Abstract
BACKGROUND: Haemophilia, caused by deficiencies in factor VIII or IX, leads to deep tissue bleeding and haemophilic arthropathy. Bleeding, arthropathy, and the perioperative period of surgery for arthropathy are associated with severe pain. To avoid this pain, patients may compensate by overloading other parts of the body, potentially resulting in pain or secondary damage in areas distant from the primary site. This study investigates the use of infrared thermography (IRT) to monitor whole-body surface temperatures in people with haemophilia and to explore the potential of infrared thermography for early detection of compensatory overload. METHODS: A cross-sectional study involved 24 people with haemophilia aged 6-76 years old, experiencing pain after bleeding, post-orthopaedic surgery, or haemophilic arthropathy. Thermal images were captured with IRT and analyzed using software that utilises deep learning for whole-body temperature mapping. RESULTS: Increases in temperature indicative of overload were observed in areas distant from the affected site, either on the same side (vertical pattern) or on the opposite side (diagonal pattern) relative to the site of pain. These patterns were observed in 13 of 14 participants with haemophilic arthropathy, all post-orthopaedic surgery participants, and 5 of 6 after bleeding. CONCLUSIONS: Temperature increases occurred in areas beyond the painful area, suggesting strain even in asymptomatic regions. People with haemophilia experiencing pain may require careful monitoring and treatment of surrounding areas. Our findings could aid in diagnosing haemorrhage and local inflammation while informing treatment decisions. CLINICAL TRIAL REGISTRATION: Not applicable.