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Abstract

Background

The clinical importance of the biceps reflection pulley (BRP), which stabilizes the long head of the biceps tendon (LHB) as it exits the joint, has been shown. However, there is controversy on the pathomechanism of injury to the BRP. The angular orientation of the LHB relative to its origin and distal course changes with joint positions and may place the BRP at risk for injury.

Purpose

To measure the course of the LHB in common arm positions and to determine the shear and normal (stabilizing) force vectors as well as the excursion of the LHB.

Study Design

Descriptive laboratory study.

Methods

The LHBs of 8 fresh-frozen cadaveric shoulders were marked with arthroscopically injected microbeads and mounted in a custom-built shoulder rig. Data for neutral arm position, forward flexion, and abduction were collected in internal, neutral, and external rotation using biplane fluoroscopy. Bone and LHB position were reconstructed in 3 dimensions.

Results

The shear component of the resulting vector was significantly higher during internal (28.4% ± 18.1%) compared with external rotation (18.9% ± 9.7%; P = .0157) and was highest in neutral arm position with internal rotation (39.2% ± 12.7%) and forward flexion with neutral rotation (36.2% ± 10.7%). The normal force vector, stabilizing the LHB, was significantly higher in abduction (55.2% ± 9.6%) compared with forward flexion (39.1% ± 12.4%; P < .0001) and neutral positions (39.1% ± 11.4%; P < .0001). The LHB excursion was significantly lower for neutral arm positions (0.7 ± 6.0 mm) compared with forward flexion (12.6 ± 8.3 mm; P < .0001) and abduction (12.0 ± 6.5 mm; P < .0001).

Conclusion

Increased shear load at forward flexion with internal or neutral arm rotation and internal rotation at neutral arm position may cause injury to the BRP. Additionally, a sawing mechanism caused by the 12-mm linear excursion combined with a load of the LHB through the BRP during elevation may also lead to lesions.

Clinical Relevance

Knowledge of the pathomechanisms of BRP injury may help in developing specific treatment and rehabilitation strategies as well as tests for physical examination.

Keywords

long head of the biceps tendon biceps reflection pulley biceps instability pathomechanism of pulley lesion

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References

, Berglund

, Uchiyama

, Coert

JH.

Measurement of friction between pulley and flexor tendon. Biomed Sci Instru. 1993;29:1–7.

Barber

, Field

, Ryu

RK.

Biceps tendon and superior labrum injuries: decision making. Instr Course Lec. 2008;57:527–538.

Baumann

, Genning

, Bohm

, Rolf

, Gohlke

Arthroscopic prevalence of pulley lesions in 1007 consecutive patients. J Shoulder Elbow Sur. 2008;17(1):14–20.

Bennett

. Arthroscopic bicipital sheath repair: two-year follow-up with pulley lesions. Arthroscop. 2004;20(9):964–973.

Bennett

. Arthroscopic repair of anterosuperior (supraspinatus/subscapularis) rotator cuff tears: a prospective cohort with 2- to 4-year follow-up. Classification of biceps subluxation/instability. Arthroscop. 2003;19(1):21–33.

Bennett

. Arthroscopic repair of isolated subscapularis tears: a prospective cohort with 2- to 4-year follow-up. Arthroscop. 2003;19(2):131–143.

Bennett

. Subscapularis, medial, and lateral head coracohumeral ligament insertion anatomy: arthroscopic appearance and incidence of “hidden” rotator interval lesions. Arthroscop. 2001;17(2):173–180.

Bennett

. Visualization of the anatomy of the rotator interval and bicipital sheath. Arthroscop. 2001;17(1):107–111.

Castagna

, Mouhsine

, Conti

, et al. Chondral print on humeral head: an indirect sign of long head biceps tendon instability. Knee Surg Sports Traumatol Arthros. 2007;15(5):645–648.

10.

Curtis

, Snyder

SJ.

Evaluation and treatment of biceps tendon pathology. Orthop Clin North A. 1993;24(1):33–43.

11.

Gerber

, Hersche

, Farron

Isolated rupture of the subscapularis tendon. J Bone Joint Surg A. 1996;78(7):1015–1023.

12.

Gerber

, Krushell

RJ.

Isolated rupture of the tendon of the subscapularis muscle: clinical features in 16 cases. J Bone Joint Surg B. 1991;73(3):389–394.

13.

Gerber

, Sebesta

Impingement of the deep surface of the subscapularis tendon and the reflection pulley on the anterosuperior glenoid rim: a preliminary report. J Shoulder Elbow Sur. 2000;9(6):483–490.

14.

Gerber

, Terrier

, Ganz

The role of the coracoid process in the chronic impingement syndrome. J Bone Joint Surg B. 1985; 67(5):703–708.

15.

Gerber

, Terrier

, Zehnder

, Ganz

The subcoracoid space: an anatomic study. Clin Orthop Relat Re. 1987;215:132–138.

16.

Giphart

, Horn

, Shelburne

, et al. Comparison of glenohumeral rotations between scaption and forward flexion in healthy subjects using biplane fluoroscopy. Trans Orthop Res So. 2009;34:1915.

17.

Gleason

, Beall

, Sanders

, et al. The transverse humeral ligament: a separate anatomical structure or a continuation of the osseous attachment of the rotator cuff? Am J Sports Med. 2006;34(1):72–77.

18.

Gohlke

, Essigkrug

, Schmitz

The pattern of the collagen fiber bundles of the capsule of the glenohumeral joint. J Shoulder Elbow Sur. 1994;3:111–128.

19.

Habermeyer

, Magosch

, Pritsch

, Scheibel

, Lichtenberg

Anterosuperior impingement of the shoulder as a result of pulley lesions: a prospective arthroscopic study. J Shoulder Elbow Sur. 2004;13(1):5–12.

20.

Itoi

, Kuechle

, Newman

, Morrey

, An

KN.

Stabilising function of the biceps in stable and unstable shoulders. J Bone Joint Surg B. 1993;75(4):546–550.

21.

Kummer

, Perkins

, Zuckerman

JD.

The use of the bicipital groove for alignment of the humeral stem in shoulder arthroplasty. J Shoulder Elbow Sur. 1998;7(2):144–146.

22.

Lafosse

, Reiland

, Baier

, Toussaint

, Jost

Anterior and posterior instability of the long head of the biceps tendon in rotator cuff tears: a new classification based on arthroscopic observations. Arthroscop. 2007;23(1):73–80.

23.

Le Huec

, Schaeverbeke

, Moinard

, et al. Traumatic tear of the rotator interval. J Shoulder Elbow Sur. 1996;5(1):41–46.

24.

MacDonald

The transverse humeral ligament: a separate anatomical structure or a continuation of the osseous attachment of the rotator cuff? Am J Sports Med. 2006;34(10):1700–1701, author reply 1701.

25.

MacDonald

, Bridger

, Cash

, Parkin

Transverse humeral ligament: does it exist? Clin Anat. 2007;20(6):663–667.

26.

Maier

, Jaeger

, Suedkamp

, Koestler

Stabilization of the long head of the biceps tendon in the context of early repair of traumatic subscapularis tendon tears. J Bone Joint Surg A. 2007;89(8):1763–1769.

27.

McGough

, Debski

, Taskiran

, Fu

, Woo

SL.

Mechanical properties of the long head of the biceps tendon. Knee Surg Sports Traumatol Arthros. 1996;3(4):226–229.

28.

Mihata

, McGarry

, Tibone

, Fitzpatrick

, Kinoshita

, Lee

TQ.

Biomechanical assessment of type II superior labral anterior-posterior (SLAP) lesions associated with anterior shoulder capsular laxity as seen in throwers: a cadaveric study. Am J Sports Me. 2008;36(8):1604–1610.

29.

Millett

, Sanders

, Gobezie

, Braun

, Warner

JJ.

Interference screw vs. suture anchor fixation for open subpectoral biceps tenodesis: does it matter? BMC Musculoskelet Disord. 2008;9:121.

30.

O'Donoghue

DH.

Subluxing biceps tendon in the athlete. Clin Orthop Relat Re. 1982;164:26–29.

31.

Pagnani

, Deng

, Warren

, Torzilli

, O'Brien SJ. Role of the long head of the biceps brachii in glenohumeral stability: a biomechanical study in cadavers. J Shoulder Elbow Sur. 1996;5(4): 255–262.

32.

Pfahler

, Branner

, Refior

HJ.

The role of the bicipital groove in tendopathy of the long biceps tendon. J Shoulder Elbow Sur. 1999; 8(5):419–424.

33.

Sabick

, Torry

, Kim

, Hawkins

RJ.

Humeral torque in professional baseball pitchers. Am J Sports Me. 2004;32(4):892–898.

34.

Slatis

, Aalto

Medial dislocation of the tendon of the long head of the biceps brachii. Acta Orthop Scan. 1979;50(1):73–77.

35.

Szabo

, Boileau

, Walch

The proximal biceps as a pain generator and results of tenotomy. Sports Med Arthros. 2008;16(3):180–186.

36.

Walch

, Nove-Josserand

, Boileau

, Levigne

Subluxations and dislocations of the tendon of the long head of the biceps. J Shoulder Elbow Sur. 1998;7(2):100–108.

37.

Walch

, Nove-Josserand

, Levigne

Tears of the supraspinatus tendon associated with “hidden“ lesions of the rotator interval. J Shoulder Elbow Sur. 1994;3:353–360.

38.

Ward

, Hamarneh

, Schweitzer

ME.

3D bicipital groove shape analysis and relationship to tendopathy. J Digit Imagin. 2008;21:219–234.

39.

Warner

, McMahon

PJ.

The role of the long head of the biceps brachil in superior stability of the glenohumeral joint. J Bone Joint Surg A. 1995;77(3):366–372.

40.

Werner

, Mueller

, Boehm

, Gohlke

The stabilizing sling for the long head of the biceps tendon in the rotator cuff interval: a histoana-tomic study. Am J Sports Me. 2000;28(1):28–31.

41.

, van der Helm

, Veeger

, et al. ISB recommendation on definitions of joint coordinate systems of various joints for the reporting of human joint motion. Part II: shoulder, elbow, wrist and hand. J Biomec. 2005;38(5):981–992.

42.

Yamaguchi

, Bindra

Disorders of the biceps tendon. In: Ianotti

, Williams

, eds. Disorders of the Shoulder: Diagnosis and Management. Philadelphia: Lippincott, Williams and Wilkins; 1999:159–190.

43.

Yamaguchi

, Riew

, Galatz

, Syme

, Neviaser

RJ.

Biceps activity during shoulder motion: an electromyographic analysis. Clin Orthop Relat Re. 1997;336:122–129.

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Biomechanical Evaluation of Shear Force Vectors Leading to Injury of the Biceps Reflection Pulley

Abstract

Background

Purpose

Study Design

Methods

Results

Conclusion

Clinical Relevance

Keywords

Get full access to this article

References

Supplementary Material