Aging‐Related Deficits in Neuromuscular Transmission and Force Loss in the Diaphragm Muscle

The diaphragm muscle (DIAm) must be able to generate sufficient forces to sustain ventilatory and non‐ventilatory behaviors throughout the lifespan. Aging‐related decreases in DIAm fiber cross‐sectional area and specific force, i.e., sarcopenia, may impair the ability to generate transdiaphragmatic pressures (Pdi) necessary to accomplish expulsive, non‐ventilatory behaviors essential for airway clearance. We examined the effects of aging on DIAm function in mice at 6, 18, and 24 months of age. At each age, DIAm‐phrenic nerve preparations were used to determine maximal force by ex vivo contractility of the DIAm as well as neuromuscular transmission failure by repetitive nerve and muscle stimulation. By 18 months, animals had reduced Pdi during maximal forces (e.g., during tracheal occlusion) and increased DIAm neuromuscular transmission failure compared to 6 months, but no change in DIAm maximum specific force. By 24 months, Pdi remained reduced during occlusion, DIAm neuromuscular transmission failure remained increased compared to 6 months, and DIAm maximum specific force was decreased compared to both 6 and 18 months. Using this global measure of neuromuscular transmission, it is evident that impaired transmission precedes muscle weakness. Support or Funding Information Supported by R01‐AG044615.