![Sample our Environment & Sustainability journals, sign in here to start your access, latest two full volumes FREE to you for 14 days]({"type":"image" , "src" : "/sda/5935/TOC-Subject-Sample-2021-Environment-Sustainability.jpg"})
Abstract
Alternative approaches of adjusting urinary concentration of cadmium for differences in specific gravity of biological samples were assessed. The main analysis used 2922 cadmium-in-urine samples collected in the period 1968–1989 from workers at a UK nickel-cadmium battery facility. Geometric means of cadmium-in-urine, adjusted and unadjusted for specific gravity, were obtained for 21 different values of specific gravity ranging from 1.010 to 1.030. There was a highly significant positive trend (P < 0.001) of unadjusted cadmium-in-urine with specific gravity. Conventional adjustment for specific gravity led to a highly significant negative trend (P < 0.001) of adjusted cadmium-in-urine with specific gravity, SG. An approach proposed by Vij and Howell, involving the introduction of a z coefficient, led to satisfactory adjustment. Conventional adjustment of specific gravity leads to overcompensation of the confounding effects of specific gravity. An alternative method is available and should probably be adopted when interpreting urine biological samples for all chemical substances.
Keywords:
ACKNOWLEDGMENTS
The University of Birmingham received financial support in 2007 from the International Lead Zinc Research Organization (ILZRO) as part of the CH-56 program concerning cancer risks in cadmium-exposed workers.
Notes
A Excluding samples measured below the limit of detection.
B Adjusted to SG of 1.018 (study mean), using conventional approach.
C Adjusted to SG of 1.018 using Vij and Howell method, with their preliminary z-value of 0.57.
D Adjusted to SG of 1.018 using Vij and Howell method, with a z-value of 0.44 determined by current authors.