BACKGROUND: Thiopurines are used in the treatment of inflammatory bowel disease. They are metabolised via methylation by thiopurine-S-methyltransferase (TPMT), which displays a genetically determined polymorphic activity. Subjects with reduced TPMT activity have a higher concentration of active thiopurine metabolites and may be at increased risk of bone-marrow suppression. AIMS: To evaluate the relevance of TPMT genotyping in the management of thiopurines therapy in inflammatory bowel disease patients. PATIENTS AND METHODS: Adverse effects and clinical response were determined retrospectively and correlated with TPMT genotype in 70 paediatric inflammatory bowel disease patients. RESULTS: Nineteen patients (27.1%) developed adverse effects; of the 51 who did not, 34 (66.7%) responded to treatment. Five patients (7.1%) were heterozygous for a variant TPMT allele; two of these (40%) were intolerant to thiopurines, compared to 17 of the 65 patients (26.2%) with a wild type gene (O.R. 1.88, 95% CI 0.29-12.2, p=0.61); among the 34 responders, the median dosage of the drug required to obtain remission was lower for mutated than for wild type patients (1.6mgkg(-1)day(-1) versus 2.0mgkg(-1)day(-1), p=0.043). CONCLUSIONS: There was no significant association between adverse effects of thiopurines and TPMT heterozygous genotype, but TPMT genotyping could be useful in establishing the most appropriate dose of thiopurines to start treatment.
BACKGROUND:Thiopurines are used in the treatment of inflammatory bowel disease. They are metabolised via methylation by thiopurine-S-methyltransferase (TPMT), which displays a genetically determined polymorphic activity. Subjects with reduced TPMT activity have a higher concentration of active thiopurine metabolites and may be at increased risk of bone-marrow suppression. AIMS: To evaluate the relevance of TPMT genotyping in the management of thiopurines therapy in inflammatory bowel diseasepatients. PATIENTS AND METHODS: Adverse effects and clinical response were determined retrospectively and correlated with TPMT genotype in 70 paediatric inflammatory bowel diseasepatients. RESULTS: Nineteen patients (27.1%) developed adverse effects; of the 51 who did not, 34 (66.7%) responded to treatment. Five patients (7.1%) were heterozygous for a variant TPMT allele; two of these (40%) were intolerant to thiopurines, compared to 17 of the 65 patients (26.2%) with a wild type gene (O.R. 1.88, 95% CI 0.29-12.2, p=0.61); among the 34 responders, the median dosage of the drug required to obtain remission was lower for mutated than for wild type patients (1.6mgkg(-1)day(-1) versus 2.0mgkg(-1)day(-1), p=0.043). CONCLUSIONS: There was no significant association between adverse effects of thiopurines and TPMT heterozygous genotype, but TPMT genotyping could be useful in establishing the most appropriate dose of thiopurines to start treatment.
Authors: Gabriele Stocco; Eva Cuzzoni; Sara De Iudicibus; Diego Favretto; Noelia Malusà; Stefano Martelossi; Elena Pozzi; Paolo Lionetti; Alessandro Ventura; Giuliana Decorti Journal: World J Gastroenterol Date: 2015-03-28 Impact factor: 5.742
Authors: Jackson J Liang; Jennifer R Geske; Barry A Boilson; Robert P Frantz; Brooks S Edwards; Sudhir S Kushwaha; Walter K Kremers; Richard M Weinshilboum; Naveen L Pereira Journal: Pharmacogenet Genomics Date: 2013-12 Impact factor: 2.089
Authors: Muaria Gazouli; Ioanna Pachoula; Ioanna Panayotou; Georgios Chouliaras; Nicholas P Anagnou; George Chroussos; Eleftheria Roma Journal: Ann Gastroenterol Date: 2012