Objective To analyse and summarize the diagnosis, treatment, and cl inical effects of talus lateral process fracture. Methods Between February 2001 and March 2009, 21 male patients with an average age of 33.6 years (range, 18-46years) with talus lateral process fractures were treated. Fracture was caused by fall ing from height in 18 cases, by tumbl ing in 2 cases, and by sprain in 1 case. According to Hawkins classification, there were 4 cases of type I, 15 cases of type II, and 2 cases of type III, all being closed fractures. The disease course was from 2 hours to 26 days. In 17 patients whose fracture fragments were more than 1 cm × 1 cm × 1 cm or whose fracture fragments shifting was more than 1 mm, open reduction and internal fixation with AO hollow titanium nails were performed in 14 patients, open reduction and internal fixation with door-shape self-made nail in 1 patient, and open reduction and internal fixation with absorbable screws in 2 patients. In 4 patients whose fracture fragments were less than 0.6 cm × 0.5 cm × 0.5 cm or whose fracture fragments shifting was less than 1 mm, fragments removel was performed in 2 patients, Kirschner pins in 1 patient, and plaster conservative therapy in 1 patient. In patients with l igaments injury, the l igaments was reconstructed during the operation. Results All the incisions achieved primary heal ing. Twenty-one patients were followed up 9.5 months to 8 years. No ankle pain occurred and the range of joint motion was normal after operation. The X-ray films showed that all cases achieved fracture union. And the healing time was from 8 weeks to 14 weeks (10 weeks on average). According toAmerican Orthopeadic Foot amp; Ankle Society (AOFAS) for foot, the results were excellent in 17 cases, good in 3 cases, and moderate in 1 case; the excellent and good rate was 95.24%. Conclusion The size and displacement of fracture fragment should be considered first in the treatment of lateral process fracture of talus; in patients who are compl icated by lateral malleolus l igament injury, the l igament should be reconstructed to avoid the chronic non-stabil ity of lateral ankle.
To research the operative method and the cl inical efficacy of repairing and reconstructing tendon and l igament with allograft tendon. Methods From September 2000 to May 2007, 164 cases with tendon and l igament injuries were treated, including 116 males and 48 females aged 21-47 years old (average 31.5 years old). There were 126 cases of anterior cruciate l igament injury, 18 cases of complete acromioclavicular dislocation, 10 cases of old dislocation of radialhead, 4 cases of Achilles tendon rupture, 2 cases of tibial is anterior muscle rupture, 2 cases of patellar tendon rupture, and 2 cases of rectus femoris rupture. Time interval between injury and hospital admission was 4-345 days (average 75 days). Allograft tendon 10-26 cm in length with suture anchor or absorbable interference screw was used to reconstruct the l igament and tendon. Results All wounds healed by first intention, except one case of rectus femoris rupture. All patients were followed for 10-36 months (average 21 months). The international knee documentation commitee and the Lysholm score of patients with anterior cruciate l igament injury 12 months after operation were significantly higher than that of before operation (P lt; 0.01). According to the Lazzcano and Karlsson score standard, 13 cases of complete acromioclavicular dislocation at 10-12 months after operation were graded as excellent and 5 cases were good. According to Arner Lindholm score standard, 3 cases of Achilles tendon rupture at 8-16 months after operation were graded as excellent and 1 case was good. For the patients with tibial is anterior muscle rupture, at 10-17 months after operation, the limitation of dorsal extension in ankle joint was 5°, and the muscle strength in the anterior tibial is muscle was decreased. For the patients with patellar tendon rupture, one completely restored the motion range of the knee joint 14 months after operation, the other had knee extension l imitation of 10° at 13 months after operation. For the patients with rectus femoris rupture, one had 15° of extension limitation at 18 months after operation, the other suffered limitation of both extension and genuflex at 12 months after operation. According to the Broberg-Morrey score standard, 7 caseswith old dislocation of radial head were graded as excellent and 3 cases were good at 3-36 months after operation. Conclusion Allograft tendon is a good material for repairing and reconstructing tendon and ligament injuries, but attention should be paid to postoperatively early exercise under appropriate protection and early management of local rejection.
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 summarize the current status and progress of the treatment of chronic lateral ankle instability (CLAI). MethodsThe literature about the anatomical repair of CLAI at home and abroad was reviewed and summarized. ResultsBroström and its modified operations are the most common surgical treatment of CLAI. The operations showed satisfactory clinical outcomes in the short-, medium-, and long-term follow-up and low complication rate. Suture anchor technique and arthroscopic techniques are gradually used in Broström and its modified operations with satisfactory short-term effectiveness, but long-term effectiveness needs further observation because of the limitation of the short clinical application time. ConclusionBroström and its modified operations are effective, convenient, and safe to treat CLAI. Based on the researches of biomechanics and dynamic anatomy, the more personalized design of the rehabilitation program is the further research direction.