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Neuromuscular electrical stimulation resistance training enhances oxygen uptake and ventilatory efficiency independent of mitochondrial complexes after spinal cord injury: a randomized clinical trial

Ashraf S. Gorgey, Raymond E. Lai, Refka E. Khalil, Jeannie Rivers, Christopher Cardozo, Qun Chen, Edward J. Lesnefsky

2021Journal of Applied Physiology17 citationsDOIOpen Access PDF

Abstract

Leg oxygen uptake (V̇o 2 ) peak, ventilatory efficiency (V̇E/V̇co 2 ratio), and substrate utilization were measured during functional electrical stimulation cycling FES-LEC testing following 12–16 wk of either electrically evoked resistance training or passive movement training; indirect calorimetry and mitochondrial complex levels in muscle biopsies were also determined. FES-LEC increased thigh muscle area and leg V̇o 2 peak increased but decreased V̇E/V̇co 2 ratio; there were no changes in mitochondrial complex levels. Leg V̇o 2 peak was associated with hypertrophy of the paralyzed muscles and mitochondrial respiration of complex I following training.

Topics & Concepts

Spinal cord injuryStimulationAnesthesiaMedicineRandomized controlled trialSpinal cordRespirationOxygenPhysical medicine and rehabilitationChemistryInternal medicineAnatomyOrganic chemistryPsychiatrySpinal Cord Injury ResearchStroke Rehabilitation and RecoveryCardiac Arrest and Resuscitation
Neuromuscular electrical stimulation resistance training enhances oxygen uptake and ventilatory efficiency independent of mitochondrial complexes after spinal cord injury: a randomized clinical trial | Litcius