OBJECTIVE To investigate the clinical result and influence factors of prognosis after repair of ruptured Achilles tendon with operative treatment. METHODS From 1961 to 1994, 62 cases with ruptured Achilles tendon were treated operatively. Among them, "8"-shaped suture was used in 8 cases, aponeurosis flap repair in 30 cases, transfer repair of tendon of peroneus longus muscle in 2 cases, reverse "V-Y" shaped tendon plastic operation in 10 cases, and mattress suture of opposite ends in 12 cases. RESULTS Followed up 3 to 33 years, there was excellent in 40 cases, better in 13 cases, moderate in 6 cases, poor in 3 cases, 85.5% in excellent rate. Postoperative infection and re-rupture were occurred in 6 cases respectively. CONCLUSION Different operative procedures are adopted to achieve better long-term clinical result according to the injury types.
To review the progress in the treatment of chronic Achilles tendon rupture. Methods Recent l iterature on the treatment of chronic Achilles tendon rupture was reviewed. Results The choice of operative method for the repair of chronic Achilles tendon rupture depended primarily on the length of tendon defect, the atrophic condition of triceps surae muscle, and the age and the sportive level of patient. Conclusion Most chronic Achilles tendon ruptures should be treated operatively to reach good functional recovery, and tissue engineering provides a promising future for tendon defect repair.
Objective To probe into the surgical methods and therapeutic effect of repairing old calcaneal tendon rupture and defects with tissue engineered tendons. Methods The tissue engineered tendons were prefabricated by co-cultivatingallogeneic tendon cells with composite of carbon fiber and polyglycolic acid for 5 days. From August 1999 to June 2002, 7 patients with calcaneal tendon rupture and defects (5-7 cm in length) were treated with tissue engineered tendons. The defects were repaired by suturing repeatedly with tissue engineered tendons. Meanwhile, the defects were covered by gastrocnemius fascial flap for protection and strengthening. After surgery, the ankle joints were fixed with plaster 4to 6 weeks, and then the functional exercise was done. Results All the patients were followed up 22 to 56 months (46.9 months on average). Six patients achieved healing by the first intention, only one patient had delayed union. No local or systemic complication occurred in all the cases. No patients were given the second operation for adhesion. In accordance with YIN Qingshui’s criterion for therapeutic effect,the results were excellent in 5 cases, good in 1 case and moderate in 1 case. Conclusion Repairing old rupture and defects of calcaneal tendon withtissue engineered tendons can achieve good clinical outcome, it is an optional therapy.
Objective To investigate the management of the soft tissue defect after the Achilles tendon repair. Methods From April 1996 to April 2006, 24 patients(17 males, 7 females; aged 16-59 years), who suffered from postoperative Achilles tendon exposure caused by local soft-tissue necrosis after the Achilles tendon repair, were treated and evaluated. Of the 24patients, 8 had an original open injury (machinecrush injury in 2 patients, heavy-object press injury in 3, motorcycle wheel crush injury in 3) and 16 patients had a closed injury (sports injury). In their treatment, the transferof the sural neurovascular flap was performed on 8 patients and the transfer ofthe saphenous neurovascular flap was performed on 3 patients. The secondary Achilles tendon repair was performed on 13 patients before the neurovascular flap transfer was performed. The time between the injury and the operation was 9-76 days, and the time between the Achilles tendon expousure and the operation was 3-65 days. Results All the flaps survived and the Achilles tendon exposure was well covered by the flaps of good texture. Eighteen patients followed up for 6 months to 24 months had no flap complication, and the two point discrimination of the flaps was 12-20 mm. The AOFASAnkleHindfoot Scale assessment revealed that 8 patients had an excellent result, 6 had a good result, 3 had a fair result, and just 1 had a poor result, with theexcellent and good results accounting for 77.8%. Sixteen patients (89%) were able toperform a tip-toe stance on their operative sides, and only 3 of them complained a loss of plantarflexion strength. However, 2 patients still could not perform the tip-toe stance. Conclusion The Achilles tendon repair, ifnot well performed, can result in the local soft-tissue necrosis and the subsequent Achilles tendon exposure. If those complications occur, the neurovascular flap transfer should be performed as soon as possible; if necessary, the secondary Achilles tendon repair should be performed, too.
Objective To study the method and cl inical results of arthroscopic double-bundle posterior cruciate l igament (PCL) reconstruction using achilles tendon allograft. Methods From September 2005 to September 2006, 17 patients with PCL injuries of grade III received arthroscopic double-bundle PCL reconstruction using achilles tendon allograft. There were 12 males and 5 females with an average age of 31.7 years (range, 19-48 years), including 10 cases of left PCL injuries and 7 cases of right PCL injuries. Injury was caused by sports in 6 cases and traffic accident in 11 cases. The average time from injury to surgery was 16 days (range, 7-30 days). The preoperative knee flexion was (121.8 ± 4.1)°. The posterior drawer test was positive and the varus angulation test was negative in all 17 patients. Lysholm score was 50.8 ± 6.1 and Tegner score was 1.3 ± 0.7. The side-to-side difference was (10.5 ± 1.6) mm by KT-1000 arthrometer. Results The hospital ization were (13.6 ± 2.4) days. The operation time was (67.8 ± 9.4) minutes. The time was (5.4 ± 1.2) days when the body temperature was higher than 37.4 ℃ after operation. All incisions healed by first intention. No compl ication occurred. All 17 patients were followed up 25 months on average (range, 18-30 months). The knee flexion was (116.9 ± 3.1)° at the final follow-up, showing no significant difference when compared with that of preoperation (P gt; 0.05). The posterior drawer test and the varus angulation test were negative in all 17 patients. Lysholm score and Tegner score were 91.6 ± 3.2 and 6.0 ± 0.7, respectively, and the side-to-side difference was (2.7 ± 1.7) mm, showing significant differences when compared with those of preoperation (P lt; 0.05).Conclusion Achilles tendon allograft is fit for PCL reconstruction. Arthroscopic double-bundle posterior cruciate l igament reconstruction using achilles tendon allograft can reconstruct both anterolateral and posteromedial bundles of the PCL. The knee joint function can be restored effectively. The short-term outcome has been proved, but the long-term outcome needs more observations
OBJECTIVE: To explore the methods of treatment for old achilles tendon rupture merging with skin defect. METHODS: By following up retrospectively 10 patients from February 1995 to December 2001, we analyzed the operative methods, the points for attention and the results. Gastrocnemius musculocutaneous flaps were used in 3 cases, foot lateral skin flaps in 4 cases, superior medial malleolus skin flaps in 2 cases, and sural neural skin flap in 1 case. The Achilles tendon was sutured directly in 8 patients, with Lindholm’s technique in 2 patients. RESULTS: All flaps survived and the wound healed well in 8 cases and reruptured in 2 cases. According to Yin Qing-shui’s criteria to test the efficacy, the results were excellent in 5 patients, good in 4 and poor in 1. CONCLUSION: Repairing the old Achilles tendon rupture merging with skin defect by use of microsurgery has good results and plays an important role in reducing joint contracture and stiffness, and in saving the ability to push forward and flex.
Objective Platelet-rich plasma (PRP) can promote wound heal ing. To observe the effect of PRP injection on the early heal ing of rat’s Achilles tendon rupture so as to provide the experimental basis for cl inical practice. Methods Forty-six Sprague Dawley rats were included in this experiment, female or male and weighing 190-240 g. PRP and platelet-poor plasma (PPP) were prepared from the heart arterial blood of 10 rats; other 36 rats were made the models of Achilles tendon rupture, and were randomly divided into 3 groups (control group, PPP group, and PRP group), 12 rats for each group. In PPP and PRP groups, PPP and PRP of 100 μL were injected around the tendons once a week, respectively; in the control group, nothing was injected. The tendon tissue sample was harvested at 1, 2, 3, and 4 weeks after operation for morphology, histology, and immunohistochemistry observations. The content of collagen type I fibers also was measured. Specimens of each group were obtained for biomechanical test at 4 weeks. Results All the animals survived till the end of the experiment. Tendon edema gradually decreased and sliding improved with time. The tendon adhesion increased steadily from 1 week to 3 weeks postoperatively, and it was relieved at 4 weeks in 3 groups. There was no significant ifference in the grading of tendon adhesion among 3 groups at 1 week and at 4 weeks (P gt; 0.05), respectively. The inflammatory cell infiltration, angiogenesis, and collagen fibers were more in PRP group than in PPP group and control group at 1 week; with time, inflammatory cell infiltration and angiogenesis gradually decreased. Positive staining of collagen type I fibers was observed at 1-4 weeks postoperatively in 3 groups. The positive density of collagen type I fibers in group PRP was significantly higher than that in control group and PPP group at 1, 2, and 3 weeks (P lt; 0.05), but no significant difference was found among 3 groups at 4 weeks (P gt; 0.05). The biomechanical tests showed that there was no significant difference in the maximal gl iding excursion among 3 groups at 4 weeks postoperatively (P gt; 0.05); the elasticity modulus and the ultimate tensile strength of PRP group were significantly higher than those of control group and PPP group at 4 weeks (P lt; 0.05). Conclusion PRP injection can improve the healing of Achilles tendon in early repair of rat’s Achilles tendon rupture.
Objective
To evaluate the biomechanical property of tendons repaired with the modified Kessler suture combined with " 8” suture, and to provide evidence for the clinical application of this suture methods in repairing acute Achilles tendon rupture.
Methods
Forty frozen flexor digitorum longus tendons from fresh pork hind leg were randomly assigned into 4 groups, 10 specimens each group. In group A, the tendons were dissected transversely at the midpoint to forming the model of tendon with transversely cutting injury. The tendons in groups B, C, and D were dissected transversely at the midpoint, then a 2 cm segment of tendon from the incision in each side was dissected longitudinally with 1 mm internal to forming " frayed tendon” model. All the tendons were sutured with2-0 non-absorbable suture material with different suturing methods: in group A, the tendons with transversely cutting injury model with Krackow suture, and in the groups B, C, and D with Krackow suture, Kessler suture, and the modified Kessler suture combined with " 8” suture separately. All repaired tendons were fixed onto the biomechanical testing machine. The length, width, and thickness of each side and midpoint of the tendons were recorded, and the cross-sectional area was calculated. The tendons were stretched at a speed of 15 mm/minutes until failure (suture avulsion or rupture). The computer automatically recorded the maximum load, stress, strain, the failure displacement, and the stiffness. These biomechanical parameters of tendons in different groups were analyzed and compared.
Results
There was no significant difference in the length and cross-sectional area of each tendon among 4 groups (F=0.245, P=0.863; F=0.094, P=0.963). Two tendons in group B, 1 in group C, and 1 in group D were excluded because of tendon slipping; all tendons in group A and 8 tendons in group B failured due to suture rupture, 9 tendons in group C due to suture slipping, and 9 tendons in group D due to 3 sutures slipping from tendon tissue together. The maximum load, the maximum stress, the maximum strain, the failure displacement, and the stiffness of the tendons between groups A and B showed no significant difference (P>0.05). The maximum load, the maximum stress, and the stiffness of the tendons in group D were larger than those in both groups B and C (P<0.05), but no significant difference was found in the maximum strain and the failure displacement between groups B, C, and D (P>0.05). The maximum load, the maximum stress, the failure displacement, and the stiffness of the tendons in group B were larger than those in group C (P<0.05), but the difference of maximum strain between groups B and C was not significant (P>0.05).
Conclusion
The modified Kessler suture combined with " 8” suture can provide better biomechanical property of the repaired tendon compared with other suture approaches.
Objective To summarize the cl inical appl ication and experience of repairing acute avulsion-type achilles tendon rupture by locking-loop stereoscopic suture. Methods Between January 2006 and June 2010, 41 cases of acute avulsion-type achilles tendon rupture were treated by locking-loop stereoscopic suture. Among 41 patients, 33 were male and 8were female with an average age of 41 years (range, 18-56 years); the locations were left side in 27 cases and right side in 14 cases. There was palpable defect in 33 cases, 7 cases underwent B-ultrasound, and 1 case underwent MRI to confirm the diagnosis. The time from injury to operation was 36 hours to 7 days. All cases were restored by locking-loop stereoscopic suture. Results All incisions healed by first intention. Thirty-one cases were followed up 12 months to 3 years and 10 months with an average of 17 months. The muscle strength reached grade 5; the patients could walk normally, and the heel raising was powerful at 1 year after operation. The circumference difference between wrong leg and good leg was less than 3 cm, and the ankle dorsiflexion was 20-30°, plantar flexion was 40-50°. No re-rupture of achilles tendon or deep infection occurred during follow-up period. At last follow-up, according to evaluation of curative effects by Arner-Lindholm standard, the results were excellent in 21 cases and good in 10 cases with an excellent and good rate of 100%. Conclusion Locking-loop stereoscopic suturing is a safe and effective method with avulsion-type control abil ity, tensile strength, l ittle effect on the blood supply of the achilles tendon for repairing acute avulsion-type achilles tendon rupture.
