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Abstract

Background: Successful placement of a fixation device on the superior glenoid rim during superior labrum repairs requires accurate knowledge of the glenoid rim anatomy.

Purpose: To investigate the normal bony anatomy of the superior glenoid rim.

Study Design: Descriptive anatomic study.

Methods: Twenty cadaveric glenoid specimens were scanned to obtain cross-sectional images with peripheral quantitative computed tomography in three different positions, each perpendicular to the articular surface. Two straight lines were drawn along the interior bony margins of the articular surface and cortex, and image analysis software was used to calculate the angle between these lines. Three bony angles were measured.

Results: The bony angles from the 10:30-, 12-, and 1:30-o'clock cross-sections were 55° ± 5°, 64° ± 5°, and 62° ± 8°, respectively. The posterosuperior angle (at the 10:30-o'clock position) was statistically significantly lower than the superior and anterosuperior angles. Intraobserver variation was less than 3%.

Conclusions: The most superior point of the glenoid rim (12-o'clock position) seems to provide the most bone stock for anchor insertion. The available bone support was found to decrease posteriorly on the glenoid rim.

Clinical Relevance: During superior labral repairs, the anchor or fixation device should be inserted at approximately a 30° angle in relation to the articular surface for maximal bone support.

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References

Burkhart SS

Morgan CD

: The peel-back mechanism: Its role in producing and extending posterior type II SLAP lesions and its effect on SLAP repair rehabilitation. Arthroscopy14: 637-640, 1998

Burkhart SS

Morgan CD

Kibler WB

: Shoulder injuries in overhead athletes. The "dead arm" revisited. Clin Sports Med19: 125-158, 2000

Burkhead WZ

Arcand MA

Zeman C.

, et al: The biceps tendon, in

Rock-wood CA

Matsen FA III

(eds): The Shoulder. Second edition. Philadelphia , W. B. Saunders, 1998, pp 1009-1063

Ebraheim NA

Xu R.

Haman SP

, et al: Quantitative anatomy of the scapula. Am J Orthop29: 287-292, 2000

Handelberg F.

Willems S.

Shahabpour M.

, et al: SLAP lesions: A retrospective multicenter study. Arthroscopy14: 856-862, 1998

Healey JH

Barton S.

Noble P.

, et al: Biomechanical evaluation of the origin of the long head of the biceps tendon. Arthroscopy17: 378-382, 2001

Iannotti JP

Gabriel JP

Schneck SL

, et al: The normal glenohumeral relationships. An anatomical study of one hundred and forty shoulders. J Bone Joint Surg74A: 491-500, 1992

Mileski RA

Snyder SJ

: Superior labral lesions in the shoulder: Pathoanatomy and surgical management . J Am Acad Orthop Surg6: 121-131, 1998

Musgrave DS

Rodosky MW

: SLAP lesions: Current concepts. Am J Orthop30: 29-38, 2001

10.

Pinto MC

Snyder SJ

: Treatment of glenoid, labral, and superior labral tear anterior to posterior lesions. Sports Med Arthroscopy Rev9: 35-43, 2001

11.

Samani JE

Marston SB

Buss DD

: Arthroscopic stabilization of type II SLAP lesions using an absorbable tack . Arthroscopy17: 19-24, 2001

12.

Segmuller HE

Hayes MG

Saies AD

: Arthroscopic repair of glenolabral injuries with an absorbable fixation device. J Shoulder Elbow Surg6: 383-392, 1997

13.

von Schroeder HP

Kuiper SD

Botte MJ

: Osseous anatomy of the scapula. Clin Orthop383: 131-139, 2001

Anatomy of the Superior Glenoid Rim

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