Sympathetic nonadrenergic transmission contributes to autonomic dysreflexia in spinal cord-injured individuals

Abstract

Autonomic dysreflexia is a hypertensive episode in spinal cord-injured individuals induced by exaggerated sympathetic activity and thought to be alpha-adrenergic mediated. alpha-Adrenoceptor antagonists have been a rational first choice; nevertheless, calcium channel blockers are primarily used in autonomic dysreflexia management. However, alpha-adrenoceptor blockade may leave a residual vasoconstrictor response to sympathetic nonadrenergic transmission unaffected. The aim was to assess the alpha-adrenergic contribution and, in addition, the role of supraspinal control to leg vasoconstriction during exaggerated sympathetic activity provoked by autonomic dysreflexia in spinal cord-injured individuals and by a cold pressure test in control individuals. Upper leg blood flow was measured using venous occlusion plethysmography during supine rest and during exaggerated sympathetic activity in 6 spinal cord-injured individuals and 7 able-bodied control individuals, without and with phentolamine (alpha-adrenoceptor antagonist) and nicardipine (calcium channel blocker) infusion into the right femoral artery. Leg vascular resistance was calculated. In spinal cord-injured individuals, phentolamine significantly reduced the leg vascular resistance increase during autonomic dysreflexia (8+/-5 versus 24+/-13 arbitrary units; P=0.04) in contrast to nicardipine (15+/-10 versus 24+/-13 arbitrary units; P=0.12). In controls, phentolamine completely abolished the leg vascular resistance increase during a cold pressure test (1+/-2 versus 18+/-14 arbitrary units; P=0.02). The norepinephrine increase during phentolamine infusion was larger (P=0.04) in control than in spinal cord-injured individuals. These results indicate that the leg vascular resistance increase during autonomic dysreflexia in spinal cord-injured individuals is not entirely alpha-adrenergic mediated and is partly explained by nonadrenergic transmission, which may, in healthy subjects, be suppressed by supraspinal control.