学術雑誌論文 Near-infrared spectroscopy of superficial and deep rectus femoris reveals markedly different exercise response to superficial vastus lateralis

Koga, Shunsaku  ,  Okushima, Dai  ,  Barstow, Thomas J.  ,  Rossiter, Harry B.  ,  Kondo, Narihiko  ,  Poole, David C.

5 ( 17 )  , p.e13402 , 2017-09 , Wiley
ISSN:2051817X2051817X
内容記述
To date our knowledge of skeletal muscle deoxygenation as measured by near-infrared spectroscopy (NIRS) is predicated almost exclusively on sampling of superficial muscle(s), most commonly the vastus lateralis (VL-s). Recently developed high power NIRS facilitates simultaneous sampling of deep (i.e., rectus femoris, RF-d) and superficial muscles of RF (RF-s) and VL-s. Because deeper muscle is more oxidative with greater capillarity and sustains higher blood flows than superficial muscle, we used time-resolved NIRS to test the hypotheses that, following exercise onset, the RF-d has slower deoxy[Hb+Mb] kinetics with reduced amplitude than superficial muscles. Thirteen participants performed cycle exercise transitions from unloaded to heavy work rates. Within the same muscle (RF-s vs. RF-d) deoxy[Hb+Mb] kinetics (mean response time, MRT) and amplitudes were not different. However, compared with the kinetics of VL-s, deoxy[Hb+Mb] of RF-s and RF-d were slower (MRT: RF-s, 51 +/- 23; RF-d, 55 +/- 29; VL-s, 18 +/- 6 s; P<0.05). Moreover, the amplitude of total[Hb+Mb] was greater for VL-s than both RF-s and RF-d (P<0.05). Whereas pulmonary V</mml:mover>O2 kinetics (i.e., on vs. off) were symmetrical in heavy exercise, there was a marked on-off asymmetry of deoxy[Hb+Mb] for all three sites i.e., MRT-off>MRT-on (P<0.05). Collectively these data reveal profoundly different O-2 transport strategies, with the RF-s and RF-d relying proportionately more on elevated perfusive and the VL-s on diffusive O-2 transport. These disparate O-2 transport strategies and their temporal profiles across muscles have previously been concealed within the global pulmonary <mml:mover accent="true">V<mml:mo></mml:mover>O2 response.
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http://www.lib.kobe-u.ac.jp/repository/90004248.pdf

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