Using LC-IRMS, the authors measured the isotope ratios of 14 amino acids in hair proteins independently and leucine/isoleucine as a co-eluting pair, which yieded 15 variables for classification. Multivariate analysis confirmed that the essential amino acids and non-essential amino acids were mostly independent variables in the classification rules, thereby enabling the separation of dietary factors of isotope intake from intrinsic or phenotypic factors of isotope fractionation. Multivariate analysis revealed at least two potential sources of non-dietary factors influencing the carbon isotope ratio values of the amino acids in human hair: body mass index (BMI) and age. These results provide evidence that compound-specific isotope ratio analysis has the potential to go beyond region-of-origin or geospatial movements of individualsobtainable through bulk isotope measurementsto the provision of physical and characteristic traits about the individuals, such as age and BMI. Further development and refinement, for example to genetic, metabolic, disease and hormonal factors could ultimately be of great assistance in forensic and clinical casework. (Publisher abstract modified)
Biometrics From the Carbon Isotope Ratio Analysis of Amino Acids in Human Hair
NCJ Number
249449
Journal
Science & Justice Volume: 55 Issue: 1 Dated: January 2015 Pages: 43-50
Date Published
January 2015
Length
8 pages
Annotation
This study compared and contrasted the ability to classify individuals into different grouping factors through either bulk isotope ratio analysis or amino-acid-specific isotope ratio analysis of human hair.
Abstract