We measured sensitive indicators of renal damage in three different populations occupationally exposed to cadmium, and examined the degree of variation in damage and the relative sensitivity of different types of indicators. The three studies included (1) men exposed in a cadmium recovery plant, (2) men exposed in a nickel/cadmium battery plant, and (3) women exposed in the latter plant. The indicators of renal damage were urinary proteins in three categories: (1) the high molecular weight enzymes alanine aminopeptidase (AAP) and N-acetyl-beta-D-glucosaminidase (NAG), (2) the intermediate molecular weight protein albumin (ALB), and (3) the low molecular weight proteins retinol-binding protein (RBP) and beta 2-microglobulin (B2M). These tests indicate that exposed groups with higher urine cadmium levels had varying degrees of renal damage. All exposed groups showed evidence of renal damage when compared with their respective control groups. A higher percentage of elevated protein levels was noted in the exposed group of Study 1 than in the exposed groups of Studies 2 and 3. In Study 1, the means of all five protein levels and ALB, RBP, and B2M fractional clearances were significantly elevated in the group with higher urine cadmium concentrations when compared with the groups with lower urine cadmium concentrations. Highly significant dose-response relationships for all of the urinary protein tests, including fractional clearances, were found. All of the tests were more sensitive in detecting evidence of subclinical renal damage than serum creatinine, a commonly used indicator of renal function. The order of test sensitivity in men was determined by considering three factors: (1) the magnitude of the correlation coefficient between the test and the urine cadmium concentration in the study with the most advanced damage, (2) the relative cadmium level predicted by the dose-response model at which there is a 10% chance of observing an elevated test value, and (3) the ability of the tests to detect renal effects in the population with less advanced damage. The tests in order of decreasing sensitivity in men are ALB, AAP, NAG, RBP approximately B2M. The women with higher urine cadmium levels in Study 3 had a higher percentage of elevated AAP and NAG values when compared with the control group.
The measurement of small but abnormal amounts of albumin in urine is important in evaluating kidney disease in people with diabetes mellitus, hypertension, or possible adverse health effects from exposure to nephrotoxins. Routine laboratory methods for measuring albumin are not sensitive enough to measure the amounts that are significant in urine (< 30 mg/L). In our laboratory we used three immunoassays for measuring urinary albumin: enzyme-linked immunosorbent assay (EIA), radioimmunoassay (RIA), and immunoturbidimetric assay (IT). We calculated the CVs of the three methods, investigated potential interfering substances at three times their normal concentrations, and stored urine under different conditions to find the best way to protect the sample until assay. The potential interferents we checked were transferrin, urea, β2-microglobulin, retinol-binding protein, creatinine, kappa and lambda light chains, IgG, hemoglobin, ketone, and glucose. The stability study involved two study temperatures (-20 and -70 °C) and four treatments (centrifuging or filtering, before or after storage). We found the following: the RIA had the lowest CV; the results from the interference study showed no interference from normal physiological concentrations of the substances investigated; storage at -70°C regardless of the treatment should be adequate to prevent loss of albumin immunoreactivity.
In an in-depth examination to better define the renal effects of mild hypertension, we used urinary proteins to indicate damage to the glomerulus (albumin), tubular reabsorption capability (retinol-binding protein), and turnover of tubular tissue (alanine aminopeptidase and N-acetyl-beta-D-glucosaminidase) in a group of 18 people with mild hypertension not associated with diabetes and a control group (n = 12). The participants' activity was controlled on a high normal salt diet for 3 days followed by a low salt diet for 4 days. Two distinct patterns of albumin excretion were evident in the hypertensive group: 22% had elevated, highly variable excretion patterns, and the rest had tightly grouped values below 16 mg/g creatinine, 16 micrograms/min, or 16 mg/L, with the lowest within-person biological variability given by albumin calculated as a ratio to creatinine. Albumin and NAG excretion primarily correlated with systolic blood pressure and the best correlations were given by ratios to creatinine. A marked decrease in salt excretion of 71% (to 50.8 mEq/day) resulted in significant (P < .0005) decreases in systolic (13.9 mm Hg), diastolic (6.4 mm Hg), and mean arterial pressures (8.9 mm Hg) only in the group with mild hypertension. However, albumin excretion did not decrease when dietary salt content was lowered. The group with hypertension also had higher urinary excretion of lysosomal N-acetyl-beta-D-glucosaminidase (P < .01), and whites in the group had a higher excretion of retinol-binding protein than did whites in the control group (P < .02). Retinol-binding protein values, however, were within the normal range, indicating that the elevated albumin values were the result of changes in selectivity of the glomerulus.
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