Severe renal vasoconstriction and anuria after intravenous urography in a patient with renal impairment

Radiocontrast-induced nephrotoxicity and urinary alpha-glutathione S-transferase levels: effect of amlodipine administration

AIMS

The exact pathogenesis and prophylaxis concerning radiocontrast-induced nephrotoxicity (RCIN) was unclear. Short-acting calcium antagonists were used to prevent RCIN. This study was designed to evaluate the role of a long-acting calcium antagonist (amlodipine) administration by determining serum creatinine (SCre) levels and 24 hour urinary excretion rates of glutathione S-transferase alpha (GST-alpha) which has a selective localization only to proximal tubular epithelium.

METHODS

In a prospective trial, 29 outpatients (19 M, 10 F) undergoing coronary angiography were randomized and either amlodipine 10 mg/day (n = 15) or placebo (n = 14) were administered prior to angiography and continued thereafter. All patients had normal basal renal function and none of them had any risk factor for RCIN. A low osmolar, nonionic contrast media (iopamidol 76%) was administered to all patients. Creatinine clearance (CCre), SCre and 24-hour urinary GST-alpha levels were measured before, 24 hours and 7 days after angiography.

RESULTS

SCre and 24 hour urinary GST-alpha values increased on 24th hour following the angiography in both groups (p < 0.017 and 0.001, respectively). Pretreatment with amlodipine created no difference in both variables (p > 0.05).

CONCLUSIONS

A reversible tubular dysfunction occurs following radiocontrast administration which was manifested by an increase in urinary GST-alpha excretion rates. Pretreatment with a long acting calcium antagonist amlodipine has no effect on the course of enzyme excretion and alteration observed in SCre.

Reversibility of experimental acute renal failure in rats: assessment with USPIO-enhanced MR imaging

The purpose of this study was to evaluate the potential reversibility of kidney lesions in an experimental model of acute renal failure using ultra-small particles of iron oxide (USPIO)-enhanced magnetic resonance (MR) imaging. This study was conducted in 21 uninephrectomized rats using a model of iodinated contrast media-induced renal failure. Thirteen rats received selective intraarterial renal administration of diatrizoate (370 mg/ml) and were compared with two control groups, including six animals injected with saline and two noninjected animals. MR imaging was performed 28 hours, 8 days, and 22 days after the procedure. Each MR session included axial and coronal T1- and coronal T2-weighted images before and after intravenous administration of 60 micromol Fe/kg of USPIO. The rats were sacrificed immediately after the last MR session for pathologic evaluation. MR images were qualitatively and quantitatively interpreted with respect to pathologic data, and differences were statistically studied. At day 22, histology showed 4 severely diseased kidneys with focal areas of necrosis, 5 mildly diseased kidneys with tubular vacuolization, and 12 normal kidneys. On quantitative data, a high correlation between the percentage of negative enhancement and histologic data was observed (P < 0.05). Qualitative interpretation showed a sensitivity and specificity of USPIO-enhanced T2-weighted MR images of 88% and 91%, respectively. Follow-up enhancement curves showed a constant increase of intrarenal USPIO negative enhancement in normal kidneys between day 1 and day 22, whereas all severely involved kidneys displayed higher USPIO negative enhancement at day 1 without significant changes over time until day 22. USPIO may be useful for in vivo follow-up of the reversibility of experimentally induced iodinated contrast media renal impairment in animals.