ObjectiveTo summarize the research progress of heterotopic ossification of the elbow joint after trauma. MethodsThe recent domestic and foreign literature concerning heterotopic ossification of the elbow joint after trauma was analysed and summarized. ResultsThe mechanism of heterotopic ossification of the elbow joint after trauma is mainly related to bone morphogenetic protein signal transduction disorder. Now there are many treatments of heterotopic ossification, including non-surgical treatment, prevention, and surgical treatment. Non-surgical treatment and prevention mainly aim at patients who have no elbow heterotopic ossification or who have mild limited elbow motion because of elbow heterotopic ossification after trauma, including drug therapy, radiation therapy, Chinese medicine therapy, and rehabilitation treatment. For patients with invalid non-surgical treatment, choosing surgical treatment is a must. Surgical treatment includes surgical resection, arthroscopic resection, and joint replacement, priority should be given first to surgical resection. ConclusionHeterotopic ossification of the elbow joint is common and there is not a recognized standard treatment, comprehensive use of non-surgical treatment and surgical treatment is the future direction.
Objective To study the biomechanical differences of the first carpometacarpal joint stability by using different reconstruction methods so as to provide theoretical basis for the clinical choice of reconstruction method. Methods The upper limb specimens were selected from 12 fresh adult cadavers, which had no fracture, bone disease, dislocation of wrist joint, deformity, degeneration, or ligament injury on the anteroposterior and lateral X-ray films. The specimens were randomly divided into 5 groups: normal group, injury group, palmar carpometacarpal ligaments reconstruction group, dorsal carpometacarpal ligaments reconstruction group, and palmar and dorsal carpometacarpal ligaments reconstruction group. Three normal specimens were used as normal group, and then were made of the first carpometacarpal joint dislocation models (injury group); after the first carpometacarpal joint dislocation was established in the other 9 specimens; the volar ligament, dorsal ligament, and volar-dorsal ligaments were reconstructed with Eaton-Little method, Yin Weitian method, and the above two methods in 3 construction groups. The biomechanical test was done to obtain the load-displacement curve and to calculate the elastic modulus. Results During biomechanical test, ligament rupture and loosening of Kirschner wire occurred in 1 case of injury group and palmar carpometacarpal ligaments reconstruction group; no slipping was observed. The elastic modulus values were (11.61±0.20), (5.39±0.12), (6.33±0.10), (7.12±0.08), and (8.30±0.10) MPa in normal group, injury group, palmar carpometacarpal ligaments reconstruction group, dorsal carpometacarpal ligaments reconstruction group, and palmar and dorsal carpometacarpal ligaments reconstruction group respectively, showing significant differences among groups (P<0.05). Conclusion Volar ligament reconstruction, dorsal ligament reconstruction, and volar-dorsal ligament reconstruction all can greatly improve the stability of the first carpometacarpal joint. And the effect of volar-dorsal ligament reconstruction is the best, but the stability can not restore to normal.