Transvenous stimulation yields exposure-dependent protection from ventilatorinduced diaphragm atrophy.

Mechanical ventilation (MV)-induced diaphragmatic atrophy can contribute to weaning difficulties. A temporary transvenous diaphragm neurostimulation (TTDN) device that elicits diaphragm contractions has previously been shown to mitigate atrophy during MV in a preclinical model; however, its effects on different myofiber types remain unknown. It is important to examine these effects, as each myofiber type plays a role in the range of diaphragmatic movements to ensure successful liberation from MV. Eighteen pigs were assigned to one of three ventilation conditions for 50 hours: MV-Only and TTDN contracting the diaphragm every other breath or every breath synchronously with MV (TTDN50% þ MV and TTDN100% þ MV, respectively). Six pigs were assigned to a never-ventilated, never-paced (NV-NP) group. Diaphragm biopsies were fiber-typed, and myofiber cross-sectional areas were measured and normalized to subject weight. There were effect differences based on TTDN exposure. The TTDN100% þ MV group showed less atrophy in Type 2A and 2X myofibers than the TTDN50% þ MV group, relative to the NV-NP group. The TTDN50% þ MV animals showed less MV-induced atrophy in type 1 myofibers than TTDN100% þ MV animals. Additionally, there were no significant differences in proportions of myofiber types between each condition. TTDN applied synchronously with MV for 50 hours mitigates MV-induced atrophy in all myofiber types, with no evidence of stimulation-induced myofiber-type shift. At this stimulation profile, enhanced protection for type 1 myofibers and type 2 myofibers was seen when diaphragm contractions occurred every other breath and every breath, respectively. [ABSTRACT FROM AUTHOR]