We evaluated glomerular filtration in 17 recipients of heart transplants who were treated for 12 months or longer with cyclosporine (cyclosporin A). The control group consisted of 15 heart-transplant recipients who were treated with azathioprine and who had also survived for at least 12 months. Despite an equivalent cardiac output, the glomerular filtration rate was depressed (51 +/- 4 vs. 93 +/- 3 ml per minute, P less than 0.005) in transplant recipients treated with cyclosporine. Cyclosporine treatment was also associated with reduced renal plasma flow (320 +/- 21 vs. 480 +/- 30 ml per minute, P less than 0.001). A trend toward restricted transglomerular transport of neutral dextrans (radii, 2.4 to 5.8 nm) in cyclosporine-treated recipients suggested an intrinsic loss of ultrafiltration capacity by glomerular capillaries rather than a hemodynamic basis for the reduced glomerular filtration rate. Histopathologic examination of the kidneys of five cyclosporine-treated patients with glomerular hypofiltration revealed a variable degree of tubulointerstitial injury accompanied by focal glomerular sclerosis. Among the 32 heart-transplant recipients treated for more than 12 months with cyclosporine at our center, end-stage renal failure developed in 2. We conclude that long-term cyclosporine therapy may lead to irreversible and potentially progressive nephropathy. We recommend that cyclosporine be used with restraint and caution until ways are found to mitigate its nephrotoxicity.
Plasma renin exists in an active form or as an inactive zymogen that resembles a prorenin present in homogenates of human kidneys. We examined the relation of diabetes and its microvascular complications with the level of plasma inactive renin activated by dialysis to pH 3.3. Plasma inactive renin was measured in 235 diabetic patients and 90 nondiabetic controls. In the controls, the level of plasma inactive renin increased slightly with age but was never above 50 ng per milliliter per hour. In young diabetic patients studied within three years of the onset of diabetes the concentration of inactive renin was normal, and in some older diabetics without complications it remained within the age-adjusted normal range for many years. However, in patients with retinopathy or albuminuria, plasma inactive renin was above the normal range with few exceptions, reaching levels 50 to 200 per cent above the upper limits of normal in patients with nephropathy. The frequency of neuropathy was also significantly higher among patients with levels above the normal range. In 37 per cent of the diabetics followed during one to three years of conventional treatment, plasma inactive renin increased significantly, but in another group of diabetics under intensive treatment, the level rose in only 7 per cent and fell in 43 per cent. We conclude that there is a close association between a high level of plasma inactive renin and the presence of microvascular complications, and that the level of inactive renin can be modified by intensive treatment of diabetes.
We evaluated a chronic renal injury in 37 cardiac transplant recipients treated for 12 to 24 months with cyclosporine (CsA). Twenty-four cardiac transplant recipients treated with azathioprine for more than 24 months served as controls. Despite equivalent cardiac performance, GFR in those treated with CsA was depressed, 47 +/- 3 versus 94 +/- 4 ml/min/1.73 m2 (P less than 0.001). CsA therapy was also associated with significant elevation of renal vascular resistance (RVR), proteinuria, arterial hypertension, and impaired intrarenal conversion of inactive prorenin to active renin. Histopathological changes associated with CsA included an obliterative arteriolopathy with deposition of proteinaceous material in necrotic arteriolar walls, and associated tubulointerstitial damage. A minority of glomeruli exhibited either ischemic collapse or sclerosis. Area perimeter analysis revealed enlargement of the remaining glomeruli with significant expansion of the mesangium. Longitudinal examination over a 48 month period (N = 15) during which CsA was reduced in dosage or withdrawn revealed persistent hypofiltration, increasingly elevated RVR and heavier proteinuria. Further histopathological deterioration was observed when renal tissue was sampled a second time in six patients, and three members of the experimental group developed end-stage renal disease. We conclude that continuous CsA therapy for more than 12 months causes a chronic injury to renal microvessels that is rarely reversible and potentially progressive.
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