Kaikkonen P, Rusko H, Martinmäki K
KIHU-Research Institute for Olympic Sports, Jyväskylä, Finland.
Scand J Med Sci Sports. 2008 Aug;18(4):511-9. doi: 10.1111/j.1600-0838.2007.00728.x. Epub 2007 Dec 7.
Methodological problems have limited the number of studies on heart rate variability (HRV) dynamics immediately after exercise. We used the short-time Fourier transform method to study immediate (5 min) and slow (30 min) recovery of HRV after different high-intensity exercise interventions. Eight male athletes performed two interval interventions at 85% and 93% (IV(85) and IV(93)) and two continuous interventions at 80% and 85% (CO(80) and CO(85)) of the velocity at VO2max (vVO2max). We found no increase in high frequency power (HFP), but low frequency (LFP) and total power (TP) increased (P<0.05) during the first 5 min of the recovery after each intervention. During the 30-min recovery, HFP, LFP and TP (1) increased slowly toward resting values, but HFP remained lower (P<0.01) than at rest, (2) were lower (P<0.05) after IV(93) and CO(85) when compared with IV(85) and CO(80), respectively and (3) were lower (P<0.01) after CO(85) when compared with IV(85). HRV recovery was detected during the immediate recovery after interventions. Increased exercise intensity resulted in lower HRV both in interval and in continuous interventions. In addition, when interval and continuous interventions were performed at a similar workload, HRV was lower after continuous intervention.
方法学问题限制了运动后即刻心率变异性(HRV)动态变化的研究数量。我们采用短时傅里叶变换方法,研究不同高强度运动干预后HRV的即刻(5分钟)和缓慢(30分钟)恢复情况。八名男性运动员在最大摄氧量速度(vVO2max)的85%和93%进行了两次间歇干预(IV(85)和IV(93)),并在80%和85%进行了两次持续干预(CO(80)和CO(85))。我们发现,每次干预后的恢复最初5分钟内,高频功率(HFP)没有增加,但低频功率(LFP)和总功率(TP)增加(P<0.05)。在30分钟的恢复过程中,HFP、LFP和TP(1)缓慢向静息值增加,但HFP仍低于静息值(P<0.01),(2)与IV(85)和CO(80)相比,IV(93)和CO(85)后的HFP、LFP和TP分别较低(P<0.05),(3)与IV(85)相比,CO(85)后的HFP、LFP和TP较低(P<0.01)。干预后的即刻恢复过程中检测到HRV恢复。运动强度增加导致间歇和持续干预后的HRV均降低。此外,当间歇和持续干预在相似工作量下进行时,持续干预后的HRV较低。
