Your search keyword '"Yeo, Chow C."' showing total 1 results

1. Peripheral blood flow changes in response to postexercise cold water immersion.

Author

Choo HC, Nosaka K, Peiffer JJ, Ihsan M, Yeo CC, and Abbiss CR

Subjects

Adult, Arterial Pressure, Blood Flow Velocity, Cross-Over Studies, Exercise Test, Heart Rate, Humans, Laser-Doppler Flowmetry, Male, Recovery of Function, Regional Blood Flow, Spectroscopy, Near-Infrared, Time Factors, Young Adult, Cold Temperature, Exercise physiology, Femoral Artery physiology, Immersion, Muscle Contraction, Muscle, Skeletal blood supply, Skin blood supply, Water

Abstract

This study compared the effect of postexercise water immersion (WI) at different temperatures on common femoral artery blood flow (CFA), muscle (total haemoglobin; tHb) and skin perfusion (cutaneous vascular conductance; CVC), assessed by Doppler ultrasound, near-infrared spectroscopy (NIRS) and laser Doppler flowmetry, respectively. Given that heat stress may influence the vascular response during cooling, nine men cycled for 25 min at the first ventilatory threshold followed by intermittent 30-s cycling at 90% peak power until exhaustion at 32·8 ± 0·4°C and 32 ± 5% RH. They then received 5-min WI at 8·6 ± 0·2°C (WI 9 ), 14·6 ± 0·3°C (WI 15 ), 35·0 ± 0·4°C (WI 35 ) or passive rest (CON) in a randomized, crossover manner. Heart rate (HR), mean arterial pressure (MAP), muscle (T mu ), thigh skin (T thigh ), rectal (T re ) and mean body (T body ) temperatures were assessed. At 60 min postimmersion, decreases in T re after WI 35 (-0·6 ± 0·3°C) and CON (-0·6 ± 0·3°C) were different from WI 15 (-1·0 ± 0·3°C; P<0·05), but not from WI 9 (-1·0 ± 0·3°C; P = 0·074-0·092). WI 9 and WI 15 had reduced T body , T thigh and T mu compared with WI 35 and CON (P <0·05). CFA, tHb and CVC were lower in WI 9 and WI 15 compared with CON (P<0·05). tHb following WI 9 remained lower than CON (P = 0·044) at 30 min postimmersion. CVC correlated with tHb during non-cooling (WI 35 and CON) (r 2  = 0·532; P<0·001) and cooling recovery (WI 9 and WI 15 ) (r 2  = 0·19; P = 0·035). WI 9 resulted in prolonged reduction in muscle perfusion. This suggests that CWI below 10°C should not be used for short-term (i.e. <60 min) recovery after exercise., (© 2016 Scandinavian Society of Clinical Physiology and Nuclear Medicine. Published by John Wiley & Sons Ltd.)

Published

2018