Objective To study the diagnosis and treatment of the acute medial collateral ligament ruptures of the knee.Methods From August 1998 to August 2003, 87 cases of acute medial collateral ligament ruptures were examined with physical method and MR imaging. Out of them, 35 cases of Ⅰdegree and Ⅱ degree ruptures were treated with non-surgery and 52 cases of Ⅲ degree ruptures were treated surgically. The torn medial collateral ligaments were mended, 21 of which were strengthened with the anterior partial gracilis muscle tendon after the arthroscopy. Results In 35 cases of Ⅰ and Ⅱ degree ruptures, 32 were followed up 13 months on average. According to Lysholm scoring system, the clinical results were classified as excellent or good in 93.7% of the cases. In 52 cases of Ⅲ degree ruptures, 50 were followed up 16 months on average. The excellent or good result was 90%.Conclusion For Ⅰ and Ⅱ degree ruptures, MR imagimg is an important way to definitely- diagnose medial collateral ligament ruptures. Abduction stress test of knee extension shows that the medial direct instability is a main way to definitely diagnose Ⅲ degree ruptures. The results of conservative treatment of Ⅰ degree and Ⅱ degree ruptures are excellent. Surgical therapy are fitfor the cases of Ⅲ degree ruptures.
Objective To review the recent anatomy and biomechanical research progress of knee posteromedial corner, to analyze deficient aspect, and to predict future research directions. Methods Domestic and international l iterature about the anatomy and function of knee posteromedial corner in recent years was reviewed extensively, at the same time, the biomechanics of corresponding structure was summarized and analyzed. Results The anatomical structures ofknee posteromedial corner included the static stabil ity structures and the dynamic stabil ity structures. The dynamic stabil ity structures were more important, including posterior root of medial meniscus, posterior obl ique l igament, semimembranosus extensions, meniscotibial l igament and obl ique popl iteal l igament. The posterior obl ique l igament was most important structure to contribute to stabil ization of valgus, anterior internal rotation of knee and posterior movement of tibia. Conclusion Anatomical reconstruction of knee posteromedial corner especially the posterior obl ique l igament is the key to the reconstruction of knee posteromedial function stabil ity.
Objective To investigate the clinical applicationand curative effect of isoionic microtrauma arthroscope on treatment of knee arthropathy. Methods From May 2003 to November 2004, 52 cases of knee joint injury were cured by using isoionic microtrauma arthroscope, including 30 cases ofknee osteoarthritis, 10 cases of meniscus injury, 5 cases of kneecap dislocation, 5 cases of laxity of anterior cruciate ligation and 2 cases of rheumatoid arthritis. In accordance with Lysholm criterion for knee joint function, the scores were 35.5±4.9 before operation. Results All of these patients were followed up for 2-17 months. The scores of knee joint function was 86.4±5.3 after operation, and there was significant difference (Plt;0.001). Conclusion Isoionic microtrauma arthroscope is characterized by low-temperature hemoagglutination, crimpling,boiling, cutting and hemostasia, which makes kneejoint arthroscope operation easier-to-do, miner histological scathe and lighter side effect; so it is favourable for functional recovery and its curative effect is satisfactory.
From 1984 to 1993, 49 cases with varioussoft tissue defects around the knee were treated with pedicled calf myocutaneous flap, lateral sural cutaneous artery island skin flap, saphenous neurovascularskin flap and fasciocutaneous flap. The postoperation results were sucessful in 47 cases, and failure 2 cases, in one case with flap infection and theother with scar formation surrounding the knee. Both the failure cases were cured with split skin graft. The patient were followed up for an average of three and a halfyears, the knee function was almost completely regained, and the blood supply of the flaps, the elasticity and colour of the flaps were similiar to that of the normal skin, without being cumbersome. The sensation of the saphenous neurovascular flaps and the lateral suralcutaneous artery island flaps was preserved, except partial numbness was presented at the distal part of the flaps. Operative indications and selection of cases were discussed.
Objective To establish the three-dimensional (3D) finite element model of the knee joint including posterolateral complex (PLC), and to simulate the reconstruction biomechanical analysis in this model. Methods The knee of a 26-year-old healthy man was scanned by MRI to obtain the image data of the knee in the coronal, sagittal, and axial position. First, Mimics10.01 and Hyperworks 8.0 softwares were used to extract each slice profile data of the knee joint in a two-dimensional image data respectively and to establish 3D geometric model of bone, meniscus, articular cartilage, and ligament. Second, Unigraphics software NX 4.0 was used to establish a 3D finite element model of knee joint, which had the functions of Mesh, material properties, component connection, and contact definition. Third, displacement measurement on the model and reconstructing biomechanical analysis for PLC simulation were performed. Results The 3D finite element model of the knee joint including PLC was established successfully. Under 134 N forward force, the tibia forward displacement was 4.83 mm. PLC simulation reconstruction biomechanical analysis of the 3D finite element model of the knee joint showed that under 10 N·m varus and external rotation torque conditions, the knee varus and external rotation angles of simulation reconstruction were greater than those of the intact knee, and less than those of PLC missing. Conclusion The 3D finite element model of the knee joint including PLC can be established by the reverse engineering, and it is valid and can be used as the basis for the biomechanical properties to analog reconstruction of PLC.
【Abstract】 Objective To investigate the cl inical outcomes of the treatment of knee dislocation with multiplel igaments injuries by anterior cruciate l igament (ACL) and posterior cruciate l igament (PCL) reconstruction underarthroscopy and repair of the injured structures of the knee joint. Methods From July 2003 to August 2006, there were24 patients with knee dislocation (19 males and 5 females), with the average age of 42 years (ranging from 20 years to 69years), whose ACL and PCL were reconstructed under arthroscopy and whose collateral l igaments and other structures of the knee were repaired [8 with injuries of ACL, PCL, medial collateral l igament (MCL) and lateral collateral l igament (LCL); 12 with injuries of ACL, PCL and MCL; 4 with injuries of ACL, PCL and LCL]. There were 1 case with common peroneal nerve injury, 3 with medial meniscus injury and 7 with lateral meniscus injury. Every patient had single knee dislocation. The outcome was measured from the following aspects: range of the knee, compl ication, cl inical improvement and Lysholm scoring. Results Twenty-four patients were followed up for 11 months to 36 months, with the average time of 25 months.Eleven patients (45.8%) recovered to the normal sports level and 13 (54.2%) patients’ knee function improved significantly so that they could walk by themselves. Lachman test, anterior drawer test and posterior drawer test were negative in 24 patients. The side-to-side difference was less than 5 mm in 24 patients. There were 4 patients who had sl ight knee stiffness. One patient’ s feel ing and sports function of the general peroneal nerve improved to the normal level. Lysholm scale of the knee function was 41.8 ± 4.3 preoperatively and 87.0 ± 6.0 postoperatively (P lt; 0.05). The movement ranges of the knee were (87.5 ± 12.5)° preoperatively and (125.0 ± 9.2)° postoperatively (P lt; 0.05). Conclusion Reconstructing the ACL and PCL and repairing other structures of the knee is an effective method to treat dislocation of the knee.
ccording to the characteristics of periosteum which have a copacity for regrowth of cartilage,free autogenous osteoperiosteal grafts taken from the medial side of the metaphsis of the tibia had beenused to reconstruct the osteochondral defects of the articular surface of the knee joint. The mothod wasillustrated by five cases which included of osteochondritis dissecans, subchondral osteonecrosis and oldfracture of the patella. By the period of 16-26 monthes follow up, using knee function...
Objective To investigate the effectiveness of meniscal allograft in treatment of discoid meniscus tear. Methods Between May 2005 and September 2009, 7 cases of discoid meniscus tear were treated with meniscal allograft. There were 2 males and 5 females with an average age of 22.6 years (range, 18-33 years). The locations were the left knee in 5cases and the right knee in 2 cases. The causes were sport trauma in 4 cases, impact injury in 2 cases, and no apparent reason in 1 case. Of them, 7 cases had joint tenderness gap, 2 cases had positive results in floating patella test, 7 cases had positive results in McMurray test, and 6 cases had positive results in squatting test. The range of knee motion was 0-60°. The disease duration ranged from 3 months to 17 years (median, 26 months). Results The number of the pins was 9-13 (mean, 11). The operative time ranged from 1.5 to 2.7 hours (mean, 1.7 hours). The postoperative fever time ranged from 31 to 57 hours (mean, 46.4 hours). Incisions healed by first intention in 6 cases; infection occurred in 1 case after operation and was cured after 18 days of local irrigation with antibiotic sal ine. Seven patients were followed up 21.6 months on average (range, 12-53 months). The range of knee motion was 0-125°. All patients had the negative results of floating patella test, McMurray test, and squatting test. MRI showed that there was a good heal ing between the transplanted meniscus and the surrounding synovium. The Japanese Orthopaedic Association (JOA) score was 80.71 ± 4.82 at 6 months after operation, showing significant difference (t=10.11, P=0.00) when compared with the score (41.71 ± 8.07) before operation. Conclusion Meniscal allograft in treatment of discoid meniscus tear is a rel iable and effective method, which can ease knee pain.
Objective To evaluate the short-term effectiveness after static anatomical reconstruction of posterolateral complex (PLC) in the treatment of traumatic multi-ligament injury of the knee. Methods Between June 2007 and July 2011, 23 cases of multi-ligament injury of the knee were treated. There were 15 males and 8 females with an average age of 41 years (range, 19-56 years). The injury was caused by traffic accident in 9 cases, sprain in 7 cases, bruise in 3 cases, and falling from height in 4 cases. The time between injury and operation was 13-78 days (mean, 32 days). The results of posterior drawer test and Lachman test were positive, and all cases complicated by varus and external rotation instability. The Lysholm score of the knee was 43.4 ± 5.7. According to International Knee Documentation Committee (IKDC) scoring, all were rated as grade D. According to Fanelli typing, all were classified as type C. The X-ray films showed that load-induced posterior motion of the knee was (13.3 ± 4.2) mm; the lateral joint space was (15.1 ± 2.4) mm. Anterior cruciate ligament/posterior cruciate ligament and PLC were reconstructed simultaneously with auto-semitendinosus, gracilis tendon, and allogeneic tendon. Results All incisions healed by first intention, and no complication occurred. All patients were followed up 12-56 months (mean, 28 months). At last follow-up, the results of posterior drawer test and Lachman test were negative; 3 cases had varus instability, and 2 cases had external rotation instability. The Lysholm score of the knee was 85.6 ± 16.7, showing significant difference when compared with preoperative score (t=11.469, P=0.000). According to IKDC scoring, 7 cases were rated as grade A, 12 as grade B, and 4 as grade C; significant difference was found when compared with preoperative value (Z=4.285, P=0.000). The load-induced posterior motion of the knee was (5.1 ± 4.4) mm, the lateral joint space was (3.2 ± 2.8) mm, showing significant differences when compared with preoperative ones (P lt; 0.05). Conclusion In the treatment of traumatic multi-ligament injury of the knee, the anatomical reconstruction of the PLC using auto-semitendinosus, gracilis tendon, or allogeneic tendon can obtain good short-term effectiveness.
【Abstract】 Objective When knee medial collateral ligament (MCL) rupture, the upper surface of medial meniscus is exposed totally, like the gulf panoramic, which is called “panoramic views of the bay sign” or the “bay sign”. To investigate the reliability and significance of the “bay sign” in diagnosis of knee MCL rupture under arthroscope. Methods Between March 2007 and March 2011, 127 patients with knees injuries were divided into the observation group (n=59) and control group (n=68) based on the MRI results. In the observation group, 59 patients had MCL rupture by MRI, including 12 cases of MCL injury alone, 16 cases of MCL injury with lateral meniscus torn, 27 cases of MCL injury with anterior cruciate ligament (ACL) injury, 3 cases of MCL injury with ACL and posterior cruciate ligament (PCL) injury, and 1 case of MCL injury with patellar dislocation; there were 38 males and 21 females with an average age of 23.2 years (range, 16-39 years). In the control group, 68 patients had no MCL rupture by MRI, including 38 cases of ACL injury, 4 cases of ACL and PCL injury, and 26 cases of ACL and lateral meniscus injury; there were 45 males and 23 females with an average age of 31.8 years (range, 25-49 years). The “bay sign” was observed under arthroscope in 2 groups before and after operation. Results The positive “bay sign” was seen under arthroscope in the patients of the observation group before MCL repair; the “bay sign” disappeared after repair. No “bay sign” was seen in patients of the control group before and after ACL reconstruction. Conclusion The “bay sign” is a reliable diagnostic evidence of MCL injury. It can be used as a basis to judge the success of MCL reconstruction during operation.