Canadian Centre for Activity and Aging, The University of Western Ontario, London, ON, Canada.
Eur J Appl Physiol. 2012 Sep;112(9):3349-60. doi: 10.1007/s00421-012-2323-y. Epub 2012 Jan 22.
This study characterized the profile of near-infrared spectroscopy (NIRS)-derived muscle deoxygenation (Δ[HHb]) and the tissue oxygenation index (TOI) as a function of absolute (PO(ABS)) and normalized power output (%PO) or oxygen consumption (%VO(2)) during incremental cycling exercise. Eight men (24 ± 5 year) each performed two fatigue-limited ramp incremental cycling tests (20 W min(-1)), during which pulmonary VO(2), Δ[HHb] and TOI were measured continuously. Responses from the two tests were averaged and the TOI (%) and normalized Δ[HHb] (%Δ[HHb]) were plotted against %VO(2), %PO and PO(ABS). The overall responses were modelled using a sigmoid regression (y = f ( 0 ) + A/(1 + e(-(-c+dx)))) and piecewise 'double-linear' function of the predominant adjustment of %Δ[HHb] or TOI observed throughout the middle portion of exercise and the 'plateau' that followed. In ~85% of cases, the corrected Akaike Information Criterion (AIC(C)) was smaller (suggesting one model favoured) for the 'double-linear' compared with the sigmoid regression for both %Δ[HHb] and TOI. Furthermore, the f ( 0 ) and A estimates from the sigmoid regressions of %Δ[HHb] yielded unrealistically large projected peak (f ( 0 ) + A) values (%VO(2p) 114.3 ± 17.5; %PO 113.3 ± 9.5; PO(ABS) 113.5 ± 9.8), suggesting that the sigmoid model does not accurately describe the underlying physiological responses in all subjects and thus may not be appropriate for comparative purposes. Alternatively, the present study proposes that the profile of %Δ[HHb] and TOI during ramp incremental exercise may be more accurately described as consisting of three distinct phases in which there is little adjustment early in the ramp, the predominant increase in %Δ[HHb] (decrease in TOI) is approximately linear and an approximately linear 'plateau' follows.
本研究描述了近红外光谱(NIRS)衍生的肌肉去氧(Δ[HHb])和组织氧指数(TOI)的特征,作为绝对(PO(ABS))和归一化功率输出(%PO)或氧消耗(%VO(2))在递增循环运动中的函数。八名男性(24 ± 5 岁)每人进行了两次疲劳限制斜坡递增循环测试(20 W min(-1)),在此期间连续测量肺 VO(2)、Δ[HHb]和 TOI。将两次测试的结果平均化,并将 TOI(%)和归一化的 Δ[HHb](%Δ[HHb])绘制为%VO(2)、%PO 和 PO(ABS)。使用 sigmoid 回归(y = f ( 0 ) + A/(1 + e(-(-c+dx))))和整个运动中间部分观察到的%Δ[HHb]或 TOI 的主要调整的分段“双线性”函数以及随后的“平台”对整体反应进行建模。在大约 85%的情况下,对于%Δ[HHb]和 TOI,“双线性”模型的校正 Akaike 信息准则(AIC(C))都较小(表明一个模型更有利)。此外,%Δ[HHb]的 sigmoid 回归的 f ( 0 ) 和 A 估计值产生了不切实际的大预测峰值(f ( 0 ) + A)值(%VO(2p) 114.3 ± 17.5;%PO 113.3 ± 9.5;PO(ABS) 113.5 ± 9.8),表明 sigmoid 模型不能准确描述所有受试者的潜在生理反应,因此可能不适合比较目的。或者,本研究提出,斜坡递增运动期间的%Δ[HHb]和 TOI 特征可能更准确地描述为由三个不同阶段组成,在斜坡的早期阶段几乎没有调整,%Δ[HHb]的主要增加(TOI 的减少)大致呈线性,随后是大致呈线性的“平台”。
