Fryer S, Stoner L, Lucero A, Witter T, Scarrott C, Dickson T, Cole M, Draper N
School of Sport and Exercise, University of Gloucestershire, Gloucestershire, UK.
School of Sport and Exercise, Massey University, Wellington, New Zealand.
Int J Sports Med. 2015 Feb;36(2):137-42. doi: 10.1055/s-0034-1385887. Epub 2014 Sep 24.
Currently it is unclear whether blood flow (BF) or muscle oxidative capacity best governs performance during intermittent contractions to failure. The aim of this study was to determine oxygenation kinetics and BF responses during intermittent (10 s contraction: 3 s release) contractions at 40% of MVC in rock climbers of different ability (N=38). Total forearm BF, as well as de-oxygenation and re-oxygenation of the flexor digitorum profundus (FDP) and the flexor carpi radialis (FCR) were assessed. Compared to the control, intermediate and advanced groups, the elite climbers had a significantly (p<0.05) greater force time integral (FTI), MVC and MVC/kg. Furthermore, the elite climbers de-oxygenated the FDP significantly more during the first (7.8, 11.9, 12.4 vs. 15.7 O2%) and middle (7.3, 8.8, 10.4 vs.15.3 O2%) phases of contractions as well as for the FCR during the first phase only (8.3, 7, 11.7 vs. 13.3 O2%). They also had a significantly higher BF upon release of the contractions (656, 701, 764 vs. 971 mL ∙ min(-1)). The higher FTI seen in elite climbers may be attributable to a greater blood delivery, and an enhanced O2 recovery during the 3 s release periods, as well as a superior muscle oxidative capacity associated with the greater de-oxygenation during the 10 s contractions.
目前尚不清楚在间歇性收缩至力竭过程中,血流量(BF)还是肌肉氧化能力对运动表现的影响最大。本研究的目的是确定不同能力的攀岩者(N = 38)在以40%最大随意收缩(MVC)进行间歇性(10秒收缩:3秒放松)收缩时的氧合动力学和BF反应。评估了前臂总BF以及指深屈肌(FDP)和桡侧腕屈肌(FCR)的去氧和再氧合情况。与对照组、中级组和高级组相比,精英攀岩者的力时积分(FTI)、MVC和MVC/体重显著更高(p<0.05)。此外,精英攀岩者在收缩的第一阶段(7.8、11.9、12.4对15.7 O2%)和中间阶段(7.3、8.8、10.4对15.3 O2%)FDP的去氧程度明显更高,仅在第一阶段FCR的去氧程度也更高(8.3、7、11.7对13.3 O2%)。他们在收缩放松时的BF也显著更高(656、701、764对971 mL∙min(-1))。精英攀岩者中较高的FTI可能归因于更大的血液供应、3秒放松期增强的O2恢复,以及与10秒收缩期间更大的去氧相关的更强的肌肉氧化能力。
