Background Warfarin is an anticoagulant that is prescribed widely for the treatment and prevention of thrombosis. However, risks caused by warfarin vary, depending on the individuals, mainly genetic variations, environment, diseases and the severity of disease. It is important to adjust the dose of warfarin in clinical use based on the International Normalized Ratio (INR) value monitoring. All the possible factors involving dose adjustment will be investigated in this study in order to approach the individualized drug use. Methods Outpatients receiving long-term therapy were enrolled in National Taiwan University Hospital from July to October 2005. We collected the data including sex, age, indication, concomitant agents, INR value and the genotype of certain SNP sites in CYP1A2, CYP2C9, CYP2C19, CYP3A4, coagulation factor II, factor VII, factor IX, factor X, protein C, protein S, EPHX1, GGCX, GSTA1 and VKORC1. Furthermore, we detected the concentration of warfarin enantiomers and studied the association of pharmacogenomics and personalized warfarin doses. Results There were 75 patients enrolled in the study but two were excluded due to the failure of identifying the genotype. Deep vein thrombosis is the main indication in all patients. The mean maintenance dose was 3.9 mg/day and the mean INR value was 2.02. Results showed the variants of the positions -1639, 1173, 2225 in VKORC1 and the position 681 in CYP2C19 were highly related with warfarin maintenance dose. Also, there was negative relationship between age and warfarin maintenance dose in our study. Linkage disequilibrium of factor IX, GGCX and VKORC1 in certain SNP sites occurred in the study. The concentration of enantiomers was positively related to the maintenance dose of warfarin, but not to drug response. It is not applicable to adjustment of the dose by monitoring the concentration of racemic warfarin, or to its enantiomers. Conclusion The maintenance dose of warfarin was determined by multiple factors. The ethnic effect of Taiwanese and Caucasian might be partly caused by the different frequency of SNP sites of VKORC1 and CYP2C19. According to the regression model, we can calculate the warfarin maintenance dose by age and the genotype of these SNP sites so as to decrease the adverse drug effects and increase the safety of the drug.