Objective To analyse the results of posterior cruciate l igament-retained mobile-bearing total knee arthroplasty (TKA) in treatment of rheumatoid arthritis (RA) and to solve the problems often encountered during surgery. Methods From February 1999 to August 2005, the cl inical data from 73 patients with RA undergoing TKA were analysed retrospectively. In 73 patients, 38 patients were treated with posterior cruciate l igament-retained mobile-bearing prosthesis (group A), while 35 patients were treated with posterior stabil ized fixed-bearing prosthesis (group B). Another 70 patients with osteoarthritis (OA) treated with an posterior cruciate l igament-retained mobile-bearing prosthesis served as controls (group C). In group A, there were 8 males and 30 females with an average age of 56.5 years and an average diseasecourse of 16.8 years. In group B, there were 6 males and 29 females with an average age of 57.3 years and an average disease course of 17.1 years. In group C, there were 37 males and 33 females with an average age of 65.4 years and an average disease course of 10.8 years. There was no significant difference (P gt; 0.05) in general data between groups A and B, but there were significant differences (P lt; 0.05) when compared with group C. Results In groups A and B, 2 cases (5.3%) and 1 case (2.9%) had poor heal ing of incision, respectively; in group C, all cases had good heal ing of incision. There were significant differences in heal ing rate of incision between groups A, B and group C (P lt; 0.05). All patients were followed up 7.6 years on average (range, 3.5-10.5 years). Deep infection occurred in 1 case respectively in 3 groups, showing no significant difference (P gt; 0.05). Posterior instabil ity occurred in 1 case (2.6%) 5 years after operation in group A and 2 cases (2.9%) 9 years after operation in group C, and no posterior instabil ity occurred in group B; showing significant differences between groups A, C and group B (P lt; 0.05). There were significant differences (P lt; 0.05) in knee score, Feller patellar score, and anterior knee pain score between pre- and postoperative values among groups A, B, and C. There were significant differences (P lt; 0.05) in the function scores between pre- and post-operative values in 3 groups, between groups A, B and group C pre- and post-operatively. Conclusion Posterior cruciate l igament-retained mobile-bearing TKA can yield satisfactory cl inical results in treatment of RA at intermediate-term followup. This mobile-bearing prosthesis has a low prevalence of posterior instabil ity and a good outcome for anterior knee function without patellar resurfacing.
OBJECTIVE To measure the isometric point of the attachment site in femur during the reconstruction of posterior cruciate ligament (PCL). METHODS Seven fresh knee specimens from cadavers were adopted in this experiment. The anterior, posterior, proximal, distal and central points of the PCL’s femoral attachment site were respectively anchored to the middle of the PCL’s tibial attachment site by the trial isometer wires. The length changes of the intra-articular part of the wires were recorded while the knee was flexed from 0 degree to 120 degrees by a continuous passive motion(CPM) machine. RESULTS The maximal length changes in every points were compared. It showed that the length change in anterior point was the biggest, the distal point was less than that of anterior point, and the proximal point was the least. There was significant difference between proximal and posterior points, but no significant difference between proximal and central points, neither between central and posterior points. All of the maximal length changes of proximal, central and posterior points were not greater than 2 mm. CONCLUSION The femoral tunnel for the PCL reconstruction should be located at the proximal point, which is the middle point of upper edge of femoral attachment site. The selected point for femoral tunnel also may be moved slightly in the direction to central or posterior points according to the needs of operation.
Objective To study the operative procedure and effect of arthroscopic reconstruction of both anterior cruciate l igament (ACL) and posterior cruciate l igament (PCL) with anterior tibial is tendon allograft. Methods From February 2005 to July 2006, 10 cases of both ACL and PCL rupture were reconstructed with anterior tibial is tendon allograft, including 7 men and 3 women, aging 18-45 years with an average of 30.2 years. The locations were left knee in 6 cases and right knee in 4 cases. All of them had identified trauma history. The disease course was about 1-3 weeks (mean 1.8 weeks). Both ACLand PCL were reconstructed under arthroscope with allograft anterior tibial is tendon of 26-28 cm in length and immobil ization with extention position brace was given for 4 weeks after operation. The active flex knee exercise was done from 0-90° at 4 weeks and more than 90° at 6 weeks. Results All operations were finished successfully, there were no blood vessel and nerve injury. The operative time was 90-110 minutes (mean 100 minutes). The wound healed by first intention and no early compl ication occurred. Ten cases were followed up for 12 months to 15 months with an average of 13.5 months. Thier gait was normal, knee activity degree was 0-135°. The anterior drawing tests and media and lateral stress tests were negative after operation in 10 cases; and the posterior drawing tests were negative in 8 cases and 2 cases was at grade I. Hydra arthrosis of knee occurred in 2 cases and was cured after remove of fluid and injection of sodium hyaluronate. The Lysholm knee function score was increases from 24.89 ± 5.39 before operation to 96.00 ± 4.59 at 12 months after operation, showing significant difference (P lt; 0.05). Conclusion Arthroscopic reconstruction of both ACL and PCL with anterior tibial is tendon allograft has the advantages of short operation time, less compl ications and good cl inical effects.
OBJECTIVE To probe the clinical results of a new designed operation-double semitendinous reconstruction of posterior cruciate ligament (PCL) with invasive mini-plate. METHODS The new surgical technique was performed on 28 patients with PCL deficient knee in our department from September 1994 to October 1997. Protection of popliteal nerves and blood vessels was emphasized in the operation, and the femoral and tibial tunnel placement was critical to the procedure’s success. RESULTS All patients were followed up 18 to 36 months, averaged 22 months, they gained stable knees. The knee function of 28 patients recovered to normal after the operation, 1 patients had a small range of limitation of the knee flexion, but no obvious dysfunction. CONCLUSION Double semitendinous reconstruction of PCL with invasive mini-plate has advantages in the operated field exposure, adequate tibial and femoral fixation and excellent results in motion, stability and function of the knee after the operation.
ObjectiveTo conclude the effectiveness of arthroscopy combined with Burks and SchaVer's approach in the treatment of posterior cruciate ligament (PCL) avulsion fractures in a floppy lateral position. MethodsBetween May 2010 and March 2014, 21 patients with PCL avulsion fractures were treated. There were 13 males and 8 females, aged 21 to 62 years (mean, 39.1 years). The causes included traffic accident injury in 10 cases, sports injury in 5 cases, and falling injury from height in 6 cases. The time from injury to hospital was 1-6 days (mean, 2.5 days). The results of posterior drawer test were all positive, and the results of anterior drawer test and lateral stress test were all negative. The Lysholm score was 28.0±5.5 before operation. And the American Orthopaedic Foot and Ankle Society (IKDC) score was 46.2±7.6 before operation. According to Meyer standards for fractures classification, 11 cases were rated as type II and 10 cases as type III. Arthroscopy was used to inspect and treat the intra-articular lesions, then avulsion fracture was fixed by Burks and SchaVer's approach in lateral position. Postoperative functional exercises were performed. ResultsPrimary healing of incision was obtained, without nerve and vascular injury or joint infection. All patients were followed up 18-36 months (mean, 27.2 months). The X-ray films of the knee joint showed good fractures reduction and healing at 3 months after operation. The results of posterior drawer test and reverse Lachman test were negative. The knee range of motion was recovered to normal level. At last follow-up, the Lysholm score of the knee joint was significantly improved to 90.9±1.4 from preoperative one (t=54.584, P=0.000), and the IKDC score was significantly increased to 90.5±5.3 from preoperative one (t=15.638, P=0.000), including 19 cases of grade A and 2 cases of grade B. ConclusionA combination of arthroscopy and Burks and SchaVer's approach for the treatment of PCL avulsion fractures in a floppy lateral position has the advantages of minimal invasion and safe approach, short operative time, and early postoperative rehabilitation exercises, so it can provide satisfactory function recovery of the knee joint.
Objective To compare the single femoral tunnel split-double-bundle posterior cruciate ligament (PCL) reconstruction with the singlebundle PCL reconstruction and to discuss the advantages of the modified reconstruction method. Methods Fourteen donated fresh-frozen human knee specimens were biomechanically tested, which included knee specimens from 12 males and 2 females, and their ages ranged from 20 to 31 years. The specimen length of the femur and the tibia was 20 cm. The tibial posterior translation and the PCL strains were first measured when PCL was in an intact state (the intact group, n=14). Then, PCL was cut (the cut group, n=14). The posterior translation was measured when a posterior load was applied. After that, the specimens were randomly divided into twogroups: the single-bundle group (n=7) and the double-bundle group (n=7). When the posterior load was applied to the tibia, the bundle strain and the tibial posterior translation were measured with the knees flexed at 0, 30, 60, 90 and 120°, respectively. Results While a 100 N posterior force was applied, the posterior tibial displacement of the intact PCL knee ranged from 1.97±0.29 mm to 2.60±0.23 mm at the different knee flexion angles. In the PCL-cutstate, the tibial displacement increased significantly from 11.27±1.06 mm to14.94±0.67 mm (P<0.05). After the singlebundle reconstruction, the posterior tibial translation ranged from 1.99±0.19 mm to 2.72±0.38 mm at the different knee flexion angles. In the split-double-bundle reconstruction, the posterior tibial translations ranged from 2.27±0.32 mm to 3.05±0.44 mm. The graft of the single-bundle reconstruction was tensioned from 0° to 120°, and the tibial displacement increased significantly at 90° compared with that at theother angles(P<0.05). In the doublebundle reconstruction, the anterolateral bundle and the posteromedial bundle were tensioned in a reciprocal fashion, and the tibial displacement had no significant difference at the five kinds of the flexion angles. ConclusionThe single femoral tunnel split-double-bundle PCL reconstruction canrestore the posterior tibial displacement at different flexion angles, and the tibial displacement in the single-bundle PCL reconstruction knee can be increased when the knee flexion is at 90°. In the double-bundle reconstruction, the graftcan be tensioned in a reciprocal fashion and the biomechanical features can be nearer to those of the normal PCL bundles.
Objective To investigate whether the outlet of the femoral tunnel will cause iatrogenic injury to the medial collateral ligament (MCL) during posterior cruciate ligament reconstruction (PCLR) and estimate the safe angle of femoral tunnel placement. MethodsThirteen formaldehyde-soaked human knee joint specimens were used, 8 from men and 5 from women; the donors’ age ranged from 49 to 71 years, with an average of 61 years. First, the medial part of the femur was carefully dissected to clearly expose the region of the MCL course and attachment on the femoral medial aspect and to outline the anterior margin of the region with a marked line. The marked line divided the medial femoral condyle into an area with an MCL course and a bare bone area which is regarded relatively safe for no MCL course. Then, the posterior cruciate ligament (PCL) was cut to identify the femoral attachment of the PCL. After the knee joint was fixed at a 120° flexion angle, the process of femoral tunnel preparation for the PCL single-bundle reconstruction was simulated. The inside-out technique was used to drill the femoral tunnel from the PCL femoral footprint inside the knee joint with an orientation to exit the medial condyle of the femur, and the combination angle of the two planes, the axial plane and the coronal plane, was adapted to the process of drilling femoral tunnels at different orientations. The following 15 angle combinations were used in the study: 0°/30°, 0°/45°, 0°/60°, 15°/30°, 15°/45°, 15°/60°, 30°/30°, 30°/45°, 30°/60°, 45°/30°, 45°/45°, 45°/60°, 60°/30°, 60°/45°, 60°/60° (axial/coronal). The positional relationship between the femoral tunnel outlet on the femoral medial condyle and the marked line was used to verify whether the tunnel drilling angle was a risk factor for MCL injury or not, and whether the shortest distance between the femoral exit center and the marked line was affected by the various angle combinations. Furthermore, the safe orientation of the femoral tunnel placement would estimated. ResultsWhen creating the femoral tunnel for PCLR, there was a risk of damage to the MCL caused by the tunnel outlet, and the incidence was from 0 to 100%; when the drilling angle of the axial plane was 0° and 15°, the incidence of MCL damage was from 69.23% to 100%. There was a significant difference in the incidence of MCL damage among femoral tunnels of 15 angle combinations (χ2=148.195, P<0.001). By comparison between groups, it was found that when drilling femoral tunnels at 5 combinations of 45°/45°, 45°/60°, 60°/30°, 60°/45°, and 60°/60° (axial/coronal), the shortest distances between the tunnel exit and the marked line were significantly different than 0°/45°, 0°/60°, 15°/45°, 15°/60°, and 30°/30° (axial/coronal) (P<0.05). Additionally, after comparing the median of the shortest distance with other groups, the outlets generated by these 5 angles were farther from the marked line and the posterior MCL. ConclusionThe creation of the femoral tunnel in PCLR can cause iatrogenic MCL injury, and the risk is affected by the tunnel angle. To reduce the risk of iatrogenic injury, angle combinations of 45°/45°, 45°/60°, 60°/30°, 60°/45°, and 60°/60° (axial/coronal) are recommended for preparing the femoral tunnel in PCLR.
Objective To compare the intraoperative effects of computer navigation-assisted versus simple arthroscopic reconstruction of posterior cruciate ligament (PCL) tibial tunnel. Methods The clinical data of 73 patients with PCL tears who were admitted between June 2021 and June 2022 and met the selection criteria were retrospectively analysed, of whom 34 cases underwent PCL tibial tunnel reconstruction with navigation-assisted arthroscopy (navigation group) and 39 cases underwent PCL tibial tunnel reconstruction with arthroscopy alone (control group). There was no significant difference in baseline data between the two groups, including gender, age, body mass index, side of injury, time from injury to surgery, preoperative posterior drawer test, knee range of motion (ROM), Tegner score, Lysholm score, and International Knee Documentation Committee (IKDC) score between the two groups (P>0.05). The perioperative indicators (operation time and number of guide wire drillings) were recorded and compared between the two groups. The angle between the graft and the tibial tunnel and the exit positions of the tibial tunnel in the coronal, sagittal, and transverse planes respectively were measured on MRI at 1 day after operation. The knee ROM, Tegner score, Lysholm score, and IKDC score were evaluated before operation and at last follow-up. Results The operation time in the navigation group was shorter than that in the control group, and the number of intraoperative guide wire drillings was less than that in the control group, the differences were significant (P<0.05). Patients in both groups were followed up 12-17 months, with an average of 12.8 months. There was no perioperative complications such as vascular and nerve damage, deep venous thrombosis and infection of lower extremity. During the follow-up, there was no re-injuries in either group and no revision was required. The results showed that there was no significant difference in the exit positions of the tibial tunnel in the coronal, sagittal, and transverse planes between the two groups (P>0.05), but the angle between the graft and the tibial tunnel was significantly greater in the navigation group than in the control group (P<0.05). At last follow-up, 30, 3, 1 and 0 cases were rated as negative, 1+, 2+, and 3+ of posterior drawer test in the navigation group and 33, 5, 1, and 0 cases in the control group, respectively, which significantly improved when compared with the preoperative values (P<0.05), but there was no significant difference between the two groups (P>0.05). At last follow-up, ROM, Tegner score, Lysholm score, and IKDC score of the knee joint significantly improved in both groups when compared with preoperative values (P<0.05), but there was no significant difference in the difference in preoperative and postoperative indicators between the two groups (P>0.05). ConclusionComputer-navigated arthroscopic PCL tibial tunnel reconstruction can quickly and accurately prepare tunnels with good location and orientation, with postoperative functional scores comparable to arthroscopic PCL tibial tunnel reconstruction alone.
Objective To explore the best flexion angle of the transplantation tendon for fixing joint in simultaneously reconstructing of the anterior cruciate l igament (ACL) and posterior cruciate l igament (PCL) using semitendinosus tendon as autologous graft. Methods Twenty-four clean level New Zealand White rabbits [(aged 6-8 months, male or female, and weighing (2.5 ± 0.2) kg] were selected and divided randomly into 3 groups (n=8) according to fixation angle of the reconstructed l igaments. The bilateral semitendinosus tendons of hind legs were used to reconstruct the PCL and ACL of right hind leg, and the reconstructed l igaments were fixed at knee flexion angles of 90° (group A), 60° (group B), and 30° (group A). The rabbit general situation was observed after operation, and the specimens of the knee joints (including 10 cmdistal end and 10 cm proximal end) were harvested for testing extension and flexion, displacement, and internal and external rotation at 3 months after operation. Results All the rabbits survived to the end of experiment. There was no significant difference in maximal displacements of ACL and PCL among 3 groups (P gt; 0.05). The anterior and posterior displacements of shift in 3 groups were less than 1 mm, suggesting good stabil ity. The anterior displacement and the posterior displacement at 30° flexion and 90° flexion in group A were significantly larger than those in group C (P lt; 0.05). There were significant differences in internal rotation angle and external rotation angle between group A and group C (P lt; 0.05), and there was no significant difference among other groups (P gt; 0.05). Conclusion When simultaneously reconstructing ACL and PCL, the knee flexion angle of 60° for fixing the reconstructed l igaments can achieve the best effect.
Objective To assess the feasibility, safety, and validity of the TC-Dynamic posterior stabilized prosthesis implanted in the total knee arthroplasty (TKA). Methods Twelve knees of 10 patients (the TC-Dynamic group) were followed up, who had been implanted with the TC-Dynamic posterior stabilized prosthesis from September 2003 to March 2004. Preoperative KSS knee scores were 16.08±11.58, function scores 13.75±19.79, and the range of motion (ROM) of the knee 75.00±26.46°. Meanwhile, 50 knees of 30 patients (the Scorpio group) werefollowed up, who had undergone TKA with the Scorpio posterior stabilized prosthesis.Preoperative KSS knee scores were 19.48±967, function scores 3.16±19.82,andthe ROM of the knee 80.80±22.82°. The anteroposterior and lateral X-ray filmsof each knee were examined before and after operation. The statistical Z-test was used to analyze the differences between the 2 groups in the improvement of the KSS knee scores, function scores, and ROM after operation. Results The average of the 130 days’ follow-up revealed that the patients implanted with the TC-Dynamic prosthesis had an excellent result. In the TC-Dynamic group, the KSS knee scores were 88.83±4.04 with improved scores of 72.75±14.47 compared with those before operation; function scores were 79.17±5.15 with improved scores of 65.42±19.47; the ROM of the knee was 107.92±11.57° with increased degrees of 32.92±32.22°.Meanwhile, in the Scorpio group, the KSS knee scores were 85.68±7.36 with improved scores of 66.20±10.44 compared with those before operation; function scores were 71.40±12.70 with improved scores of 68.24±25.35; the ROM of the knee was 109.20±11.13° withincreaseddegrees of 28.40±26.41°.There was no significant difference in the improvement of the KSS knee scores, function scores, and ROM after operation between the 2 groups (Pgt;0.01). All the X-ray films of the knees implanted with both the Scorpio prosthesis and the TC-Dynamic prosthesis were analyzed.No malalignment or lucent line with the prosthesis was seen in all these X-ray films. Conclusion The short-term follow-up indicates that the patients implanted with the TC-Dynamic prosthesis have an excellent result. The TC-Dynamic prosthesis with a scientific and proper design is more suitable for the Chinese. However, the long-term outcome of the patients implanted with the TC-Dynamic prosthesis should be observed in a larger number of TKA operations. The basic surgical principles, including excision of both the cruciate ligaments and correction of thebone deformity with the proper balancing of the soft tissues in flexion and extension, are still crucial to successful TKA and to the longterm high survivalrate of the knee prosthesis.