Hemophilia B is an X-linked bleeding disorder that results from a deficiency or dysfunction of plasma coagulation factor IX (FIX). Bleeding into joints that consequently develops into haemophilic arthropathy (HA) is the most common morbidity of haemophilia, and impacts negatively on quality of life. Patients are treated with administration of FIX protein concentration. Despite administration of high quality plasma-derived and recombinant FIX protein products readily available for several decades, many patients still suffer from HA. This suggests that the current FIX (FIX-WT) protein concentration products are not protective against HA. We suspect that this may be due to the low coagulation activity of the currently used FIX products on trough level in patients. Our laboratory previously demonstrated that the high specific activity of FIX-Triple (FIX-V86A/E277A/R338A) is superior to FIX-WT for 13 folds specific activity. Therefore, we aim to test whether FIX-Triple will be more effective than FIX-WT in the reduction of the occurrence of HA. To this purpose, I established a hemophilia B mouse model of synovitis which is raised from haemorrhage-induced joint injury. Gene therapy of hemophilia B mice was performed on adeno-associated virus (AAV) expressing human FIX (hFIX) at a dose of 2×1010 vector genome (vg)/mouse. All the Mice treated with AAV-hFIX were no longer observed development of HA and the mice treated with AAV showed 7.2-fold higher specific clotting activity than those treated with AAV-WT. Under the therapy at a medium dose of 8×108 vector genome (vg)/mouse, the coagulation activity of the mice showed 5~10 % level to normal people. It also indicated that the mice treated with AAV-Triple could exhibit the same protective effect as AAV-WT in the less circulating level of FIX Triple. To mimic the on-demand treatment of patients suffering from bleeding, the hemophilia B mice were treated with intravenous administration of FIX following induction of joint hemorrhage. The result suggested that the mice received intravenous FIX-Triple developed minimal histopathological findings of synovitis after blood-induced joint injury, when compared with the mice that received FIX-WT and FIX-338L, a gain-of-function FIX variant which is undergoing evaluation in phase 2 clinical trial for gene therapy of hemophilia B. These studies demonstrate that FIX-Triple is a potential therapeutic substitute for FIX-WT to improve the bleeding phenotype to prevent the development of HA.