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Noncontrast MRI of Shoulder Instability ISMRM 2008
Hollis G. Potter, MD
Chief, Magnetic Resonance Imaging Director of Research, Dept. of Radiology & Imaging
Hospital for Special Surgery Professor of Radiology
Weill Medical College of Cornell University
High Resolution Noncontrast MRI of Shoulder Instability • High spatial resolution 273µ x 390µ (1.5T) x 360µ (3T) x 3mm/0 gap • Moderate TE FSE (28-34) accentuates inherent magnetization transfer contrast • Strict attention to imaging technique imperative • Consider optimized noncontrast imaging as an alternative to intra-articular
contrast: – Visualize “native” capsule – Preserves MRI as noninvasive – Reduced cost – Increased patient throughput; increased unit productivity – Same images sensitive for cartilage, ligament and labral pathology
14 year-old girl with mild cuff tendinosis
45 year-old with a Buford complex and a superior labral tear above
17 year-old with meniscoid variant
Anteroinferior labral tear (Bankart) with articular cartilage disruption
Normal SGHL
16 year old with previous anterior dislocation
70 year old with painful shoulder and limited ROM after a fall
Cuff contusion and Bankart lesion
27 year-old with subacute injury and subtle bone involvement
Bankart with ganglion dissecting into rotator cuff
24 year-old S/P old anterior dislocation
29 year-old 4 days post diving accident Anterior labral periosteal sleeve avulsion (ALPSA) and posterior capsule tear
Posterior instability
Posterior instability
30 year-old fell one month prior with pain and inability to lift arm Posterior Bankart, posterior capsule injury and humeral chondral shearing injury
Lateral avulsion of posterior capsule in a 16 year-old
17 year-old with subacute trauma
Cuff contusion. Contusion greater tuberosity. Anterior capsular stripping at humerus off pouch.
16Y M with HAGL, debris in axillary pouch, SLAP
tear and bare area of glenoid Humeral Avulsion of Glenohumeral Ligaments (HAGL)
Wolf et al (Arthroscopy 1995; 11:600-607) 64 shoulders with a diagnosis of anterior instability 6/64 (9.3%) with HAGL lesions more commonly repaired with open techniques than with arthroscopic ones,
although both have been described
25 year-old man with anterior dislocation 6 weeks prior with new injury
13 year old hurt shoulder while wrestling.
Sensitivity Specificity Anterior 37/37 63/63 100% 95% Superior 31/36 67/67 86% 100% Posterior 14/19 80/84 74% 95%
All 89% 97%
ACCURACY OF NONCONTRAST MR IN LABRAL INJURY
Prospective data collection in 103 Patients; surgical Confirmation 2 independent observers
Radiology 1996; 200:519-524 Kappa statistic (interobserver) for all labral tears was 0.86 (p=0.0001)
3T imaging of shoulder instability • Correction for signal inhomogeneity necessary (coil sensitivity
profile or postprocessing algorithm) • Sample at wider RBW • Increased SNR permits higher in/through plane resolution • Accuracy: Magee and Williams AJR 2006;187: 1448-1452.
– 67 pts with arthroscopic correlation – Sens/spec for SLAP 90/100% – Sens/spec for ALT 89/100% – Sens/spec for PLT 86/100%
Classification of SLAP lesions (Snyder et al 1990)
• Type I : fraying without detachment • Type II : type I plus stripping of superior labrum and biceps off
glenoid • Type III : bucket handle tear of superior labrum with central
displacement and intact biceps • Type IV: type III plus extension into biceps anchor
MGHL tear. Anterior labral tear and anterior capsular tear.
SLAP
SLAP
22 year-old professional athlete with a superior labral tear
17 year old with Type IV SLAP
Superior Labral Lesions: Noncontrast MRI AJSM 1999; 27:208-213
• 100/102 superior labral tears were prospectively identified by MRI
• 2 false negatives (SLAP I, SLAP II lesions) • 4 false positives (1 normal, 2 meniscoid, 1 sublabral
foramen) • MRI:
– sensitivity 98% (100/102) – specificity 89% (34/38) – accuracy 96% (134/140)
41 year old man
Dysplastic glenoid with posterior labral tear & ganglion
Imaging the Throwing Athlete
• Chronic repetitive microtrauma and excessive load leads to plastic deformation of collagen in tendons, capsule and ligaments
• Increased mobility of water • Utility of fast spin echo techniques: assess gray scale of collagen • Tendinosis vs. partial tear vs. cuff delamination • Importance in assessing the degree of scar remodeling of ligaments • Acute on chronic injury
Internal Impingement
• Impingement between the articular side of the rotator cuff and the posterosuperior edge of the glenoid cavity with abduction and external rotation (Walch et al, JSES 1992)
• Injury occurs during early acceleration phases of throwing: rapid internal rotation
• Partial thickness tear RTC articular side • MRI: Periosteal new bone formation/ossification of the posterior
capsule/triceps attachment to scapula (Bennett) • Posterior capsule contracture (GIRD)
16 year-old pitcher with internal impingement
RTC delamination in a 37 year-old athlete
9 year-old pitcher with pain and weakness
Partial cuff tear with glenohumeral cartilage loss
44 year-old with 4 part humeral fracture
Absence of anterior humeral cx artery; thrombosis axillary vein; stretched but intact
posterior humeral cx artery
Imaging of the postoperative shoulder: Noncontrast strategies • Minimize susceptibility artifact caused by metallic fixation • Utility of fast spin echo techniques: limit signal loss due to diffusion • Avoid frequency selective fat suppression techniques: create more field
disturbance and poor image quality (use fast STIR) • Avoid gradient echo techniques: no correction for field inhomogeneity • Assess native synovium
– Infection – Inflammatory response to bioabsorbable fixation
Bankart repair and capsular shift 10/97: now with new instability
19 year-old man with new injury; 6 months following Bankart repair
Cuff contusion with new tear 2-5 o’clock
17 year-old S/P recent open anterior stabilization with new trauma
8 months post bioabsorbable tack fixation
25 year-old 6 months S/P superior labral repair with
bioabsorbable tacks
45 year old man. Prior tack stabilization with displaced tack in rotator interval
19 year-old woman 2 years S/P bioabsorbable tack labral repair with pain and stiffness
Previous labral repair. Bioabsorbable tack protruding into supra/spino glenoid notch
adjacent to suprascapular nerve
12/7/01 3/9/04
19 year-old man S/P stabilization
32 year-old man with tack eroding cartilage and secondary synovitis
33 year-old S/P open stabilization x 2 with thermal capsular shrinkage
Previous thermoplication High Resolution Noncontrast MR Imaging
• Strict attention to imaging technique imperative • Inflammatory synovitis may reflect mode of fixation in
postoperative setting and does not necessarily reflect infection
• Consider optimized noncontrast imaging as an alternative to intra-articular contrast:
– Visualize “native” capsule – Preserves MRI as noninvasive – Reduced cost – Increased patient throughput; increased unit productivity – Same images sensitive for cartilage, ligament and labral pathology
References 1. Connell DA, Potter HG, Wickiewicz TL, Altchek DA, Warren RF. High resolution
magnetic resonance imaging of superior labral pathology: 102 surgically-confirmed cases. Am J Sports Med 1999; 27(2):208-213.
2. D’Alessandro DF, Bradley JP, Fleischli JE, Connor PM. Prospective evaluation of
thermal capsulorrhaphy for shoulder instability. Am J Sports Med 2004; 32:21-33. 2. Deutsch A, Altchek DW, Veltri DM, Potter HG, et al. Traumatic tears of the
subscapularis tendon: clinical diagnosis, magnetic resonance imaging findings, and operative treatment. Am J Sports Med 1997; 25(1):13-25.
3. Gusmer PB, Potter HG, Schatz J, Wickiewicz TL, Altchek DW, O’Brien SDJ,
Warren RF. Labral injuries: accuracy of detection with unenhanced MR imaging of the shoulder. Radiology 1996; 200:519-524.
4. Iannotti JP, Zlatkin MB, Esterhai JL, et al. Magnetic resonance imaging of the
shoulder: sensitivity, specificity and predictive value. J Bone Joint Surg 1991; 73:17-29.
5. Kjellin I, Ho CP, Cervilla VC, et al. Alterations in the supraspinatus tendon at MR
imaging: correlation with histopathologic findings in cadavers. Radiology 1991; 181:837-841.
6. Magee TH, Williams D. Sensitivity and specificity in detection of labral tears with
3.0T MRI of the shoulder. AJR 2006; 187:1448-1452. 7. Nevaiser TJ. The GLAD lesion: another cause of anterior shoulder pain.
Arthroscopy 1993; 9:22-23. 8. O’Brien SJ, Neves MC, Arnoczky SP, et al. The anatomy and histology of the
inferior glenohumeral ligament complex of the shoulder. Am J Sports Med 1990; 18(5): 449-456.
9. Palmer We, Brown JH, Rosenthal DI. Labral-ligamentous complex of the shoulder:
evaluation with MR arthrography. Radiology 1994; 190:645-651. 10. Potter HG. Magnetic resonance imaging of the unstable shoulder. Techniques in
Shoulder and Elbow Surgery 2000; 1(1):25-38. 11. Potter HG. Radiographic Assessment of Shoulder Instability: MRI. In: Warren RF,
Craig EV, and Altchek DW, Eds. The Unstable Shoulder. Philadelphia: Lippincott Raven, 1999; 121-131.
12. Snyder SJ, Karzel RP, Del Pizzo W, et al. SLAP lesions of the shoulder. Arthroscopy 1990; 6(4):274-279.
13. Walch G, Boileau P, Noel E, Donell ST. Impingement of the deep surface of the
supraspinatus tendon on the posterosuperior glenoid rim: an arthroscopic study. JSES 1992; 1:238-245.
14. Williams NM, Snyder SJ, Buford D. The Buford complex--the cordlike middle
glenohumeral ligament and absent anterosuperior labrum complex: A normal anatomic capsulolabral variant. Arthroscopy 1994; 10:241-247.
15. Wright RW, Paletta GA. Prevalence of the Bennett lesion of the shoulder in major
league pitchers. Am J Sports Med 2004; 32:121-124.
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