Jc. Frisbee et Jh. Lombard, Development and reversibility of altered skeletal muscle arteriolar structure and reactivity with high salt diet and reduced renal mass hypertension, MICROCIRCUL, 6(3), 1999, pp. 215-225
Objective: To determine the development and reversibility of the altered va
sodilator reactivity of cremasteric arterioles in rats on high-salt diet an
d with reduced renal mass hypertension (RRMHT).
Methods: Sprague Dawley rats mere fed high-salt (HS) or low-salt (LS) diet
and RRMHT rats were fed HS diet (HSRRM) over 4 weeks, after which a group o
f HS and HSRRM rats were fed LS diet for 4 additional weeks (HS/LS and HS/L
SRRM), while all others remained on their original diet. Changes in arterio
lar diameter to dilator agonists (acetylcholine, iloprost, cholera toxin, f
orskolin, and sodium nitroprusside) and to Ca2+ free solution plus adenosin
e (to determine maximum diameter) were measured with a videomicrometer.
Results: Reduced vasodilator reactivity developed over 4 weeks with HS diet
and RRMHT, although more rapidly and to a greater extent with RRMHT. In HS
rats, the reduced reactivity was completely reversible with restoration of
LS diet. Complete recovery of dilator reactivity to control levels did not
occur with restoration of LS diet and normotension in HS/LSRRM rats, altho
ugh the slope of the recovery over the final 4 weeks was comparable to that
in normotensive HS/LS animals.
Conclusions: Impaired vasodilator reactivity, occurring with high-salt diet
, appears to be fully reversible. Impaired vascular reactivity may recover
after restoration of normal blood pressure in RRMHT, although over a longer
period than with high-salt diet alone.