OBJECTIVE To assess the influence of genetic polymorphisms and non-genetic factors on warfarin maintenance dose variations in order to provide guidance for personalized use of warfarin. METHODS Two hundred patients from outpatient and inpatient with stable international normalized ratio(INR) were recruited. Clinical data and blood samples were collected. Genotypes of 4 genes involved in warfarin metabolic pathways were determined with Sanger sequencing. Based on statistical analysis of warfarin maintenance dosage, a mathematical model was established. RESULTS Among non-genetic factors, the age and height have significant influence in warfarin dosage. The dosage is negatively correlated with age but positively correlated with height. The difference in dosage for between the 20-year-old group and 60-year-old group has reached 1.81 mg/day, and that for between the 140 cm in height and 180 cm in height groups has reached 1.06 mg/day. VKORC1 -1639G/A, CYP2C9 430C/T, CYP2C9 1075A/C and CYP4F2 V433M polymorphisms have significant influence on stable warfarin dosage. The dosage for patients with wild type and mutant genotypes has varied from 0.35 mg/day to 0.84 mg/day. CONCLUSION Non-genetic factors and genetic polymorphisms play important roles in personalized variations of warfarin maintenance dose. The establishment of mathematical models considering multiple factors is helpful in evaluating the safety and effectiveness of warfarin dosage.
Adult ; Aged ; Anticoagulants ; administration & dosage ; Cytochrome P-450 CYP2C9 ; genetics ; Cytochrome P-450 Enzyme System ; genetics ; Cytochrome P450 Family 4 ; Female ; Humans ; Male ; Middle Aged ; Polymorphism, Genetic ; Vitamin K Epoxide Reductases ; genetics ; Warfarin ; administration & dosage

Cardiovascular diseases are the leading cause of death in the world today. Atherosclerosis （AS） is a chronic inflammatory disease characterized by thickening or functional degeneration of the arterial wall， and in the later stage of the disease， plaque ruptures to induce thrombosis， which in turn causes ischemia in tissues or organs. It is therefore the pathological basis for all types of cardiovascular diseases. Nuclear transcription factor kappa B （NF-κB）， an important nuclear transcription factor in the inflammatory response， is activated to mediate the transcription of inflammatory factors that can trigger or exacerbate the development of AS. Vascular endothelial cells are activated by inflammatory factors. NF-κB mediates related regulatory genes in endothelial cells to secrete adhesion molecules， chemokines， and coagulation factors， promotes selective aggregation of monocytes， up-regulates the expression of adhesion molecules to make adhesion molecules stick to the endothelium and move toward the intima， promotes the degradation of the extracellular matrix， and forms unstable plaques. In recent years， traditional Chinese medicine （TCM） has achieved certain results in the prevention and treatment of AS， and many Chinese medicines have been proved to be effective in resisting AS and can act on multiple targets in the human body， affecting the occurrence and development of AS in different links. This paper mainly introduced the NF-κB pathway and its relationship with AS， reviewed research progress on 75 components of different types in Chinese medicine monomers such as flavonoids， terpenoids， and alkaloids in AS resistance based on the NF-κB pathway， and found that Chinese medicine monomers mainly regulate cholesterol balance， inhibit the inflammatory response， reduce cell proliferation， inhibit intercellular adhesion， and suppress foam cell formation by regulating the NF-κB pathway to provide a reference for the prevention and treatment of AS.