CLINICAL STUDY OF INTERNAL TENSION-RELIEVING TECHNIQUE IN ARTHROSCOPIC ASSISTED ANTERIOR CRUCIATE LIGAMENT RECONSTRUCTION_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

 QIYong ¹ , FANYueguang ² , SUNHongtao ³

1. Guangzhou University of Traditional Chinese Medicine, Guangzhou Guangdong, 510006, P. R. China;
2. Department of Orthopaedics, the First Affiliated Hospital of Guangzhou University of Chinese Medicine;
3. Department of Orthopaedics, the Second People's Hospital of Guangdong Province;

Corresponding author：

QIYong, Email: yongqi1979@163.com

Keywords：

Knee joint; Anterior cruciate ligament; Internal tension-reliving technique; Reconstruction; Arthroscopy

DOI：

10.7507/1002-1892.20160028

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Objective To study the effectiveness of internal tension-relieving technique for arthroscopic assisted anterior cruciate ligament (ACL) reconstruction. Methods Between March 2011 and September 2014, 51 cases of complete ACL rupture were randomly divided into 2 groups. Arthroscopic assisted single-bundle ACL reconstruction combined with internal tension-relieving technique was performed in 26 cases (group A), arthroscopic assisted single-bundle ACL reconstruction in 25 cases (group B). There was no significant difference in gender, age, cause of injury, injured side, body mass index, Outerbridge classification of articular cartilage injury, disease duration, and the preoperative International Knee Documentation Committee (IKDC) score, Lysholm score, and KT-1000 test value between 2 groups (P>0.05). At 3, 6, and 12 months after operation, the KT-1000 was used to measure the anterior stability, and IKDC and Lysholm scores to evaluate the function of knee joint. Results Healing of incision by first intention was obtained in all patients of 2 groups, without complications of infection, deep vein thrombosis of lower extremity, and blood vessels and nerves injury. The patients were followed up 12 months after operation. All patients received second microscopic examination. The reconstructed ACL had good continuity and good coverage of synovial tissue. There was no re-rupture in any cases. The range of motion of the knee joint was close to normal. The MRI showed good healing of the ligament and the bone tunnel at 12 months after operation. KT-1000 test value, IKDC score, and Lysholm score at 3, 6, and 12 months after operation were significantly improved when compared with preoperative ones (P<0.05), but no significant difference was found among different time points after operation (P>0.05). There was no significant difference in IKDC score and Lysholm score between 2 groups at 3 and 12 months (P>0.05); but IKDC score and Lysholm score of group A were significantly higher than those of group B (P<0.05) at 6 months. At diffenent time points after operation, the KT-1000 test values of group A were significantly lower than those of group B (P<0.05) except the value at 3 months (P>0.05). Conclusion For patients with ACL rupture, using internal tension-relieving technique can effectively alleviate tension force of reconstructed ligament, which is beneficial to the healing of reconstructed ligament and early rehabilitation of the knee joint.

Citation： QIYong, FANYueguang, SUNHongtao. CLINICAL STUDY OF INTERNAL TENSION-RELIEVING TECHNIQUE IN ARTHROSCOPIC ASSISTED ANTERIOR CRUCIATE LIGAMENT RECONSTRUCTION. Chinese Journal of Reparative and Reconstructive Surgery, 2016, 30(2): 138-142. doi: 10.7507/1002-1892.20160028 Copy

1.	Michalitsis S, Vlychou M, Malizos KN, et al. Meniscal and articular cartilage lesions in the anterior cruciate ligament-deficient knee:correlation between time from injury and knee scores. Knee Surg Sports Traumatol Arthrosc, 2015, 23(1):232-239.
2.	Dumont GD, Hogue GD, Padalecki JR, et al. Meniscal and chondral injuries associated with pediatric anterior cruciate ligament tears:relationship of treatment time and patient-specific factors. Am J Sports Med, 2012, 40(9):2128-2133.
3.	Jung HJ, Fisher MB, Woo SL. Role of biomechanics in the understanding of normal, injured, and healing ligaments and tendons. Sports Med Arthrosc Rehabil Ther Technol, 2009, 1(1):9.
4.	Mueller LM, Bloomer BA, Durall CJ. Which outcome measures should be utilized to determine readiness to play after ACL reconstruction? J Sport Rehabil, 2014, 23(2):158-164.
5.	肖东民, 陈素芳, 李雄, 等. 前交叉韧带重建方法的生物力学研究. 医学临床研究, 2005, 22(12):1667-1670.
6.	Ciccone WJ, Bratton DR, Weinstein DM, et al. Viscoelasticity and temperature variations decrease tension and stiffness of hamstring tendon grafts followinganterior cruciate ligament reconstruction. J Bone Joint Surg (Am), 2006, 88(5):1071-1078.
7.	Rodeo SA, Kawamura S, Ma CB, et al. The effect of osteoclastic activity on tendon-to-bone healing:an experimental study in rabbits. J Bone Joint Surg (Am), 2007, 89(10):2250-2259.
8.	Kondo E, Yasuda K, Katsura T, et al. Biomechanical and histological evaluations of the doubled semitendinosus tendon autograft after anterior cruciate ligament reconstruction in sheep. Am J Sports Med, 2012, 40(2):315-324.
9.	Goradia VK, Rochat MC, Grana WA, et al. Tendon-to-bone healing of a semitendinosus tendon autograft used for ACL reconstruction in a sheep model. Am J Knee Surg, 2000, 13(3):143-151.
10.	Scheffler SU, Unterhauser FN, Weiler A. Graft remodeling and ligamentization after cruciate ligament reconstruction. Knee Surg Sports Traumatol Arthrosc, 2008, 16(9):834-842.
11.	Weiler A, Peine R, Pashmineh-Azar A, et al. Tendon healing in a bone tunnel. Part I:Biomechanical results after biodegradable interference fit fixation in a model of anterior cruciate ligament reconstruction in sheep. Arthroscopy, 2002, 18(2):113-123.
12.	Muller B, Bowman KF Jr, Bedi A. ACL graft healing and biologics. Clin Sports Med, 2013, 32(1):93-109.
13.	Janssen RP, Scheffler SU. Intra-articular remodelling of hamstring tendon grafts after anterior cruciate ligament reconstruction. Knee Surg Sports Traumatol Arthrosc, 2014, 22(9):2102-2108.
14.	袁锋, 赵金忠. 胭绳肌肌腱重建前交叉韧带研究进展. 国际骨科学杂志, 2006, 27(3):176-178.
15.	Gulotta LV, Kovacevic D, Ying L, et al. Augmentation of tendon-to-bone healing with a magnesium-based bone adhesive. Am J Sports Med, 2008, 36(7):1290-1297.
16.	Dong Y, Zhang Q, Li Y, et al. Enhancement of tendon-bone healing for anterior cruciate ligament (ACL) reconstruction using bone marrow-derived mesenchymal stem cells infected with BMP-2. Int J Mol Sci, 2012, 13(10):13605-13620.
17.	Komzák M, Hart R, Šmíd P, et al. The effect of platelet-rich plasma on graft healing in reconstruction of the anterior cruciate ligament of the knee joint:prospective study. Acta Chir Orthop Traumatol Cech, 2015, 82(2):135-139.
18.	龚熹, 余家阔, 敖英芳. 最大化保留残端结合内减张技术单束重建后交叉韧带临床疗效观察. 中国运动医学杂志, 2013, 32(2):101-105.

1. Michalitsis S, Vlychou M, Malizos KN, et al. Meniscal and articular cartilage lesions in the anterior cruciate ligament-deficient knee:correlation between time from injury and knee scores. Knee Surg Sports Traumatol Arthrosc, 2015, 23(1):232-239.
2. Dumont GD, Hogue GD, Padalecki JR, et al. Meniscal and chondral injuries associated with pediatric anterior cruciate ligament tears:relationship of treatment time and patient-specific factors. Am J Sports Med, 2012, 40(9):2128-2133.
3. Jung HJ, Fisher MB, Woo SL. Role of biomechanics in the understanding of normal, injured, and healing ligaments and tendons. Sports Med Arthrosc Rehabil Ther Technol, 2009, 1(1):9.
4. Mueller LM, Bloomer BA, Durall CJ. Which outcome measures should be utilized to determine readiness to play after ACL reconstruction? J Sport Rehabil, 2014, 23(2):158-164.
5. 肖东民, 陈素芳, 李雄, 等. 前交叉韧带重建方法的生物力学研究. 医学临床研究, 2005, 22(12):1667-1670.
6. Ciccone WJ, Bratton DR, Weinstein DM, et al. Viscoelasticity and temperature variations decrease tension and stiffness of hamstring tendon grafts followinganterior cruciate ligament reconstruction. J Bone Joint Surg (Am), 2006, 88(5):1071-1078.
7. Rodeo SA, Kawamura S, Ma CB, et al. The effect of osteoclastic activity on tendon-to-bone healing:an experimental study in rabbits. J Bone Joint Surg (Am), 2007, 89(10):2250-2259.
8. Kondo E, Yasuda K, Katsura T, et al. Biomechanical and histological evaluations of the doubled semitendinosus tendon autograft after anterior cruciate ligament reconstruction in sheep. Am J Sports Med, 2012, 40(2):315-324.
9. Goradia VK, Rochat MC, Grana WA, et al. Tendon-to-bone healing of a semitendinosus tendon autograft used for ACL reconstruction in a sheep model. Am J Knee Surg, 2000, 13(3):143-151.
10. Scheffler SU, Unterhauser FN, Weiler A. Graft remodeling and ligamentization after cruciate ligament reconstruction. Knee Surg Sports Traumatol Arthrosc, 2008, 16(9):834-842.
11. Weiler A, Peine R, Pashmineh-Azar A, et al. Tendon healing in a bone tunnel. Part I:Biomechanical results after biodegradable interference fit fixation in a model of anterior cruciate ligament reconstruction in sheep. Arthroscopy, 2002, 18(2):113-123.
12. Muller B, Bowman KF Jr, Bedi A. ACL graft healing and biologics. Clin Sports Med, 2013, 32(1):93-109.
13. Janssen RP, Scheffler SU. Intra-articular remodelling of hamstring tendon grafts after anterior cruciate ligament reconstruction. Knee Surg Sports Traumatol Arthrosc, 2014, 22(9):2102-2108.
14. 袁锋, 赵金忠. 胭绳肌肌腱重建前交叉韧带研究进展. 国际骨科学杂志, 2006, 27(3):176-178.
15. Gulotta LV, Kovacevic D, Ying L, et al. Augmentation of tendon-to-bone healing with a magnesium-based bone adhesive. Am J Sports Med, 2008, 36(7):1290-1297.
16. Dong Y, Zhang Q, Li Y, et al. Enhancement of tendon-bone healing for anterior cruciate ligament (ACL) reconstruction using bone marrow-derived mesenchymal stem cells infected with BMP-2. Int J Mol Sci, 2012, 13(10):13605-13620.
17. Komzák M, Hart R, Šmíd P, et al. The effect of platelet-rich plasma on graft healing in reconstruction of the anterior cruciate ligament of the knee joint:prospective study. Acta Chir Orthop Traumatol Cech, 2015, 82(2):135-139.
18. 龚熹, 余家阔, 敖英芳. 最大化保留残端结合内减张技术单束重建后交叉韧带临床疗效观察. 中国运动医学杂志, 2013, 32(2):101-105.

Chinese Journal of Reparative and Reconstructive Surgery

CLINICAL STUDY OF INTERNAL TENSION-RELIEVING TECHNIQUE IN ARTHROSCOPIC ASSISTED ANTERIOR CRUCIATE LIGAMENT RECONSTRUCTION

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