Effect of creatinine and specific gravity normalization techniques on xenobiotic biomarkers in smokers’ spot and 24-h urines

Effect of creatinine and specific gravity normalization techniques on xenobiotic biomarkers in smokers’ spot and 24-h urines

Renal excretion mechanisms are xenobiotic-specific; therefore, accurate exposure assessment requires an understanding of relationships of xenobiotic biomarker concentration and excretion rate to urine flow, specific gravity and creatinine concentration. Twenty-four-hour urine collection for xenobiot...

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Bibliographic Details
Published in:Journal of pharmaceutical and biomedical analysis Vol. 40; no. 4; pp. 928 - 942
Main Authors: Heavner, David L., Morgan, Walter T., Sears, Stephen B., Richardson, Joel D., Byrd, Gary D., Ogden, Michael W.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 03-03-2006
Elsevier Science
Subjects:
24-h urine
Analysis
Analytical, structural and metabolic biochemistry
Biological and medical sciences
Biomarkers - urine
Circadian Rhythm
Computer Simulation
Cotinine
Creatinine
Creatinine - urine
Female
Fundamental and applied biological sciences. Psychology
General pharmacology
Humans
LC-MS/MS
Male
Medical sciences
Models, Biological
Nicotine
Normalization
Pharmacology. Drug treatments
Regression Analysis
Reproducibility of Results
Smoking - metabolism
Smoking - urine
Specific Gravity
Spot urine
Urinalysis - methods
Urinary flow rate
Urodynamics
Xenobiotic biomarkers
Xenobiotics - metabolism
Xenobiotics - urine
Creatinine
LC-MS/MS
Spot urine
Specific gravity
Urinary flow rate
Normalization
Cotinine
24-h urine
Xenobiotic biomarkers
Nicotine
Urine
Biological fluid
CNS stimulant
Psychotropic
Tobacco smoking
Biological marker
Liquid chromatography
Alkaloid
Antidepressant agent
Xenobiotic
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Description
Summary:Renal excretion mechanisms are xenobiotic-specific; therefore, accurate exposure assessment requires an understanding of relationships of xenobiotic biomarker concentration and excretion rate to urine flow, specific gravity and creatinine concentration. Twenty-four-hour urine collection for xenobiotic exposure assessment is considered the “gold standard” procedure. Random spot-urine collection is convenient and minimizes subject compliance concerns but requires that normalization techniques be employed to account for diuresis and diurnal variation in xenobiotic biomarker excretion. This paper examines and makes recommendations concerning normalization techniques and conditions under which spot-urine results most accurately reflect 24-h urine results. Specific gravity, creatinine, and xenobiotic biomarkers were determined in smokers’ spot and 24-h urines. Normalization techniques were applied, variance-component analyses were performed to estimate variability, spot urines were pooled mathematically to simulate 24-h urines and analyses of variance were performed to evaluate spot urines’ ability to reflect 24-h urine concentrations. For each xenobiotic biomarker concentration, log-linear relationships were observed with urine flow, specific gravity, and creatinine. For most xenobiotic biomarker excretion rates, log-linear relationships were observed with urine flow; creatinine, however, was unaffected by urine flow. The conventional creatinine ratio-normalization technique demonstrated greater variability (within-day, between-day and between-subject) than other normalization techniques. Comparisons of simulated 24-h urines to spot urines suggest that spot-urine collection be performed only between 2 p.m. and 2 a.m. and that the modified specific-gravity-adjusted-creatinine ratio-normalization technique and the creatinine-regression normalization technique yield the best agreement between spot- and simulated 24-h urine results.
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ISSN:0731-7085
1873-264X
DOI:10.1016/j.jpba.2005.08.008