References
- Baumgartner A M, Jones P F, Baumgartner W A, Black C T. Radioimmunoassay of hair for determining opiates-abuse histories. J Nucl Med 1979; 20: 748–752
- Martz R, Donnelly B, Fetterolf D, Lasswell L, Hime G W, Hearn W L. The use of hair analysis to document a cocaine overdose following a sustained survival period before death. J Anal Toxicol 1991; 15: 279–281
- Cone E J, Yousefnejad D, Darwin W D, Maguire T. Testing human hair for drugs of abuse. II. Identification of unique cocaine metabolites in hair of drug abusers and evaluation of decontamination procedures. J Anal Toxicol 1991; 15: 250–255
- Baden H P, Freedberg I M. Biosynthesis and structure of epidermal hair root and nail protein in dermatancology in general medicine: 2nd ed., T B Fitzpatrick, K A Arndt, A Z Eizen, E J Van Scott, J H Vaughn. McGraw-Hill, New York 1979; 96–101
- Brittebo E B. Binding of cocaine in the liver, olfactory mucosa, eye and fur of pigmented mice. Toxicol Appl Pharmacol 1988; 96: 315–323
- Patil P N. Cocaine-binding by the pigmented and the non-pigmented iris and its relevance to the mydriatic effect. Invest Opthamol 1972; 11: 739–746
- Klevay L M, Bistrian B R, Fleming C R, Neumann C G. Hair analysis in clinical and experimental medicine. Am J Clin Nutr 1987; 46: 233–236
- Reuschel S A, Smith F P. Benzoylecgonine (cocaine metabolite) detection in hair samples of jail detainees using radioimmunoassay (RIA) and gas chromatography/mass spectrometry (GC/MS). J Forensic Sci 1991; 36: 1179–1185
- Shimada K, Baweja R, Sokoloski T, Patil P N. Binding characteristics of drugs to synthetic levodopa melanin. J Pharm Sci 1976; 65: 1057–1060