ObjectiveTo investigate the effectiveness of one-stage arthroscopic reconstruction and strict immobilization for 6 weeks for treatment of knee dislocation. MethodBetween August 2010 and May 2013, 22 cases (22 knees) of knee dislocation were treated with one-stage reconstruction and strict immobilization for 6 weeks. There were 15 males and 7 females, aged 21-54 years (mean, 31.5 years). The left knee and right knee were involved in 8 cases and 14 cases respectively. The disease causes were traffic accident in 12 cases, falling from height in 6 cases, and sports injury in 4 cases. The time between injury and operation was less than 2 weeks in 6 cases, 2-3 weeks in 10 cases, and more than 3 weeks in 6 cases. The results of anterior drawer test, posterior drawer test, and Lachman test were positive in all patients. The posterior displacement of the tibia was more than 10 mm. The results of valgus stress test and varus stress test were positive in 13 cases and 11 cases respectively. The preoperative knee range of motion was (58.2±28.4) °, Lysholm score was 39.7±4.6. All patients had anterior cruciate ligament rupture and posterior cruciate ligament rupture; combined injuries included medial collateral ligament rupture in 11 cases, lateral collateral ligament rupture in 9 cases, both medial and lateral collateral ligament rupture in 2 cases, femoral condylar avulsion fracture in 2 cases, and meniscus injury in 7 cases. No nerve or blood vessel injury was observed. ResultsAll cases obtained primary healing of incision without infection. All the patients were followed up 12-48 months (mean, 27.8 months). At 12 months after operation, the results of the anterior drawer test, posterior drawer test, Lachman test, valgus stress test, and varus stress test were all negative; the knee range of motion increased was significantly to (121.3±7.9) °(t=30.061, P=0.000) ; Lysholm score was 87.2±6.1, showing significant difference when compared with preoperative score (t=24.642, P=0.000) . ConclusionsA combination of arthroscopic one-stage reconstruction and strict immobilization for treatment of knee dislocation is a safe and effective method, good stability and joint function can be achieved.
ObjectiveTo compare the difference of rotator cuff healing between different types of injury and between different repair methods, and to explore the animal model to accurately simulate the restorative process after repair of rotator cuff injury. MethodTwelve adult male beagle dogs (weighing, 10-15 kg) were divided into 3 groups (n=4) according to different processing methods:acute rotator cuff injury+Mason-Allen suture repair (group A), huge rotator cuff injury+Mason-Allen suture repair (group B), and huge rotator cuff injury+Mason-Allen combined with autogenous semitendinosus expansion suture repair (group C). The external fixation was used for immobilization after repair. After operation, the general situation of the animals was observed, and the infraspinatus tendon was harvested for gross observation at 6 weeks after operation. The biomechanical test of limit load and histological observation of tendon fibers were carried out. ResultsAll the animals survived to the end of the experiment. All incisions healed well and no infection occurred. Gross observation showed more scar tissues at the end of infraspinatus muscle tendon than normal tendon in group A; no obvious tendon tissue was observed at the end of infraspinatus muscle tendon in group B; the infraspinatus muscle tendon was covered with some white scar tissue, but the tendon and the general direction could be observed in group C. The limit load of groups A, B, and C were (223.75±24.28) , (159.25±34.87) , and (233.25±14.24) N respectively, group B was significantly lower than groups A and C (P<0.05) , and no significant differnce was found between group A and group C (P>0.05) . Histological observation showed normal arrangement of tendon fibers in group A; tendon fibers arranged disorderly in group B and tendon cells were significantly less than those of group A; tendon fibers arranged in neat in group C and tendon cells were more than those of group B. ConclusionsCanine autologous semitendinosus expansion repair of massive rotator cuff injury immobilization model can better simulate the clinical rotator cuff injury healing process, so it can be used as an ideal animal model for related research.