％02呼吸：时频分析方法
5. Abnormalities in cardiovascular autonomic function: Independent effects of sleep-disordered breathing and impaired glucose metabolism. [D] . Wang, Wenli. 2011

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6. Erratum to: Diagnostic performance analysis for diabetic cardiovascular autonomic neuropathy based on short-term heart rate variability using Bayesian methods: preliminary analysis [O] . Jun Chen, Shuang-Bin Yang, Juanmei Liu, 2017

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Beat-to-beat autonomic cardiovascular response to short-term 10002 breathing: A time-frequency analysis approach

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