Objective: The aim was to determine the pharmacological reactivity of human small resistance arteries in patients with cardiac failure.
Methods: Small arteries (< 300 microns internal diameter) were removed from gluteal skin biopsy specimens and mounted in a double myograph for isometric force recording.
Results: Arteries from six patients with congestive heart failure contracted to only 65% of the maximum response recorded in nine arteries from normal volunteers when activated by potassium chloride (124 mM), noradrenaline (1 microM), or both. The lesser contraction in congestive heart failure vessels with no significant shift in sensitivity (EC50) was also observed in concentration-response studies with noradrenaline, angiotensin I, and angiotensin II. The concentration-contraction curves for serotonin showed only 40% of the maximum contractility to K+ in normal arteries, and this ratio was similar in congestive heart failure arteries. Normal arteries precontracted with noradrenaline (1 microM) relaxed in response to sodium nitroprusside, calcitonin gene related peptide, and the endothelium dependent agonist acetylcholine; in congestive heart failure vessels there was a marked loss of the relaxation response only to acetylcholine.
Conclusions: These results suggest that in chronic congestive heart failure skin resistance arteries have impaired contraction responses probably independent of any receptor down regulation. The loss of endothelium dependent vasodilatation to acetylcholine suggests that EDRF release is impaired. These changes may well play an important role in the disturbances of peripheral vascular function associated with heart failure.