OBJECTIVE: To identify shoulder magnetic resonance imaging (MRI) findings associated with surgically proven rotator interval abnormalities. MATERIALS AND METHODS: The preoperative MRI examinations of five patients with surgically proven rotator interval (RI) lesions requiring closure were retrospectively evaluated by three musculoskeletal-trained radiologists in consensus. We assessed the structures in the RI, including the coracohumeral ligament, superior glenohumeral ligament, fat tissue, biceps tendon, and capsule for variations in size and signal alteration. In addition, we noted associated findings of rotator cuff and labral pathology. RESULTS: Three of three of the MR arthrogram studies demonstrated extension of gadolinium to the cortex of the undersurface of the coracoid process compared with the control images, seen best on the sagittal oblique images. Four of five of the studies demonstrated subjective thickening of the coracohumeral ligament, and three of five of the studies demonstrated subjective thickening of the superior glenohumeral ligament. Five of five of the studies demonstrated a labral tear. CONCLUSIONS: The MRI arthrogram finding of gadolinium extending to the cortex of the undersurface of the coracoid process was noted on the studies of those patients with rotator interval lesions at surgery in this series. Noting this finding-especially in the presence of a labral tear and/or thickening of the coracohumeral ligament or superior glenohumeral ligament-may be helpful in the preoperative diagnosis of rotator interval lesions.
OBJECTIVE: To identify shoulder magnetic resonance imaging (MRI) findings associated with surgically proven rotator interval abnormalities. MATERIALS AND METHODS: The preoperative MRI examinations of five patients with surgically proven rotator interval (RI) lesions requiring closure were retrospectively evaluated by three musculoskeletal-trained radiologists in consensus. We assessed the structures in the RI, including the coracohumeral ligament, superior glenohumeral ligament, fat tissue, biceps tendon, and capsule for variations in size and signal alteration. In addition, we noted associated findings of rotator cuff and labral pathology. RESULTS: Three of three of the MR arthrogram studies demonstrated extension of gadolinium to the cortex of the undersurface of the coracoid process compared with the control images, seen best on the sagittal oblique images. Four of five of the studies demonstrated subjective thickening of the coracohumeral ligament, and three of five of the studies demonstrated subjective thickening of the superior glenohumeral ligament. Five of five of the studies demonstrated a labral tear. CONCLUSIONS: The MRI arthrogram finding of gadolinium extending to the cortex of the undersurface of the coracoid process was noted on the studies of those patients with rotator interval lesions at surgery in this series. Noting this finding-especially in the presence of a labral tear and/or thickening of the coracohumeral ligament or superior glenohumeral ligament-may be helpful in the preoperative diagnosis of rotator interval lesions.
Authors: Yoav Morag; Jon A Jacobson; Gregory Shields; Rajiv Rajani; David A Jamadar; Bruce Miller; Curtis W Hayes Journal: Radiology Date: 2005-02-16 Impact factor: 11.105
Authors: Giorgio Tamborrini; Ingrid Möller; David Bong; Maribel Miguel; Christian Marx; Andreas Marc Müller; Magdalena Müller-Gerbl Journal: Ultrasound Int Open Date: 2017-08-23
Authors: Rachel M Frank; Dean Taylor; Nikhil N Verma; Anthony A Romeo; Timothy S Mologne; Matthew T Provencher Journal: Orthop J Sports Med Date: 2015-12-29