A mitochondrial specific stress response in mammalian cells

1. The effects of repeated excitation on the compound action potential, or M wave, of mammalian muscle fibres have been investigated in the human biceps brachii. 2. During continuous indirect stimulation at 10 and 20 Hz the mean voltage-time area of the M wave doubled within the first minute, while the mean peak-to-peak amplitude increased by approximately half. The enlargement of the M wave was sustained during stimulation at 10 Hz but not at 20 Hz. Stimulation at 3 Hz caused a small increase which was significant for M wave amplitude only. 3. When the 20 Hz stimulation was performed under ischaemic conditions, the M wave first enlarged and then gradually declined. After 20 Hz stimulation was discontinued, the M wave increased in size; in the ischaemic experiments the release of the cuff produced a further, rapid augmentation. In both the ischaemic and non-ischaemic experiments, the amplitudes and areas of the M waves during the recovery period became significantly larger than the resting values (range, 15-60% at the endplate zone). 4. The mean muscle fibre impulse conduction velocity decreased to less than half the resting value during 20 Hz stimulation, with or without ischaemia, and then increased above the resting value during recovery. 5. On the basis of previous experiments in animals, the augmentation of the M wave was attributed to enhanced electrogenic Na-K+ pumping, and the biceps brachii appeared to be an excellent preparation for studying the time course of this enhancement.

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Physical Activity Level is Associated with the O2 Cost of Walking in Cerebral Palsy

Maltais

Pierrynowski²,

Galea³

et al. 2005

Medicine & Science in Sports & Exercise

108

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Changes in Motor Unit Estimates with Aging

Galea

1996

Journal of Clinical Neurophysiology

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Elderly persons usually exhibit some degree of muscle atrophy, together with a reduction in voluntary strength, but there is still argument concerning the nature of the cellular events involved. This issue was reexamined by estimating the numbers and relative sizes of motor units in three limb muscles, using a fully automated system (Galea et al., 1993). In 79 healthy volunteers aged 20-98 years, estimations of motor unit numbers were performed on the thenar, biceps brachii, and extensor digitorum brevis muscles. Motor unit populations were noted to decrease significantly with age in the distal muscles but appeared to remain constant in the biceps. The excitable muscle fiber mass, as reflected in the peak-to-peak amplitude and area of the maximum M-wave, was diminished in all three muscles. Although the area of the average motor unit action potential was not significantly different between groups, the ratio of this potential to the M-wave area increased with increasing age. The results suggest that muscle deterioration in the elderly is due to a combination of changes in the muscle fibers and in their nerve supply and that the extent may differ between proximal and distal muscles.

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Enhancing the ability of gait analyses to differentiate between groups: scaling gait data to body size

2001

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Developmental apraxia arising from neonatal brachial plexus palsy

et al. 2000

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Victoria Galea

Potentiation and depression of the M wave in human biceps brachii.

Physical Activity Level is Associated with the O2 Cost of Walking in Cerebral Palsy

Changes in Motor Unit Estimates with Aging

Enhancing the ability of gait analyses to differentiate between groups: scaling gait data to body size

Developmental apraxia arising from neonatal brachial plexus palsy

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