JM Born scite author profile

JM Born

3Publications

47Citation Statements Received

48Citation Statements Given

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Maastricht University, Vrije Universiteit Amsterdam

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Knee extensor muscle oxygen consumption in relation to muscle activation

et al. 2006

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Recently, fatigability and muscle oxygen consumption (mVO 2 ) during sustained isometric contractions were found to be less at shorter (30° knee angle; 0°= full extension) compared to longer knee extensor muscle lengths (90°) and, at low torques, less in the rectus femoris (RF) muscle than in the vastus lateralis and medialis. In the present study we hypothesized that these Wndings could be accounted for by a knee angle-and a muscle-dependent activation respectively. On two experimental days rectiWed surface EMG (rsEMG) was obtained as a measure of muscle activation in nine healthy young males. In addition, on day 1 maximal torque capacity (MTC) was carefully determined using superimposed nerve stimulation on brief high intensity contractions (> 70%MVC) at 30, 60 and 90° knee angles. On day 2, subjects performed longer lasting isometric contractions (10-70%MTC) while mVO 2 was measured using near-infrared spectroscopy (NIRS). At 30°, maximal mVO 2 was reached signiWcantly later (11.0 s § 6.5 s) and was 57.9 § 8.3% less (average § SD, across intensities and muscles) than mVO 2 at 60 and 90° (p < 0.05). However, rsEMG was on average only 18.0 § 11.8% (p = 0.062) less at the start of the contraction at 30°. At 10%MTC at all knee angles, maximal mVO 2 of the RF occurred signiWcantly later (28.8 § 36.0 s) and showed a signiWcantly smaller increase in rsEMG compared to both vasti. In conclusion, it is unlikely that the tendency for less intense muscle activation could fully account for the »60% lower oxygen consumption at 30°, but the later increase in RFmVO 2 seemed to be caused by a less strong activation of the RF.

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Acute stress decreases food reward related activation in the brain, leading to eating in the absence of hunger

Born¹,

Nieuwenhuizen²,

Lemmens³

et al. 2009

NeuroImage

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Acute stress decreases food reward related brain activity

et al. 2009

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JM Born

Knee extensor muscle oxygen consumption in relation to muscle activation

Acute stress decreases food reward related activation in the brain, leading to eating in the absence of hunger

Acute stress decreases food reward related brain activity

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