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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
 
 
 
 

Variations between individuals and populations in the acetylation of isoniazid and its significance for the treatment of pulmonary tuberculosis.

Isoniazid is the most effective and widely used antituberculosis drug. The metabolism of isoniazid is noninducible and the primary metabolic route determining the rate at which isoniazid is eliminated from the body is acetylation. There are large diffrences between individuals in the rates at which isoniazid and certain other hydrazides and some sulfonamides are acetylated. The acetylation of isoniazid is inherited in a simple Mendelian fashion, individuals being either slow, heterozygous rapid, or homozygous rapid acetylators. Improved methods of discriminating between the different phenotypes have recently been described that are also more convenient to use. The proportion of slow acetylators among Japanese and Eskimos is about 10%; among Chinese about 20%; among Caucasians, Negroes, and South Indians about 60%. The results of a series of meticulously controlled clinical trials carried out in India, East Africa, Hong Kong, Singapore, Czechoslovakia, and Britain have shown the isoniazid acetylator status of tuberculosis patients treated with isoniazid-containing regimens is of no prognostic significance when treatment is given on daily basis. It may, however, be of significance when twice-weekly regimens are employed, especially in circumstances in which only a short period of initial daily chemotherapy is given, and where the companion drug employed during the twice-weekly continuation phase is relatively weak. The acetylator phenotype is, however, extremely important in once-weekly treatment, rapid acetylators always having fared considerably worse than slow acetylators on all the regimens evaluated so far. Experimental studies of the action of isoniazid against Mycobacterium tuberculosis in vitro and in vivo have enabled these findings to be understood.[1]

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