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Abstract

Background: The conventional coracoclavicular ligament augmentation with a single polydioxanone loop has been shown to have some pivotal disadvantages.

Hypothesis: A minimally invasive flip button/polydioxanone repair provides similar biomechanical properties to the conventional polydioxanone cerclage around the coracoid. However, the authors expected a difference in linear stiffness, ultimate load, and permanent elongation between suture anchor repairs and polydioxanone repairs.

Study Design: Controlled laboratory study.

Methods: The tensile fixation strength of 4 different minimally invasive repairs was tested in a porcine metatarsal model: (1) 1.3-mm single polydioxanone cerclage with a subcoracoidal flip button fixation, (2) 1.3-mm single polydioxanone cerclage, (3) Twinfix Ti 3.5-mm/Ultrabraid 2-suture anchor, and (4) Twinfix Ti 5.0-mm/Ultrabraid 2-suture anchor. The testing protocol included cyclic superoinferior loading and a subsequent load to failure trial.

Results: The flip button repair (646 N) and the conventional polydioxanone banding (663 N) revealed significant higher ultimate loads than did the suture anchor repairs (295 and 331 N, respectively; P < .001), whereas no significant differences were found for the elongation behavior under cyclic loading.

Conclusion: There was no significant difference between the 2 polydioxanone repairs. The ultimate load of the flip button procedure reaches the level of the native coracoclavicular ligament complex as it has been quantified in the literature.

Clinical Relevance: Although the biomechanical results comparing a minimally invasive flip button procedure versus a conventional polydioxanone cerclage are similar, the authors recommend the flip button procedure because of its minimally invasive approach and the secure subcoracoidal fixation technique with a minimized risk of anterior loop dislocation and neurovascular damage.

Keywords

acromioclavicular separation coracoclavicular ligament reconstruction suture anchor polydioxanone (PDS) augmentation flip button

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References

Baker JE

Nicandri GT

Young DC

Owen JR

Wayne JS

A cadaveric study examining acromioclavicular joint congruity after different methods of coracoclavicular loop repair. J Shoulder Elbow Surg.2003;12:595-598.

Bannister GC

Wallace WA

Stableforth PG

Hutson MA

The management of acute acromioclavicular dislocation: a randomised prospective controlled trial. J Bone Joint Surg Br. 1989;71:848-850.

Barber FA

Herbert MA

Richards DP

Sutures and suture anchors: update 2003. Arthroscopy. 2003;19:985-990.

Blatter G.

Meier G.

Augmentation of the coraco-clavicular ligament suture: comparison between wire cerclage, vicryl tape and PDS cord [in German]. Unfallchirurg.1990;93:578-583.

Breslow MJ

Jazrawi LM

Bernstein AD

Kummer FJ

Rokito AS

Treatment of acromioclavicular joint separation: suture or suture anchors ? J Shoulder Elbow Surg.2002;11:225-229.

Burkhart SS

The deadman theory of suture anchors: observations along a south Texas fence line. Arthroscopy. 1995;11:119-123.

Chernchujit B.

Tischer T.

Imhoff AB

Arthroscopic reconstruction of the acromioclavicular joint disruption: surgical technique and preliminary results. Arch Orthop Trauma Surg.2006;126:575-581.

Costic RS

Labriola JE

Rodosky MW

Debski RE

Biomechanical rationale for development of anatomical reconstructions of coracoclavicular ligaments after complete acromioclavicular joint dislocations. Am J Sports Med.2004;32:1929-1936.

Costic RS

Vangura A.

Jr,

Fenwick JA

Rodosky MW

Debski RE

Viscoelastic behavior and structural properties of the coracoclavicular ligaments . Scand J Med Sci Sports. 2003;13:305-310.

10.

Debski RE

Parsons IM III

Fenwick J.

Vangura A.

Ligament mechanics during three degree-of-freedom motion at the acromioclavicular joint. Ann Biomed Eng.2000;28:612-618.

11.

Debski RE

Parsons IM IV

Woo SL

Fu FH

Effect of capsular injury on acromioclavicular joint mechanics. J Bone Joint Surg Am.2001;83:1344-1351.

12.

Dust WN

Lenczner EM

Stress fracture of the clavicle leading to nonunion secondary to coracoclavicular reconstruction with Dacron. Am J Sports Med.1989;17:128-129.

13.

Ferris BD

Bhamra M.

Paton DF

Coracoid process transfer for acromioclavicular dislocations: a report of 20 cases. Clin Orthop Relat Res.1989;242:184-194.

14.

Fukuda K.

Craig EV

An KN

Cofield RH

Chao EY

Biomechanical study of the ligamentous system of the acromioclavicular joint . J Bone Joint Surg Am. 1986;68:434-440.

15.

Goldberg JA

Viglione W.

Cumming WJ

Waddell FS

Ruz PA

Review of coracoclavicular ligament reconstruction using Dacron graft material . Aust N Z J Surg.1987;57:441-445.

16.

Gollwitzer M.

Surgical management of complete acromioclavicular joint dislocation (Tossy III) with PDS cord cerclage [in German]. Aktuelle Traumatol. 1993;23:366-370.

17.

Grutter PW

Petersen SA

Anatomical acromioclavicular ligament reconstruction: a biomechanical comparison of reconstructive techniques of the acromioclavicular joint. Am J Sports Med.2005;33:1723-1728.

18.

Guttmann D.

Paksima NE

Zuckerman JD

Complications of treatment of complete acromioclavicular joint dislocations. Instr Course Lect. 2000 ;49:407-413.

19.

Guy DK

Wirth MA

Griffin JL

Rockwood CA

Jr.Reconstruction of chronic and complete dislocations of the acromioclavicular joint. Clin Orthop Relat Res.1998;347:138-149.

20.

Harris RI

Vu DH

Sonnabend DH

Goldberg JA

Walsh WR

Anatomic variance of the coracoclavicular ligaments. J Shoulder Elbow Surg.2001;10:585-588.

21.

Harris RI

Wallace AL

Harper GD

Goldberg JA

Sonnabend DH

Walsh WR

Structural properties of the intact and the reconstructed coracoclavicular ligament complex. Am J Sports Med.2000;28:103-108.

22.

Hubble MJ

Bannister GC

A new drill guide to simplify coracoclavicular screw fixation. Injury. 1995;26:572-573.

23.

Jari R.

Costic RS

Rodosky MW

Debski RE

Biomechanical function of surgical procedures for acromioclavicular joint dislocations. Arthroscopy. 2004;20:237-245.

24.

Jerosch J.

Filler T.

Peuker E.

Greig M.

Siewering U.

Which stabilization technique corrects anatomy best in patients with AC-separation? An experimental study. Knee Surg Sports Traumatol Arthrosc . 1999;7:365-372.

25.

Larsen E.

Bjerg-Nielsen A.

Christensen P.

Conservative or surgical treatment of acromioclavicular dislocation: a prospective, controlled, randomized study. J Bone Joint Surg Am.1986;68:552-555.

26.

Lee KW

Debski RE

Chen CH

Woo SL

Fu FH

Functional evaluation of the ligaments at the acromioclavicular joint during anteroposterior and superoinferior translation. Am J Sports Med.1997;25:858-862.

27.

Mazzocca AD

Santangelo SA

Johnson ST

Rios CG

Dumonski ML

Arciero RA

A biomechanical evaluation of an anatomical coracoclavicular ligament reconstruction. Am J Sports Med.2006;34:236-246.

28.

Morrison DS

Lemos MJ

Acromioclavicular separation: reconstruction using synthetic loop augmentation. Am J Sports Med.1995;23: 105-110.

29.

Motamedi AR

Blevins FT

Willis MC

McNally TP

Shahinpoor M.

Biomechanics of the coracoclavicular ligament complex and augmentations used in its repair and reconstruction. Am J Sports Med.2000;28:380-384.

30.

Rehm KE

Schultheis KH

Ligament replacement with polydioxanone (PDS) [in German]. Unfallchirurg.1985;11:264-273.

31.

Rockwood C.

Injuries in the acromioclavicular joint: subluxations and dislocations about the shoulder. In:

Rockwood CA Jr

Green D

, eds. Fracture in Adults. Philadelphia, Pa: JB Lippincott; 1984:860-910.

32.

Rupp S.

Georg T.

Gauss C.

Kohn D.

Seil R.

Fatigue testing of suture anchors. Am J Sports Med.2002;30:239-247.

33.

Ryhanen J.

Leminen A.

Jamsa T.

Tuukkanen J.

Pramila A.

Raatikainen T.

A novel treatment of grade III acromioclavicular joint dislocations with a C-hook implant. Arch Orthop Trauma Surg.2006 ;126:22-27.

34.

Seil R.

Rupp S.

Krauss PW

Benz A.

Kohn DM

Comparison of initial fixation strength between biodegradable and metallic interference screws and a press-fit fixation technique in a porcine model . Am J Sports Med.1998;26:815-819.

35.

Weaver JK

Dunn HK

Treatment of acromioclavicular injuries, especially complete acromioclavicular separation. J Bone Joint Surg Am.1972;54:1187-1194.

36.

Zaricznyj B.

Reconstruction for chronic scapuloclavicular instability. Am J Sports Med.1983;11:17-25.

Biomechanical Evaluation of Minimally Invasive Repairs for Complete Acromioclavicular Joint Dislocation

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