With the implementation of the “Health China 2030” strategy, sports medicine has played an increasingly important role in clinical treatment, chronic disease management, and population health promotion. West China Hospital of Sichuan University has actively explored the development and optimization of its sports medicine discipline outpatient management system, establishing a comprehensive model that integrates diagnosis and treatment, functional rehabilitation, exercise-based health management, and extended care services. This article systematically summarizes the practical experiences of the sports medicine outpatient department, including subspecialty setting, exercise prescription services, outpatient assistant mechanisms, online expert teams, multi-campus coordination, and full-process health management. Emphasizing a function-oriented and patient-centered approach, the article also discusses the extended value of outpatient services in translational research, smart healthcare, and preventive health strategies. This model provides a replicable and scalable reference for the development of sports medicine outpatient clinics.
Based on peer-reviewed systematic reviews and randomized controlled trials published from January 1990 to April 2016 with regards to the management of osteoarthritis (OA) of the hip, the American Academy of Orthopaedic Surgeons (AAOS) developed the clinical practice guideline for the treatment of hip OA. This guideline provided practice recommendations including risk factors for hip OA, oral drugs and intraarticular injectables, physical therapies, perioperative hemostatic drug, anesthetic types, approach exposures, etc. The evidence of guideline was graded according to it’s strength. This article interpreted this guideline so as to provide reference for Chinese medical staffs and guideline developers.
Objective To provide the anatomic evidences and the choice of tendon graft for anatomic reconstruction of posterolateral complex through the morphological and biomechanical study on posterolateral structures of the knee in normal adult cadavers. Methods Twenty-three fresh lower l imb specimens from voluntary donators and 9 lower l imbs soaked by Formal in were selected for anatomic study on the posterolateral complex of the knee. Six fresh specimens were appl ied to measure the maximum load, intensity of popl iteus tendon, lateral collateral l igament, and popl iteofibular l igament, which were key components of the posterolateral complex. Results Popl iteus musculotendinous junction was located at 7.02-11.52 mm beneath lateral tibial plateau and 8.22-13.94 mm medially to fibular styloid process. The distances from femoral insertion of popl iteus tendon to the lower border of femoral condyle and to posterior edge of femoral condyle were 10.52-14.38 mm and 14.24-26.18 mm, respectively. Popl iteofibular l igament originated from popl iteus musculotendinous junction and ended at fibular styloid process. Lateral collateral l igament was located at 10.54-16.48 mm inferior to fibular styloid process, and the distances from femoral insertion to the lower border of femoral condyle and to posterior edge of femoral condyle were 14.92-19.62 mm and 14.66-27.08 mm, respectively. The maximum load and intensity were 579.60-888.40 N and 20.50-43.70 MPa for popl iteus tendon, were 673.80-1 003.20 N and 24.30-56.40 MPa for lateral collateral l igament, and were 101.56-567.35 N and 8.94-36.16 MPa for popl iteofibular l igament, respectively. Conclusion During anatomical reconstruction of posterolateral complex, the bony tunnel of the key components should be located according to the insertion mentioned above. On the basis of this study, the maximum load and intensity of selectable grafts should exceed 833 N and 36 MPa.
Objective To introduce the research advance of the ligament injury and ligament healing.Methods Recent original articlesrelated to such aspects of ligament were reviewed extensively.Results The ligament properties would be influenced when the situations of the biochemistry and biomechanics had changed. Injuries to ligaments induce a healing response that is characterized by scar formation. Graft could not recovery the ultrastructure, anatomy and biomechanics of the normal ligament.Conclusion The healing ligament is weaker than normal one, and the graft could not reconstruct normal ligament at present.
ObjectiveTo review the research progress of tissue engineered ligament. MethodsThe literature in recent years on tissue engineered ligament in repair of anterior cruciate ligament (ACL) injury was extensively reviewed, including cell sources, scaffold materials, growth factors, and mechanical stimulation in tissue engineered ligament. ResultsTissue engineered ligament constructed by mesenchymal stem cells and ACL fibroblasts has been successfully used in animal experiments. It is crucial for qualified tissue engineered ligament to choose appropriate seed cells, scaffold, mechanical stimulation, and essential cytokines. To further optimize culture condition and how to realize the tissue engineered ligament in vivo better survival and prognosis need to be further studied. ConclusionEnormous progress has been made in tissue engineered ligament for repair and regeneration of ACL. With the development of biochemistry and scaffold materials, tissue engineered ligament will be used in clinic in the near future.
ObjectiveTo investigate the risk factors of contralateral anterior cruciate ligament (ACL) injury after primary ACL reconstruction. Methods A retrospective review was conducted on the 716 patients with ACL injury who received primary ACL reconstruction surgery and met the selection criteria between January 2012 and September 2018. After a mean follow-up period of 7.6 years (range, 4-10 years), 65 patients (9.1%) experienced contralateral ACL injury (injured group) and 651 patients (90.9%) did not (uninjured group). There was no significant difference in age, body mass index, and preoperative Lachman test degree between groups (P>0.05). However, the proportion of female in the injured group was significantly higher than that of male (P<0.05), and the preoperative posterior tibial slope (PTS) was significantly higher than that of the uninjured group (P<0.05). Using the outcome of contralateral ACL injury as the dependent variable, the clinical data of the patient was first used as the independent variable, and univariate COX regression was used to analyze the prognostic influencing factors. Then, the indicators with differences in univariate COX regression were used as the independent variable, and multivariate COX regression was used to analyze the independent risk factors affecting prognosis. Log-Rank (Mantel-Cox) test was used to test and analyze the occurrence time of contralateral ACL injury in patients of different genders; X-tile software was used to analyze the occurrence time of contralateral ACL injury in patients with different PTS using Log-Rank (Mantel-Cox) test and PTS cut-off values. ResultsUnivariate COX regression analysis showed that gender and PTS were influence factors for contralateral ACL injury (P<0.05); further multivariate COX regression analysis showed that female and increased PTS were independent risk factors for contralateral ACL injury (P<0.05). The Log-Rank (Mantel-Cox) test results showed that the contralateral ACL injury occurred in female at 8.853 (8.600, 9.106) years, which was significantly shorter than that in male [9.661 (9.503, 9.819) years] (χ2=20.323, P<0.001). Using X-tile software to analyze the cut-off value of PTS, it was found that the cut-off value of PTS for contralateral ACL injury was 10.92°. According to the Log-Rank (Mantel-Cox) test, it was found that the contralateral ACL injury occurred in 5.762 (4.981, 6.543) years in patients with PTS≥10.92°, which was significantly shorter than patients with PTS<10.92° [9.751 (9.650, 9.853) years](χ2=302.479, P<0.001). ConclusionFemale and PTS≥10.92° after primary ACL reconstruction are independent risk factors for contralateral ACL injury.
ObjectiveTo summarize the diagnosis and measurement methods of bone defect in anterior shoulder instability (glenoid bone defect and Hill-Sachs lesion).MethodsThe related literature on the diagnosis and measurement of the bone defect in anterior shoulder instability was reviewed and summarized.ResultsThe commonly used techniques for the diagnosis of anterior glenoid bone defect and Hill-Sachs lesion of humeral head include X-ray, CT, MRI, arthroscopy, arthrography. The methods for measuring the degree of anterior glenoid bone defect include Griffith method, glenoid index method, Pico method, and best-fit circle method. The indexes for measuring the Hill-Sachs lesion include the length, width, depth, and volume. X-ray is mainly used for primary screening. Best-fit circle method on three-dimensional (3D) CT reconstruction is commonly used to measure the glenoid bone defect currently. Glenoid track theory on 3D CT reconstruction is popular in recent years. Reliability of measuring the glenoid bone defect and Hill-Sachs lesion with MRI and arthroscopy is still debatable. Arthrography is more and more used in the diagnosis of shoulder joint instability of bone defect and concomitant soft tissue injury.ConclusionHow to improve the accuracy of evaluating glenoid bone defect and Hill-Sachs lesion before surgery still need further study.