Marlous S. Bredius scite author profile

Marlous S. Bredius

2Publications

46Citation Statements Received

87Citation Statements Given

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Neuroscience Research Australia

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Effects of aging and sex on voluntary activation and peak relaxation rate of human elbow flexors studied with motor cortical stimulation

Molenaar

McNeil

Bredius

et al. 2012

AGE

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Data are equivocal on whether voluntary activation is preserved or decreased in old compared to young adults. Further, data are scant on the effect of age on the rate of muscle relaxation when the muscle is contracting voluntarily. Assessment of both measures with transcranial magnetic stimulation (TMS) yields information which cannot be obtained with traditional peripheral nerve stimulation. Hence, voluntary activation and peak relaxation rate of the elbow flexors were assessed with TMS during repeated maximal efforts in 30 men and 28 women between the ages of 22-84 years. Voluntary activation was similar for the two sexes (P00.154) and was not affected by age in men (96.2±2.7 %; P00.887) or women (95.1±3.0 %; P00.546). Men had a significantly faster peak rate of relaxation than women in absolute units (−880.0±223.2 vs. −360.2±78.5 Nm/s, respectively; P<0.001) and when normalized to subject strength (−12.5 ± 2.1 vs. −8.7±1.0 s −1 , respectively; P<0.001). Absolute and normalized relaxation rates slowed with age in men (P00.002 and P00.006, respectively), but not women (P00.142 and P00.950, respectively). Across the age range studied, all subjects, regardless of age or sex, were able to achieve high voluntary activation scores for the elbow flexors (~95 %). In contrast, peak relaxation rate was markedly faster in men than women and slowed with age in men but not women. Normalization of relaxation rates to strength did not affect the influence of age or sex.

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The influence of motor cortical stimulus intensity on the relaxation rate of human lower limb muscles

et al. 2013

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Transcranial magnetic stimulation (TMS) allows an in vivo assessment of the rate of muscle relaxation during a voluntary contraction. It is unknown if this method can be applied to lower limb muscles, and the effect of stimulus intensity on relaxation rate has not been investigated in any muscle group. The present study sought to address these unknowns. A secondary aim was to test the sensitivity of the method to a change in muscle length by comparing the relaxation rate of the plantar flexor muscles with the gastrocnemius at short and long lengths. Seven subjects performed 21 maximal voluntary isometric contractions (MVCs) of the dorsiflexors (DF) and plantar flexors with a knee angle of either 90° or 180° (PF90 and PF180, respectively). TMS intensity ranged from 40 to 100% stimulator output in intervals of 10%. Relaxation rates increased with stimulus intensity but were equivalent to maximal output at 50 (DF and PF90) or 60% (PF180). MVC torque was greater, and the rate of relaxation was faster for PF180 compared to PF90. The main findings are that TMS can be used to measure relaxation rates of lower limb muscles, and these rates are robust provided the stimulus intensity is above a critical threshold. The dependency of plantar flexor relaxation rate on the length of the fast-twitch gastrocnemius fibers reinforces published temperature and fatigue data which show that the method is sensitive to the contractile properties of the muscle fibers which are actively contributing to torque production.

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