Hyperbaric Oxygen Therapy for Hemorrhagic Cystitis Post HSCT

Allogeneic hematopoietic stem cell transplantation (allo-HSCT) is a potentially curative therapy for many malignant or nonmalignant hematological diseases. Hemorrhagic cystitis (HC) is one of the common and major causes of morbidity in patients undergoing allo-HSCT. Its incidence ranges from 7 to 52%, and its manifestations range from painless microscopic hematuria to severe bladder hemorrhage, leading to clot formation within the urinary tract and even renal failure. This complication results in much pain to the patient and increasing treatment cost.

Late-onset HC (two weeks after stem cell infusion) has been associated with reactivation of viruses, including cytomegalovirus, polyoma BK and JC viruses, and adenovirus types I and II. Former studies have confirmed that the bladder is also considered to be one of the immune attacked organs in acute graft-versus-host disease (aGVHD). The classic treatments for HC include hydration, alkalization, and bladder irrigation, immunosuppressant reduction, and platelet transfusion. Patients with viral infection may be treated with antiviral agents, but their efficacy is limited. When the HC was considered to be associated with aGVHD, some immunosuppressive agents such as glucocorticoids will be added in. However, too intensive immunosuppressive measures leave the patients susceptible to infection and, in turn, increases the accidence of non-relapse mortality (NRM). The mechanism underlying the development of HC remains largely unidentified, and its optimal treatment has not yet been established. It is important to explore novel, less-toxic, higher effective, and cost-effective strategies to improve HC.

The elevated levels of available oxygen and partial pressure of arterial oxygen provide the main benefits of Hyperbaric oxygen therapy (HBOT) in clinical practice that addresses these areas of inadequate or poor tissue healing. HBOT is utilized as primary or adjunctive therapy for many medical conditions in which tissue damage is triggered by hypoxic injury. The pharmacological and physiologic effects of HBOT have direct and indirect mechanisms and effects on reactive oxygen species (ROS) most beneficial to that of wound healing and antibacterial treatments. HBOT can stimulate fibroblast proliferation, angiogenesis, and wound healing. It has been shown effective in the treatment of radiation-induced HC by promoting fibroblast proliferation and capillary angiogenesis, decreasing edema, and facilitating damaged hypoxic urothelium. Based on the above clinical and pre-clinical practice, the investigators deduce that HBOT may benefit patients with HC after HSCT. In the investigators' limited early-onset investigation, the investigators found HBO was largely successful in 20 patients suffering HC post-allo-HSCT, showed a quick resolution or improvement of HC. The investigators also observed more rapid responses in patients who started HBOT earlier after the diagnosis of HC. The investigators confirmed that HBOT was effective and well-tolerated in the patients, regardless of the infective- or non-infective- caused HC. Therefore, the investigators design this prospective, randomized, and single-arm clinical trial to establish the definitive efficacy and safety of HBOT in patients with HC after allo-HSCT.