Can changes in microcirculation explain capillary growth in skeletal muscle?

Capillary growth (increase in capillary/fibre (C/F) ratio by 20%) was elicited in skeletal muscles either by long-term increase in blood flow (5 weeks administration of prazosin in drinking water, 50 mg/l) or 7 days electrical stimulation (8 h/day at 10 Hz). Mechanisms that could explain it ((a) increased interaction of blood components with endothelial cells (due to increased haematocrit or decreased intermittency of flow); (b) increased velocity of flow and thus shear stress; (c) increased capillary diameters and thus wall tension) were studied in vivo. Red blood cell velocity (Vrbc), vessel diameters and intermittency of capillary flow were measured in superficially located capillaries in rat tibialis anterior muscles about 18 hours after the last treatment, in prazosin treated and chronically stimulated animals, and also in animals where red blood cell interaction with capillary endothelium was increased by elevating haematocrit from 43.2 +/- 1.7% to 60.9 +/- 0.72% by 11 weeks administration of CoCl2. Animals of comparable size and sex were used as controls. Capillaries in chronically stimulated muscles had increased Vrbc at rest (0.42 +/- 0.06 mm/s vs 0.27 +/- 0.04 in control muscles) and somewhat wider diameters, although the intermittency of flow was not different from control muscles. Capillaries in prazosin treated rats had a lower intermittency of flow, similar diameters and considerably higher Vrbc (0.53 +/- 0.06 mm/s) than control animals. CoCl2 treatment resulted in a similar intermittency of flow, did not alter capillary diameters or Vrbc and did not result in an increase in C/F ratio.(ABSTRACT TRUNCATED AT 250 WORDS)