Purpose: The aim of this project is to develop an understanding of the pathophysiology of shoulder OA. This project will recruit two groups of 30 participants, (60 participants in total) and follow them over a period of 5-years.
Group 1- Participants with posterior subluxation of the humeral head and show early signs of degeneration in their shoulder 'disease group' Group 2- Participants with posterior subluxation of the humeral head and show no signs of degeneration 'control/healthy' group
Hypotheses: The investigators hypothesize that there are several factors that contribute to the development of shoulder OA. Uncovering those pathways will lead to more targeted therapy. (1) The posterior rotator cuff muscles (infraspinatus/teres minor) apply relatively greater force than the anterior (subscapularis) cuff; an imbalance in the force couple occurs and the humeral head translates posteriorly on the glenoid; progressive posterior subluxation of the humeral head occurs and degeneration of the glenoid and humeral head cartilage follow. (2) Posterior subluxation of the humeral head is associated with progressive cartilage proteoglycan loss. (3) Pre-morbid glenoid morphology including increased retroversion is associated with the development of shoulder OA.
Participant Involvement: The following will be completed with participants: T1Rho Magnetic Resonance Imaging (MRI), quantitative Computed Tomography (qCT), functional and motion analysis at baseline, year 2 and year 4 in the 'affected' shoulder in both groups 1 and 2. These tests will also be conducted on the asymptomatic, contralateral shoulder in Group 1 participants at baseline and year 4. The finite element model validation will be performed in years 2 and 3, and participant-specific finite element analysis (which has no active participant involvement) will occur in years 3 to 5. Overall study analysis will occur in year 5. This project will be done in two-parts. The first part will consist of six participants; assuming further funding is obtained, part two of the study will proceed. The second part of the project will be based on successfully obtaining funds to continue the remainder of the study recruitment (54 participants) and testing. As pilot data is urgently needed to secure granting funds to support this overall project, the investigators will commence with recruiting the first 6 participants. Once further funds are secured, the remaining portion (recruitment of 54 participants) of the project will continue.
Objectives: (1) Determine whether patients with posterior humeral head subluxation have an imbalance between the posterior and anterior rotator cuff muscles. Objective 1 will be assessed through T1Rho MRI, and functional testing/motion analysis.
(2) Determine whether patients with static posterior subluxation of the humeral head are at risk of degenerative changes (i.e. proteoglycan loss). Objective 2 will be assessed through T1Rho MRI and qCT scans.
(3) Determine which joint factors are associated with progression of OA. This will be assessed using qCT scans and finite element model analysis.
Clinical Relevance: The cause is shoulder OA is unknown, and the burden and costs associated with this degenerative disease are increasing with our aging population. Research in this area is urgently needed to generate knowledge which will inform future treatments which may modify and slow the progression of shoulder OA, and to reduce the need for shoulder replacement therapy.
