Modern antihypertensive treatment and the progression of renal disease

Abstract

Background: In animal models of hypertension, the resistance state of the preglomerular (afferent) and postglomerular (efferent) capillary arterioles may determine whether a particular form of antihypertensive therapy will spare the kidney from hemodynamic-mediated glomerular injury. In experimental models of renal disease with impaired autoregulation, control of systemic blood pressure is a prerequisite for normalizing glomerular capillary hydraulic pressure.

Clinical studies: In humans, effective blood pressure control reverses renal hemodynamic abnormalities in hypertensive patients, reduces microalbuminuria in essential hypertensive, nondiabetic, and diabetic renal diseases, and attenuates but does not prevent the progression of nondiabetic and diabetic renal disease. Although some researchers have concluded that angiotensin converting enzyme inhibitors are the renal protective drugs of choice, these pronouncements are not based on clinical trials correlating specific drug-mediated changes in albumin or protein excretion with the longitudinal assessment of glomerular filtration rate (GFR), permitting derivation of a slope-defining change in GFR, and/or the longitudinal assessment of renal structure (i.e. renal biopsy). Definitive clinical trials have not been reported. It is important to recognize that an elevated serum creatinine is a powerful predictor of mortality and that, in most patients, death is caused by a cardiovascular or cerebrovascular event, rather than by renal failure.

Conclusion: Because morbidity and mortality of essential hypertension and nondiabetic or diabetic renal disease is related primarily to cardiovascular or cerebrovascular events, the antihypertensive 'drugs of choice' should be those that reduce these risks, prevent or regress target-organ damage, and optimize treatment of concomitant diseases.