A case report of Total Knee Arthroplasty after Gene Therapy for Hemophilia B (HB) is published in the world’s leading medical journal, The New England Journal of Medicine,&n�����bsp;via correspondence, reporting the world’s first total knee arthroplasty (TKA) after a single dose intravenously delivered gene therapy with BBM-H901, which is developed and manufactured in-house by Qiming Venture Partners’ portfolio Belief BioMed for Hemophilia B.
The case report is contributed by the Institute of Hematology and Blood Diseases Hospital at the Chinese Academy of Medical Sciences, Belief BioMed, Shandong Provincial Qianfoshan Hospital, Blood Center of Shandong Province, and University of Pennsylvania Scho������ol of Medicine, Philadelphia, USA.
The case reports the world’s first HB patient who received gene transfer with BBM-H901 and subsequently underwent unilateral TKA without exogenous FIX infusion during the perioperative period. An excellent haemostatic effect of gene therapy for t������he HB patient who underwent major surgery was observed for the first time, demonstrating the repeated success of gene therapy in HB.
This������ case provides a reliable clinical basis for perioperative treatment plans for HB patients who need surgeries after having been treated with gene therapy.
BBM-H901 is a gene therapy for Hemophilia B which utilizes a liver-tropic adeno-associated viral (AAV) vector carrying cassette coding hyperactive mutant FIX-Padua. The investigator-initiated clinical study includes ten patients with moderate to severe Hemophilia B (FIX: C<2%) who were intravenously infused with 5×1012vg/kg�������, including the patient in the case reported.
BBM-H901 has�������� brought significant clinical benefits to patients during at least a 1.5-year follow-up interval, on average, after treatment. Before the operation, the patient’s transgene-derived FIX: C ranged from 51.4 IU/dL to 85 IU/dL measured by the one-stage method with Dade Actin FSL on a Sysmex CS5100 (Siemens). No vector-related adverse effect, no bleeding event, absence of target joints, and no need for FIX replacement therapy after gene therapy during the follow-up interval.
This patient’s haemophilia arthropathy, which existed before the gene therapy treatment, progressed and compromised his quality of life. After consulting with������� a multidisciplinary team, the patient underwent a right TKA successf�����ully.
During the perioperative period and without any FIX concentrate infusion, no excessive bleeding was observed during and after surgery – the intraoperative blood loss was estimated at 150 ML. FIX: C was 50.1 IU/dL in the morning of the operation and decreased to 46 IU/dL after the operation on the same day. One day after the procedure, FIX: C rose to 53.8 IU/dL. The upwa�����rds trend of FIX: C was observed from D1 to D5 aft�����er the operation, and the peak FIX: C was 79.3 IU/dL. Then, the FIX: C decreased gradually to a stable level of approximately 60 IU/dL.
Overall, the hemostasis effect of gene therapy with BBM-H901 in the set������ting of major haemostatic challenges in major surgery was verified for the first time in vivo. The safety and efficacy of BBM-H901 are well d������emonstrated, which could deliver a solution for the long-term treatment of hemophilia B and alleviate the occurrence of related complications for the betterment of patients.
The clinical research of BBM-H901 is expected to provide a relia������ble basis and theoretical support for the clinical application of systematically administered gene therapy drugs in the future and is of important guiding significance for promoting the research and development and clinical tr��������anslation of gene therapy drugs.
"We’re beyond proud to be able to help this patient. It’s the difference between pure laboratory research and drug development, where the former you can try any novel ideas, but the latter delivers real benefits to patients," said Dr Xiao Xiao, Chief Scientific Officer and Chairman of Belief BioMed. "We will continue to advance the discovery and research of o������ur gene therapy portfolio across distinct therapeutic areas, to accelerate clinical trials and commercialization of the therapies. We hope gene therapy could be accessible to more patients with rare or common diseases������ as soon as possible."
