The Cross-sectional Area of the Long Head of the Biceps Tendon and the Rotator Cuff Tear Position
- Conditions
- Rotator Cuff Tears
- Interventions
- Procedure: Arthroscopic rotator cuff repair
- Registration Number
- NCT05477771
- Lead Sponsor
- RenJi Hospital
- Brief Summary
The main aim and scope of this study is making measurement and comparison of the cross-sectional area of the long head of the biceps tendon(LHBT) in the patients suffered form rotator cuff tear with different tear positions, and making observation and comparison of the impairment type of the LHBT in the patients suffered from rotator cuff tear with different tear positions. The results may identify the influence of the tear position on the LHBT.
- Detailed Description
Not available
Recruitment & Eligibility
- Status
- UNKNOWN
- Sex
- All
- Target Recruitment
- 38
- partial or full-thickness but reparable rotator cuff tear;
- small- to large-sized rotator cuff tears being defined by DeOrio and Cofied4;
- no improvements after at least 1 month of conservative treatment such as NSAIDs or corticosteroid injection.
- massive rotator cuff tears being defined by DeOrio and Cofied;
- patients with osteoarthritis of the glenohumeral joint;
- trauma or a history of surgery at the shoulder.
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- PARALLEL
- Arm && Interventions
Group Intervention Description Anterior tear group Arthroscopic rotator cuff repair The rotator cuff was divided into three parts according to the arthroscopic discovery: (1) the anterior part which contained the subsacpularis and one third of the suprascapularis forward; (2) the middle part which contained the two thirds of the suprascapularis backward and one third of the subscapularis forward; (3) the posterior part which contained two thirds of subscapularis backward and teres minor. The patients with rotator cuff tear at the anterior part were categorized in the anterior tear group. Middle tear group Arthroscopic rotator cuff repair The rotator cuff was divided into three parts according to the arthroscopic discovery: (1) the anterior part which contained the subsacpularis and one third of the suprascapularis forward; (2) the middle part which contained the two thirds of the suprascapularis backward and one third of the subscapularis forward; (3) the posterior part which contained two thirds of subscapularis backward and teres minor. The patients with rotator cuff tear at the middle part were categorized in the middle tear group. Posterior tear group Arthroscopic rotator cuff repair The rotator cuff was divided into three parts according to the arthroscopic discovery: (1) the anterior part which contained the subsacpularis and one third of the suprascapularis forward; (2) the middle part which contained the two thirds of the suprascapularis backward and one third of the subscapularis forward; (3) the posterior part which contained two thirds of subscapularis backward and teres minor. The patients with rotator cuff tear at the posterior part were categorized in the posterior tear group.
- Primary Outcome Measures
Name Time Method Pre-operative measurement of the cross-sectional area of the long head of bicep tendon Pre-operative According to the pre-operative MRI scan, two sites of the long head of biceps tendon were measured by the Image-Pro Plus 6.0 software. One was the plane that passed the center of the glenoid cavity, the other one was the plane that passed the distal border of the glenoid cavity. The contour of the long head of biceps tendon was traced and the area was calculated by the software according to the MRI's scale.
- Secondary Outcome Measures
Name Time Method Post-operative measurement of the cross-sectional area of the long head of bicep 2 months after the surgery According to the MRI scan 2 months after the surgery, two sites of the long head of biceps tendon were measured by the Image-Pro Plus 6.0 software. One was the plane that passed the center of the glenoid cavity, the other one was the plane that passed the distal border of the glenoid cavity. The contour of the long head of biceps tendon was traced and the area was calculated by the software according to the MRI's scale.