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Archives of Orthopaedic and Trauma Surgery

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01.05.2005 | Original Article

A model of soft-tissue graft anterior cruciate ligament reconstruction in sheep

verfasst von: Patrick Hunt, Sven U. Scheffler, Frank N. Unterhauser, Andreas Weiler

Erschienen in: Archives of Orthopaedic and Trauma Surgery | Ausgabe 4/2005

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Abstract

Introduction

Since there is to our knowledge no clinically valid and reproducible animal model of soft-tissue anterior cruciate ligament (ACL) reconstruction currently available, we developed one in sheep, in terms of graft suitability, postsurgical recovery, and knee stability.

Materials and methods

To find a suitable graft, anatomical dissections of the hind limbs of 7 sheep were performed. After a pilot study in 3 sheep, we reconstructed the ACL with an ipsilateral, longitudinally split, superficial digital flexor tendon autograft and anatomic graft fixation in 42 sheep (study 1) and with a full, superficial digital flexor tendon autograft and extracortical graft fixation in 48 sheep (study 2). Follow-up examinations ranged from 6 to 104 weeks (study 1) and 3 to 24 weeks (study 2).

Results

All animals tolerated the graft harvest well and returned to physiological movement after about 4 weeks. Only 1 out of 93 ACL reconstructions failed. At final follow-up, the anteroposterior (AP) drawer displacement in both studies had almost regained the value of the intact contralateral knee. Maximum load-to-failure improved over time in both studies but was significantly lower at all time points compared with the intact ACL and the graft tissues. Tensile stress was significantly lower at final follow-up in both studies compared with the intact ACL and graft tissues. It attained 43.3% of the intact ACL and 58.3% of the graft tissue in study 1 and 28.9% and 22.8% in study 2, respectively.

Conclusion

The flexor tendon is suitable, and sheep appear to be an appropriate animal model for soft-tissue graft ACL reconstruction. They tolerate the graft harvest well and quickly return to full weight-bearing and physiological movement. Their knees become stable without showing signs of macroscopically evident osteoarthritis.

Aglietti P, Buzzi R, D’Andria S, Zaccherotti G (1993) Patellofemoral problems after intraarticular anterior cruciate ligament reconstruction. Clin Orthop:195–204

Allen MJ, Houlton JE, Adams SB, Rushton N (1998) The surgical anatomy of the stifle joint in sheep. Vet Surg 27:596–605

Amiel D, Kleiner JB, Roux RD, Harwood FL, Akeson WH (1986) The phenomenon of ‘ligamentization’: anterior cruciate ligament reconstruction with autogenous patellar tendon. J Orthop Res 4:162–172PubMed

Amis AA, Camburn M, Kempson SA, Radford WJ, Stead AC (1992) Anterior cruciate ligament replacement with polyester fibre. A long-term study of tissue reactions and joint stability in sheep. J Bone Joint Surg Br 74:605–613PubMed

Aune AK, Hukkanen M, Madsen JE, Polak JM, Nordsletten L (1996) Nerve regeneration during patellar tendon autograft remodelling after anterior cruciate ligament reconstruction: an experimental and clinical study. J Orthop Res 14:193–199PubMed

Blickenstaff KR, Grana WA, Egle D (1997) Analysis of a semitendinosus autograft in a rabbit model. Am J Sports Med 25:554–559PubMed

Bliss J, Svehla M, Yu Y, Bruce W, Waller C, Arm DM, Ball C, Gifford K, Walsh W (2002) Early effect of autologous platelets at the tendon-bone interface. In: Proceedings of the 48th Annual Meeting of the Orthopaedic Research Society, Dallas, TX, USA

Breitfuss H, Frohlich R, Povacz P, Resch H, Wicker A (1996) The tendon defect after anterior cruciate ligament reconstruction using the midthird patellar tendon—a problem for the patellofemoral joint? Knee Surg Sports Traumatol Arthrosc 3:194–198PubMed

Bush-Joseph CA, Cummings JF, Buseck M, Bylski-Austrow DI, Butler DL, Noyes FR, Grood ES (1996) Effect of tibial attachment location on the healing of the anterior cruciate ligament freeze model. J Orthop Res 14:534–541PubMed

10.

Clancy WG Jr, Narechania RG, Rosenberg TD, Gmeiner JG, Wisnefske DD, Lange TA (1981) Anterior and posterior cruciate ligament reconstruction in rhesus monkeys. J Bone Joint Surg Am 63:1270–1284PubMed

11.

Forward AD, Cowan RJ (1963) Tendon suture to bone. J Bone Joint Surg Am 45:807–823

12.

Goertzen M, Dellmann A, Gruber J, Clahsen H, Burrig KF (1993) Homologous cruciate ligament transplantation as intra-articular ligament replacement (in German). Z Orthop 131:179–186PubMed

13.

Good L, Odensten M, Gillquist J (1991) Intercondylar notch measurements with special reference to anterior cruciate ligament surgery. Clin Orthop:185–189

14.

Goradia VK, Rochat MC, Grana WA, Egle DM (1998) Strength of ACL reconstructions using semitendinosus tendon grafts. J Okla State Med Assoc 91:275–277PubMed

15.

Goradia VK, Rochat MC, Grana WA, Rohrer MD, Prasad HS (2000) Tendon-to-bone healing of a semitendinosus tendon autograft used for ACL reconstruction in a sheep model. Am J Knee Surg 13:143–151PubMed

16.

Goradia VK, Rochat MC, Kida M, Grana WA (2000) Natural history of a hamstring tendon autograft used for anterior cruciate ligament reconstruction in a sheep model. Am J Sports Med 28:40–46PubMed

17.

Grana WA, Egle DM, Mahnken R, Goodhart CW (1994) An analysis of autograft fixation after anterior cruciate ligament reconstruction in a rabbit model. Am J Sports Med 22:344–351PubMed

18.

Grassman SR, McDonald DB, Thornton GM, Shrive NG, Frank CB (2002) Early healing processes of free tendon grafts within bone tunnels is bone-specific: a morphological study in a rabbit model. Knee 9:21–26CrossRefPubMed

19.

Greis PE, Burks RT, Bachus K, Luker MG (2001) The influence of tendon length and fit on the strength of a tendon-bone tunnel complex. A biomechanical and histologic study in the dog. Am J Sports Med 29:493–497PubMed

20.

Hildebrand KA, Woo SL, Smith DW, Allen CR, Deie M, Taylor BJ, Schmidt CC (1998) The effects of platelet-derived growth factor-BB on healing of the rabbit medial collateral ligament. An in vivo study. Am J Sports Med 26:549–554PubMed

21.

Höher J, Moller HD, Fu FH (1998) Bone tunnel enlargement after anterior cruciate ligament reconstruction: fact or fiction? Knee Surg Sports Traumatol Arthrosc 6:231–240PubMed

22.

Höher J, Livesay GA, Ma CB, Withrow JD, Fu FH, Woo SL (1999) Hamstring graft motion in the femoral bone tunnel when using titanium button/polyester tape fixation. Knee Surg Sports Traumatol Arthrosc 7:215–219PubMed

23.

Holden JP, Grood ES, Butler DL, Noyes FR, Mendenhall HV, Van Kampen CL, Neidich RL (1988) Biomechanics of fascia lata ligament replacements: early postoperative changes in the goat. J Orthop Res 6:639–647PubMed

24.

Jackson DW, Grood ES, Arnoczky SP, Butler DL, Simon TM (1987) Cruciate reconstruction using freeze dried anterior cruciate ligament allograft and a ligament augmentation device (LAD). An experimental study in a goat model. Am J Sports Med 15:528–538PubMed

25.

Jackson DW, Grood ES, Cohn BT, Arnoczky SP, Simon TM, Cummings JF (1991) The effects of in situ freezing on the anterior cruciate ligament. An experimental study in goats. J Bone Joint Surg Am 73:201–213PubMed

26.

Jackson DW, Simon TM, Lowery W, Gendler E (1996) Biologic remodeling after anterior cruciate ligament reconstruction using a collagen matrix derived from demineralized bone. An experimental study in the goat model. Am J Sports Med 24:405–414PubMed

27.

Jansson KA, Harilainen A, Sandelin J, Karjalainen PT, Aronen HJ, Tallroth K (1999) Bone tunnel enlargement after anterior cruciate ligament reconstruction with the hamstring autograft and endobutton fixation technique. A clinical, radiographic and magnetic resonance imaging study with 2 years follow-up. Knee Surg Sports Traumatol Arthrosc 7:290–295PubMed

28.

Jarvela T, Paakkala T, Kannus P, Jarvinen M (2001) The incidence of patellofemoral osteoarthritis and associated findings 7 years after anterior cruciate ligament reconstruction with a bone-patellar tendon-bone autograft. Am J Sports Med 29:18–24PubMed

29.

Jones JR, Smibert JG, McCullough CJ, Price AB, Hutton WC (1986) Tendon implantation into bone: an experimental study. J Hand Surg Br 12:306–312

30.

Kartus J, Magnusson L, Stener S, Brandsson S, Eriksson BI, Karlsson J (1999) Complications following arthroscopic anterior cruciate ligament reconstruction. A 2–5-year follow-up of 604 patients with special emphasis on anterior knee pain. Knee Surg Sports Traumatol Arthrosc 7:2–8PubMed

31.

Kernwein GA (1942) A study of tendon implantations into bone. Surg Gynecol Obstet 75:794–796

32.

Kuroda R, Kurosaka M, Yoshiya S, Mizuno K (2000) Localization of growth factors in the reconstructed anterior cruciate ligament: immunohistological study in dogs. Knee Surg Sports Traumatol Arthrosc 8:120–126CrossRefPubMed

33.

Labs K, Perka C, Schneider F (2002) The biological and biomechanical effect of different graft tensioning in anterior cruciate ligament reconstruction: an experimental study. Arch Orthop Trauma Surg 122:193–199CrossRefPubMed

34.

Letson AK, Dahners LE (1994) The effect of combinations of growth factors on ligament healing. Clin Orthop 308:207–212PubMed

35.

Liu SH, Panossian V, al-Shaikh R, Tomin E, Shepherd E, Finerman GA, Lane JM (1997) Morphology and matrix composition during early tendon to bone healing. Clin Orthop 339:253–260PubMed

36.

Murray M, Weiler A, Spindler K (2002) Histologic comparisons of the ACL in humans, dogs, cows and sheep. In: Proceedings of the 48th Annual Meeting of the Orthopaedic Research Society, Dallas, TX, USA

37.

Ng GY, Oakes BW, Deacon OW, McLean ID, Lampard D (1995) Biomechanics of patellar tendon autograft for reconstruction of the anterior cruciate ligament in the goat: three-year study. J Orthop Res 13:602–608PubMed

38.

Ng GY, Oakes BW, Deacon OW, McLean ID, Eyre DR (1996) Long-term study of the biochemistry and biomechanics of anterior cruciate ligament-patellar tendon autografts in goats. J Orthop Res 14:851–856PubMed

39.

Park MJ, Lee MC, Seong SC (2001) A comparative study of the healing of tendon autograft and tendon-bone autograft using patellar tendon in rabbits. Int Orthop 25:35–39PubMed

40.

Radford WJP, Amis AA, Stead AC (1996) The ovine stifle as a model for human cruciate ligament surgery. Vet Comp Orthop Traumatol 9:134–139

41.

Rodeo SA, Arnoczky SP, Torzilli PA, Hidaka C, Warren RF (1993) Tendon-healing in a bone tunnel. A biomechanical and histological study in the dog. J Bone Joint Surg Am 75:1795–1803PubMed

42.

Rodeo SA, Suzuki K, Deng XH, Wozney J, Warren RF (1999) Use of recombinant human bone morphogenetic protein-2 to enhance tendon healing in a bone tunnel. Am J Sports Med 27:476–488PubMed

43.

Roth JH, Mendenhall HV, McPherson GK (1988) The effect of immobilization on goat knees following reconstruction of the anterior cruciate ligament. Clin Orthop 229:278–282PubMed

44.

Sachs RA, Daniel DM, Stone ML, Garfein RF (1989) Patellofemoral problems after anterior cruciate ligament reconstruction. Am J Sports Med 17:760–765PubMed

45.

Sakai H, Fukui N, Kawakami A, Kurosawa H (2000) Biological fixation of the graft within bone after anterior cruciate ligament reconstruction in rabbits: effects of the duration of postoperative immobilization. J Orthop Sci 5:43–51CrossRefPubMed

46.

Scheffler SU, Südkamp NP, Gockenjan A, Hoffmann RF, Weiler A (2002) Biomechanical comparison of hamstring and patellar tendon graft anterior cruciate ligament reconstruction techniques: the impact of fixation level and fixation method under cyclic loading. Arthroscopy 18:304–315CrossRefPubMed

47.

Schiavone Panni A, Denti M, Franzese S, Monteleone M (1993) The bone-ligament junction: a comparison between biological and artificial ACL reconstruction. Knee Surg Sports Traumatol Arthrosc 1:9–12PubMed

48.

Shelbourne KD, Davis TJ (1999) Evaluation of knee stability before and after participation in a functional sports agility program during rehabilitation after anterior cruciate ligament reconstruction. Am J Sports Med 27:156–161PubMed

49.

Shelbourne KD, Johnson G (1994) Evaluation of knee extension following anterior cruciate ligament reconstruction. Orthopedics 17:205–206PubMed

50.

Shelbourne KD, Patel DV (1999) Treatment of limited motion after anterior cruciate ligament reconstruction. Knee Surg Sports Traumatol Arthrosc 7:85–92PubMed

51.

Shino K, Horibe S (1991) Experimental ligament reconstruction by allogeneic tendon graft in a canine model. Acta Orthop Belg 57 [Suppl 2]:44–53

52.

Shino K, Kawasaki T, Hirose H, Gotoh I, Inoue M, Ono K (1984) Replacement of the anterior cruciate ligament by an allogeneic tendon graft. An experimental study in the dog. J Bone Joint Surg Br 66:672–681PubMed

53.

Shoemaker SC, Rechl H, Campbell P, Kram HB, Sanchez M (1989) Effects of fibrin sealant on incorporation of autograft and xenograft tendons within bone tunnels. A preliminary study. Am J Sports Med 17:318–324PubMed

54.

Tohyama H, Yasuda K (1998) Significance of graft tension in anterior cruciate ligament reconstruction. Basic background and clinical outcome. Knee Surg Sports Traumatol Arthrosc 6 [Suppl 1]:S30–S37

55.

Walsh WR, Huckle J, Bliss J, Evans R, Yu Y, Hughes P, Bruce W, Carter A (2003) Can low-intensity ultrasound be used to augment tendon-to-bone healing? In: Proceedings of the 49th Annual Meeting of the Orthopaedic Research Society, New Orleans, LA, USA

56.

Weiler A, Peters G, Mäurer J, Unterhauser FN, Südkamp NP (2001) Biomechanical properties and vascularity of an anterior cruciate ligament graft can be predicted by contrast-enhanced magnetic resonance imaging. A two-year study in sheep. Am J Sports Med 29:751–761PubMed

57.

Weiler A, Hoffmann RF, Bail HJ, Rehm O, Sudkamp NP (2002) Tendon healing in a bone tunnel. Part II. Histologic analysis after biodegradable interference fit fixation in a model of anterior cruciate ligament reconstruction in sheep. Arthroscopy 18:124–135PubMed

58.

Weiler A, Peine R, Pashmineh-Azar A, Abel C, Sudkamp NP, Hoffmann RF (2002) 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 18:113–123PubMed

59.

Weiler A, Unterhauser FN, Bail H-J, Hüning M, Haas NP (2002) alpha-Smooth muscle actin is expressed by fibroblastic cells of the ovine anterior cruciate ligament and its free tendon graft during remodeling. J Orthop Res 20:310–317CrossRefPubMed

60.

Weiler A, Unterhauser FN, Faensen B, Hunt P, Bail HJ, Haas NP (2002) Comparison of tendon-to-bone healing using extracortical and anatomic interference fit fixation of soft tissue grafts in a sheep model of acl reconstruction. In: Proceedings of the 48th Annual Meeting of the Orthopaedic Research Society, Dallas, TX, USA

61.

Weiler A, Förster C, Hunt P, Falk R, Jung T, Unterhauser FN, Bergmann V, Schmidmaier G, Haas NP (2003) The influence of locally applied platelet-derived growth factor-BB on free tendon graft remodeling after anterior cruciate ligament reconstruction—the use of a biodegradable drug delivery tool in a sheep model. Am J Sports Med (in press)

62.

Whiston TB, Walmsley R (1960) Some observations on the reaction of bone and tendon after tunneling of bone and insertion of tendon. J Bone Joint Surg Br 42:377–386

63.

Xerogeanes JW, Fox RJ, Takeda Y, Kim HS, Ishibashi Y, Carlin GJ, Woo SL (1998) A functional comparison of animal anterior cruciate ligament models to the human anterior cruciate ligament. Ann Biomed Eng 26:345–352CrossRefPubMed

64.

Yamakado K, Kitaoka K, Yamada H, Hashiba K, Nakamura R, Tomita K (2002) The influence of mechanical stress on graft healing in a bone tunnel. Arthroscopy 18:82–90CrossRefPubMed

65.

Yamazaki S, Yasuda K, Tomita F, Minami A, Tohyama H (2002) The effect of graft-tunnel diameter disparity on intraosseous healing of the flexor tendon graft in anterior cruciate ligament reconstruction. Am J Sports Med 30:498–505PubMed

66.

Yasuda K, Tsujino J, Ohkoshi Y, Tanabe Y, Kaneda K (1995) Graft site morbidity with autogenous semitendinosus and gracilis tendons. Am J Sports Med 23:706–714PubMed

67.

Yoshiya S, Nagano M, Kurosaka M, Muratsu H, Mizuno K (2000) Graft healing in the bone tunnel in anterior cruciate ligament reconstruction. Clin Orthop 376:278–286CrossRefPubMed

68.

Zimmerman MC, Contiliano JH, Parsons JR, Prewett A, Billotti J (1994) The biomechanics and histopathology of chemically processed patellar tendon allografts for anterior cruciate ligament replacement. Am J Sports Med 22:378–386PubMed

Titel: A model of soft-tissue graft anterior cruciate ligament reconstruction in sheep
verfasst von: Patrick Hunt
Sven U. Scheffler
Frank N. Unterhauser
Andreas Weiler
Publikationsdatum: 01.05.2005
Verlag: Springer-Verlag
Erschienen in: Archives of Orthopaedic and Trauma Surgery / Ausgabe 4/2005
Print ISSN: 0936-8051
Elektronische ISSN: 1434-3916
DOI: https://doi.org/10.1007/s00402-004-0643-z

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Introduction

Materials and methods

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