Cardiac Autonomic Control in Elite Juvenile Cyclists

Medicina sportiva (Krakow, Poland : English ed.) Pub Date : 2011-09-01 DOI:10.2478/V10036-011-0018-9

S. Brown, A. Raman, Z. Schlader, S. Stannard

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Abstract

Introduction: Frequency domain analysis of heart rate variability (HRV) may potentially identify the dominance exhibited by different branches of the autonomic nervous system. Autonomic contribution to cardio-deceleration following exercise has been studied in adults; however, no data are available for endurance trained juvenile athletes. Aim: The aim of this study was to evaluate the association between the increase in heart rate following exercise and any change in HRV frequency components in trained juveniles. Methods: A 6 min resting ECG (lead 2) was recorded from trained juvenile cyclists (23 male, 7 female, mean age 14.7 years), before (Pre) and after (Post) incremental exercise to volitional exhaustion on a stationary cycle ergometer. Each subject performed a progressive ramp protocol where power increased by 20W min -1 , with initial power set at 60 W for females and 100 W for males. Oxygen uptake ( ¦O 2 ) was measured using breath-by-breath techniques. ECG was analysed in both time and frequency domains using commercially available software. Results: Mean ¦O 2 max was 75.5 ml Kg -1 min -1 , and mean power at ¦O 2 max was 440 W. The R-R interval SD was lower following exercise (Pre: 86ms vs. Post: 36ms, P <0.01). Normalised high frequency HRV was lower (Pre: 36.5 vs. Post: 18.7, P <0.01) and normalised low frequency HRV was higher (Pre: 58.5 vs. Post: 75.0, P <0.01) following exercise. Conclusions: In elite juvenile athletes there were no associations between exercise-induced changes in high frequency variability and heart rate ( R 2 =0.073). This suggests that in elite juveniles, the heart may be less sensitive to vagal influences - a suggestion further supported by the relatively high pre-exercise resting heart rates with normal high frequency variability.

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优秀青少年自行车运动员的心脏自主控制

心率变异性(HRV)的频域分析可能潜在地识别自主神经系统不同分支所表现出的优势。在成人中研究了运动后自主神经对心脏减速的贡献;然而，没有关于耐力训练的青少年运动员的数据。目的:本研究的目的是评估训练后青少年运动后心率增加与HRV频率成分变化之间的关系。方法:记录经过训练的青少年自行车运动员(23名男性，7名女性，平均年龄14.7岁)在增加运动之前(前)和之后(后)在固定式自行车测力仪上的6分钟静息心电图(导联2)。每个受试者都执行一个渐进的斜坡方案，其中功率每分钟增加20W，女性初始功率设置为60 W，男性为100 W。采用呼吸法测定摄氧量(O 2)。使用市售软件对心电图进行时域和频域分析。结果:平均o_2 max为75.5 ml Kg -1 min -1，平均o_2 max功率为440w。运动后R-R间隔SD较低(运动前:86ms vs.运动后:36ms, P <0.01)。运动后归一化高频HRV降低(术前:36.5 vs后:18.7,P <0.01)，归一化低频HRV升高(术前:58.5 vs后:75.0,P <0.01)。结论:在优秀青少年运动员中，运动引起的高频变异性变化与心率之间没有相关性(r2 =0.073)。这表明，在优秀青少年中，心脏可能对迷走神经的影响不太敏感——运动前相对较高的静息心率和正常的高频变异性进一步支持了这一观点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Medicina sportiva (Krakow, Poland : English ed.)

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