A Case Report of Heterotopic Ossification Caused by High-Voltage Electric Injury.

This case report described the diagnosis and treatment of a patient with ectopic bone injury due to high-pressure electric shock. A 24-year-old male patient suffered from burns that covered 50% of TBSA, including on limbs and torso, after coming into contact with 10-kV high-voltage electricity. A repeated Meek micrografting technique (MEEK) was applied for wound healing; skin grafts were cut into micrografts and expanded at a ratio of 1:4 to cover large areas after burn trauma. After the injury, right elbow redness, fever, pains, and joint movement disorder were reported by the patient, which might be attributed to excessive exercises and acute scarring. However, these symptoms were not treated immediately. Six months after the injury, his right elbow joint showed 90° locking and a restricted 5° movement capacity. X-ray examination revealed a new bone formation at the inner tibia shin. In addition, 3D CT showed the formation of right tibia, the ruler bone, and the skull of the humming bridge. Under general anesthesia, the right elbow joint was released, the medial collateral ligament was repaired, and the hinge external fixator was fixed. A large number of hyperplastic bone masses were found at the right elbow joint during surgery, specifically in the foot bone hawk's beak nest. No complications after surgery were observed. X-ray examination in February showed disappearance of the bone bridge and normal relationship of the right elbow joint. This case study revealed that electric shock injury could lead to ectopic bone formation, and much attention should be paid on any changes that indicate aseptic inflammation, such as redness, swelling, fever, and pain during the treatment process. Finally, identification of the scar constriction phase could indicate surgical treatment in order to promote the limb rehabilitation process.