This randomized controlled trial will follow the Consolidated Standards of Reporting Trials (CONSORT) Statement [24]; it will be performed at Hospital Alvorada Moema (Shoulder and Elbow Surgery Center of Excellence), São Paulo, Brazil, the cost analysis will be performed by Hospital Israelita Albert Einstein team, São Paulo, Brazil. The study has been approved by the local Research Ethics Committee (CAAE 19182619.3.1001.0071). The project is registered in the ClinicalTrials.gov database (NCT04146987 https://clinicaltrials.gov/ct2/show/NCT04146987?term=NCT04146987&draw=2&rank=1).
6a. Sample size
The sample size estimate was obtained to detect differences between the open and arthroscopic repair groups in relation to the primary outcome of the study, Constant-Murley Score (CM) instrument after the intervention. Kukkone's et al. 2013 study [25] estimated the clinically important minimal difference in CM score in 10.4 points in patients with rotator cuff rupture after 3 months of surgical treatment by the arthroscopic method. The estimated sample size of 45 patients per group, total of 90 patients, would reach 90% power to detect a 10.4 difference between the groups in the CM instrument post-operative score with a standard deviation of up to 15 points with a significance level of 5% using a t-Student test. Predicting a loss of around 10% at 12 months of follow-up we aim to recruit 50 patients per group (PASS software [26]).
6b. Inclusion criteria
All patients eighteen years of age or older, presenting with complete rotator cuff injury or a high-grade partial rotator cuff injury, symptomatic, where conservative therapy failed (maintenance of pain and disability after conservative treatment), or the patient could not support the non-surgical treatment. All patients ought not to have any medical contraindications for surgery, have a good understanding of the Portuguese language, agree to participate in the study and sign the Informed Consent Form.
6c. Exclusion criteria
Patients with previous shoulder surgery, previous fractures in the affected shoulder, those with passive range of motion limitation (joint stiffness with an elevation of 90 degrees or less), radiographic signs of glenohumeral osteoarthritis or neurologic injury will be excluded. Patients will also be excluded if they do not wish to participate or are unable to understand or sign the informed consent form (due to conditions such as cognitive impairment, or mental illness) or if there are any conditions that contraindicate any of the surgical methods.
7c. Randomization and allocation
After eligibility assessment, all patients will be informed about the nature and purpose of the study and will only be included after signing the informed consent form, that will be obtained by the surgeon that evaluated the patient and indicated the surgery.. Patients will be consecutively allocated to one of two proposed treatment methods: open rotator cuff repair or arthroscopic rotator cuff repair (FIGURE 1). The software R was used to generate a randomization list, considering 100 patients to be included in the study and the same probability of allocation for both methods of surgery (open and arthroscopic repair). The variables will be: smoking (yes or no), the size of the lesion (≤ 3 cm or > 3 cm) and diabetes (present or absent). Randomization will be performed by the REDCap platform (Research Electronic Data Capture – Vanderbilt University)[27][28] after the patient is anesthetized and prepared for the surgery. A person not associated with the study will open the software and acquire one of the two techniques possible and tell the surgeon who will perform the surgery.
7d. Blinding
Due to the type of interventions, neither participants nor treatment providers can be blinded to treatment allocation. The outcome assessment of the primary and secondary outcomes (Constant-Murley; EuroQol; VAS and SST), patient-reported outcomes, will not be blind. One of the authors (RP) will assess all other clinical outcomes. All primary and secondary outcomes will be assessed at baseline, 6, 24 and 48 weeks, except for the VAS which will also be assessed at hospital discharge, 1, 2 and 4 weeks. The statisticians conducting the analyses will be blinded to the treatment status until the analyses are completed.
8. Intervention methods
Five surgeons with at least four years of surgical technique experience will participate in this study (EFC, MTCA, RP, BAM, VR). Also, the residents of shoulder and elbow surgery, as well as the residents of Orthopedics and Traumatology from Hospital Alvorada Moema and residents in shoulder and elbow surgery at Albert Einstein Hospital may participate in surgeries.
Open surgery: patients will be positioned in a beach chair position with the affected limb pending off the table, allowing manipulation and full range of motion range. After asepsis, antisepsis, and placement of sterile surgical fields, an anterolateral incision will be made in the shoulder in question; the deltoid muscle belly will be gently divided along its fibers until exposure of the subdeltoid / subacromial bursa, which will be partially excised for exposure of the subacromial space and rotator cuff tendons. After mobilization and release of the ruptured tendons and debridement of the rotator cuff footprint, the tendon repair to the bone will be performed using 5.5mm metal anchors, according to the preference and technique chosen by the surgeon. In all cases, the release of the coracoacromial ligament and acromioplasty will be performed.
Arthroscopic Technique: the patients will be positioned in lateral decubitus position, with the limb to be operated attached to a skin traction device, which through a traction post and 7 kilograms (kg), will maintain the shoulder in the following position: abduction of 30 to 60 degrees and flexion of 20 to 30 degrees. After asepsis, antisepsis, and placement of impermeable sterile surgical fields, a posterolateral incision will be made in the shoulder for optic introduction, with a 50mmHg pressure pump and a 0.90 flow, and inspection of the glenohumeral joint. If necessary, an anterior accessory portal will be performed for intra articular instrumentation. After joint inspection, the optic will be introduced into the subacromial space with detachment of the subacromial and subdeltoid bursa with the trocar. After visualizing the lesion, an accessory lateral portal will be performed. With the use of shaver blades, partial bursectomy will be performed and any adherence to the tendon stumps will be released, as well as debridement of the rotator cuff footprint. The tendon will then be reinserted to the bone using metallic 5.5mm anchors, according to the preference of each surgeon. The technique used, as well as the suture configuration and type of knot used, will be defined by the surgeon, according to his preference. After tendon repair, the coracoacromial ligament will be released, as well as acromioplasty.
9. Postoperative rehabilitation
All patients will undergo the same postoperative rehabilitation protocol: use of Velpeau sling for 6 weeks; pendulum exercises from the second week; active movement and recovery of the range of motion from the sixth week and strengthening from the twelfth week.
The patients will be oriented to perform home exercises and, as well, to be assisted by a physiotherapist twice a week from the sixth week of surgery and on. It is expected at the end of treatment the need of about thirty sessions of physical therapy.
10. Outcomes assessment
Study data will be collected and managed using REDCap (Research Electronic Data Capture) hosted at Hospital Israelita Albert Einstein [27][28]. REDCap is a secure, web-based software platform designed to support data capture for research studies, providing: 1) an intuitive interface for validated data capture; 2) audit trails for tracking data manipulation and export procedures; 3) automated export procedures for seamless data downloads to common statistical packages; and 4) procedures for data integration and interoperability with external sources.
All study participants will be evaluated preoperatively, at the hospital discharge and 1, 2, 6, 24 and 48 weeks after the intervention. The Constant-Murley score, Visual Analogue Scale, EuroQol-5D-3L and the Simple Shoulder Test validated to the Portuguese language questionnaires will be filled out by the patient and assessed by evaluators to the assigned intervention.
To prevent loss of follow-up all the patients will be monitored by REDCap software and alerts will be sent to each patient near time points defined by the investigators. One week before every medical consultation and at the twelfth week, regarding the rehabilitation process. If the patient fails to fill any questionnaire or does not attend the medical consultations, he will be contacted by phone and e-mail.
10a. Primary outcome
The Brazilian Portuguese Version of the Constant-Murley Score (CM) [29] will be measured preoperatively at 6, 24 and 48 weeks after the intervention. Research assistants (not blinded to the study aim) will ask the patients to fill in the validated CM form for the Portuguese language and measure the range of motion with a goniometer. The CM scale covers different domains of shoulder function (pain, activities of daily living, range of motion and power), punctuating each of them; it ranges from 0 to 100, with higher scores indicating better function.
10b. Secondary outcomes
EuroQol-5D-3L (European Quality of Life), a generic score developed to describe health-related quality of life [24] will also be assessed preoperatively, at 6, 24 and 48 weeks postoperatively. This score includes five health domains: mobility, self-care, usual activities, pain/discomfort, and anxiety/depression; each domain has 3 levels: no problem; some problems and extreme problems. In addition, the EuroQol-5D-3L has a visual analog scale where the participant assigns a value between zero and one hundred to his or her own health condition [30]. At the end of its application, EuroQol-5D-3L will provide a unique numerical value that can be used for longitudinal comparison between different time periods.
Clinical outcomes will also be assessed by the Simple Shoulder Test (SST), validated for Portuguese [31], preoperatively and at 6, 24 and 48 weeks after the procedure. SST is a simple, quick and widely used questionnaire for shoulder function measurement; it consists of 12 dichotomous questions answered by the patient himself. Each positive answer (yes) is given a score; at the end of the questionnaire the percentage of positive answers (score) is made, and the higher the percentage, the better the shoulder function. Other outcomes measured will be VAS (visual analogue pain scale) at hospital discharge, 1, 2, 6, 24 and 48 weeks after the intervention. This scale allows pain intensity to be measured with maximum interobserver reproducibility; it consists of a 10 cm straight line with the ends determining the limits of pain sensation (no pain; worst pain ever experienced); the distance between zero (no pain) and the patient's demarcation defines the intensity of pain. Complications and failures of the proposed methods will also be assessed.
Failures will be characterized as the need for additional surgical procedures and/or change of the initially proposed procedure. Patients who, for any reason, demonstrate treatment failure or require additional interventions will be followed up and their results included in the group in which they were initially randomized, according to the intention to treat principle.
After the 48th week, all patients will be submitted to Magnetic Resonance Imaging (MRI) of the operated shoulder to evaluate the integrity and healing of the repair performed.
10c. Cost-effectiveness
Cost-effectiveness and cost-utility analyses will be assessed by the estimate of direct and indirect costs to the private healthcare system at 48 weeks. The perspective adopted in the study will be the social costs, the direct and indirect medical costs. The set timeframe will be 48 weeks and a discount rate of 5% will be applied. The costs included in direct medical costs will be: hospitalization, medical fees, medication; the indirect costs: costs of absenteeism from work, which will be estimated by the patient-reported number of days away from work multiplied by the average wage rate of the current year. The costs will be converted from Brazilian Reais to US dollars and brought to the cost schedule of the current year, in order to avoid that the effect of inflation on the medical inputs influences the analysis. For the cost-effectiveness analyses, the VAS and the CM will be used as measures of effectiveness. For the cost-utility analyses, the EuroQOL-5D-3L will be used as a measure of utility. The timetable of outcomes assessment is described on Table 1.
11. Data analysis
The descriptive analyzes of variables will be based on the absolute frequencies and percentages for categorical variables and summary measures as means and standard deviations or medians and quartiles, as well as minimum and maximum values for numerical variables [32]. Clinical scores will be represented by individual profile graphs separately by the surgical technique group.
The groups will be compared according to the presence of categorical clinical outcomes (failures, complications and healing integrity) by Chi-square or Fisher's exact tests, depending on the distribution observed after data collection.
For inferential analysis of numerical clinical outcomes, mixed models will be used and, if the normal distribution is not adequate, generalized mixed models will be used [33]. The models will have time effects (preoperative, 6, 24 and 48 weeks after intervention), surgical technique group (open repair or arthroscopic repair) and the interaction effect between time and group. The size of the lesion (smaller than three cm or larger than three cm) will also be included in the models as a control variable, seeking to avoid possible biases.
The analyzes will be performed with the aid of the SPSS program [34], considering a significance level of 5%.
12. Safety
There will be no benefit to the participant, beyond what is expected for the correction of the rotator cuff injury, expecting an improvement of pain and function of the affected shoulder. The risks of the present study are those inherent in any surgical treatment and anesthetic procedure, such as surgical wound infection, scar formation, pain, shoulder range of motion, rotator cuff tear, neurovascular injury. If any complications occur, all patients will be treated by the same surgical team until the complication is healed.
Both surgical techniques have the same goal, that is, to repair the ruptured tendon to the bone. The open technique requires a larger incision, as well as greater surgical dissection and manipulation of the deltoid muscle, which may cause greater postoperative pain and weakness of this muscle, in addition to causing a slightly larger scar. However, it provides great visualization and manipulation and mobilization capability of the ruptured tendon, which provides a safer and tension-free repair.
The arthroscopic technique is performed with some point-shaped cuts in the shoulder, usually three or four; due to smaller incisions, it requires less muscle manipulation, which theoretically would cause less postoperative pain and less muscle weakness of the deltoid muscle, it also has minor scars. However, this technique requires more surgeon’s experience and the mobilization of the ruptured tendon(s) is limited. Using a large amount of saline may cause edema in the operated shoulder, which is usually reversed after the first 12 hours of surgery.
Finally, there is a minimal risk of loss of data confidentiality, but the responsible researcher undertakes to do everything possible to maintain data confidentiality. One of the researchers will have access to all data during the entire trial period. Any adverse event will be reported to the researchers involved and communicated to the main investigator according to the Institutional Review Boards description.