Evidence for dying‐back axonal degeneration in age‐associated skeletal muscle decline
Introduction Age‐associated muscle strength decline is a major contributing factor to
increased late‐life functional decline and comorbidity, and is strongly associated with early
mortality. Although all parts of the neuromuscular system seem to be affected by aging,
dying‐back of motor axons likely plays a major role. Methods We compared the
degeneration in ventral roots and neuromuscular junction denervation in young and aged
mice and correlated the findings with strength and electrophysiological measures. Results …
increased late‐life functional decline and comorbidity, and is strongly associated with early
mortality. Although all parts of the neuromuscular system seem to be affected by aging,
dying‐back of motor axons likely plays a major role. Methods We compared the
degeneration in ventral roots and neuromuscular junction denervation in young and aged
mice and correlated the findings with strength and electrophysiological measures. Results …
Introduction
Age‐associated muscle strength decline is a major contributing factor to increased late‐life functional decline and comorbidity, and is strongly associated with early mortality. Although all parts of the neuromuscular system seem to be affected by aging, dying‐back of motor axons likely plays a major role.
Methods
We compared the degeneration in ventral roots and neuromuscular junction denervation in young and aged mice and correlated the findings with strength and electrophysiological measures.
Results
With normal aging, there is little decline in motor axon numbers in the ventral roots, but the neuromuscular junctions show marked partial denervation that is associated with increased jitter on stimulated single fiber electromyography and a decrease in muscle strength.
Conclusions
These findings suggest that dying‐back axonal degeneration may be partially responsible for the electrophysiological and strength changes observed with aging. Muscle Nerve 55: 894–901, 2017
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