Age does not increase muscle fatigue resistance of the diaphragm

The diaphragm muscle (DIAm) comprises a mixed population of motor units, with FInt and FF units (type IIx and/or IIb fibers) vulnerable to sarcopenia ‐ age‐associated reductions of specific force and cross‐sectional area (CSA). Fatigue‐resistant S and FR units (type I and IIa fibers) are relatively spared. There is controversy as to whether aging confers an enhanced resistance to DIAm fatigue, with interpretations relying on relative measurements of force. We assessed the loss of DIAm force in 6‐ and 24‐month old Fischer 344 rats at 10, 40 and 75 Hz stimulation in 330 ms duration trains repeated each s (33% duty cycle) across a 2 min period. Although the initial specific force of the DIAm was lower in older rats across all stimulation frequencies, the final residual DIAm specific force after 2 min of stimulation was the same (~5 N/cm 2 ) at all ages. This gave the misconception of an improved fatigue resistance, especially at 40 and 75 Hz. We also found that aging is associated with an increase in the relative contributions of type I and IIa fiber CSA to DIAm mass with decreased contributions of type IIx and/or IIb fibers. When these changing contributions are factored into a fiber type‐specific model of DIAm force generation, we found that ventilatory behaviors require activation of only type I and IIa fibers, regardless of age or fatigue. By contrast, the model predicts that aging impairs the ability of the DIAm to effectively perform expulsive manoeuvres, even in the non‐fatigued condition. In summary, relative fatigue measurements are not indicative of improved fatigue resistance in aging and are an artifact of reduced initial specific force contributions from FInt and FF units. These results are consistent with previous studies showing the relative vulnerability of FInt and FF units and conserved ventilatory behaviors in aging DIAm. Support or Funding Information R01‐AG044615 This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal .