Japanese Journal of Physical Fitness and Sports Medicine
Online ISSN : 1881-4751
Print ISSN : 0039-906X
ISSN-L : 0039-906X
STUDY OF HUMAN MUSCLE CIRCULATION DURING BICYCLE EXERCISE USING NEAR-INFRARED SPECTROSCOPY
SACHIKO HOMMAYOSHIYUKI FUKUOKANOBUHARU FUJIIHIDEO EDAHARUO IKEGAMI
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1992 Volume 41 Issue 5 Pages 586-594

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Abstract

Using near-infrared spectroscopy, we monitored changes of oxygenated hemoglobin and myoglobin contents [oxy (Hb+Mb) ], deoxygenated hemoglobin and myoglobin contents [deoxy (Hb+Mb) ], and total hemoglobin and myoglobin contents [total (Hb+Mb) ] of the thigh muscle at rest and during incremental bicycle exercise and recovery in 10 healthy male volnuteers. Gas exchange parameters were also measured in breath-by-breath mode.
The following results were obtained :
1) During low-intensity exercise (216 kpm/min), oxy (Hb+Mb) increased, while deoxy (Hb+Mb) and total (Hb+Mb) decreased. These changes are thought to reflect an increase in arterial blood flow to the exercising muscle and an increase in venous return.
2) During high-intensity exercise (above 972 kpm/min), oxy (Hb+Mb) decreased, while deoxy (Hb+Mb) increased. These findings probably reflect increased O2extraction.
3) Upon cessation of exercise, oxy (Hb+Mb) and total (Hb+Mb) increased, and deoxy (Hb+Mb) decreased abruptly. These changes probably reflect post-exercise hyperemia with decreased O2extraction.
4) Oxy (Hb+Mb) level at ventilatory threshold (VT) was the same as or higher than that of resting condition, indicating that VT occurs when the level of O2in the vessels of the thigh muscle is relatively high.
5) Spontaneous fluctuation of oxy (Hb+Mb) with frequency of 7-10 cycles/min was observed. This fluctuation was more marked during exercise than during rest or recovery.
These findings suggest that the influence of increased blood flow and venous return on oxy (Hb+Mb), deoxy (Hb+Mb) and total (Hb+Mb) are greater than that of O2extraction during low intensity exercise, whereas the influence of O2extraction increases with exercise intensity.
Near-infrared spectroscopy provides valuable information with regard to O2transport and O2extraction in the exercising muscle.

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© The Japanese Society of Physical Fitness and Sports Medicine
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