Early changes in performance, blood flow and capillary fine structure in rat fast muscles induced by electrical stimulation

Abstract

1. Muscle blood flow, capillary fine structure and performance were investigated in the early stages of chronic indirect electrical stimulation of ankle flexors in the rat. 2. The fast muscles tibialis anterior (TA), extensor digitorum longus (EDL) and extensor hallucis proprius (EHP) were unilaterally stimulated via the right common peroneal nerve at 10 Hz and supramaximal voltage for 8 h a day for 2, 3 or 7 days and compared with muscles from control animals. 3. Muscle blood flow (MBF) was estimated at rest and during contractions by radioactive microspheres. It was higher at rest than in unstimulated controls only in muscles stimulated for 2 days; during contractions it was higher in some muscles stimulated for 3 days than in controls, and in all muscles by 7 days (192 +/- 17 vs. 149 +/- 12 ml (100 g)-1min-1 in controls). 4. Electron microscopical evaluation of individual capillaries in EHP fixed by superfusion in situ revealed thickening of capillary endothelium and decreased lumen volume in muscles stimulated for 7 (P < 0.005) but not 3 days. Significantly smaller capillary size indicates the presence of newly formed capillaries. 5. Isometric twitch tension, recorded from combined TA and EDL in stimulated and contralateral legs during 5 min contractions at 4 Hz, gradually declined from 175 +/- 9 to 99 +/- 4 kN m-2 after 7 days of stimulation (P < 0.05) while the fatigue index, calculated as (final twitch tension/peak twitch tension) x 100, increased from 69.8 +/- 3.4 to 90 +/- 3.0 % (P < 0. 05). No significant changes in the fatigue index occurred in muscles stimulated for 2 or 3 days. 6. Lower peak tension, but not fatigue index or MBF, was also observed in muscles contralateral to those stimulated for 3 and 7 days, which thus do not represent appropriate controls. 7. We conclude that the high resting blood flow found in muscles stimulated for 2 days may initiate the capillary growth reported previously, while the relatively modest increase in MBF during contractions in muscles that had been stimulated for 7 days may be due to increased capillary supply. Swelling of the capillary endothelium and decreased volume of the capillary lumen may result in an increased proportion of time spent by red blood cells in capillaries, which would improve oxygen extraction.