This is a non-randomized clinical trial conducted in a single tertiary hospital which investigates the efficacy of allogeneic adipose-derived mesenchymal stem cells and human amniotic membrane (AAdMSC-HAM) composite for supraspinatus tendon repair augmentation
Supraspinatus tendon tear is the most common factor causing shoulder pain, mainly resulting in discomfort and functional deficit in individuals over the age of 35. Supraspinatus tendon repair surgery represents one of the most widely performed types of orthopedic operation. Nevertheless, concerns persist regarding tendon-to-bone healing during the postoperative period. Despite advancements in surgical technique, re-tear of a previously repaired supraspinatus tendon is a fairly common complication, especially in a larger size tear. Such repair technique employing suture anchor devices alone has not yet produced functional results demonstrating both anatomical and biomechanical properties. Therefore, tendon tissue engineering using a combination of scaffolds, cells, and growth factors stimulation offers a potential solution as a biological augmentation in tendon repair. Human amniotic membrane (HAM) has been widely used as a natural scaffold in tissue engineering due to many of its unique properties such as providing growth factors, cytokines and tissue inhibitors of metalloproteinases, adequate mechanical strength, and biocompatibility. Whereas, mesenchymal stem cells (MSCs) constitute one of the adult stem cells that promote replacement and repair of damaged tissue along with normal tissue turnover. These MSCs are seeded to the HAM scaffolds to biologically augment tendon repair, with MSCs acting as cytokines/growth factors to stimulate tissue repair. This approach serves as the foundation to conduct the present study. The investigators aim to investigate the efficacy of using allogeneic adipose-derived MSCs and human amniotic membrane (AAdMSC-HAM) composite for supraspinatus tendon repair augmentation.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
SUPPORTIVE_CARE
Masking
SINGLE
Enrollment
24
Tendon repair procedure: 1. Single senior surgeon (HS) will perform mini-open surgery to decompress the acromioplasty and repair the supraspinatus tendon. 2. Splicing is achieved by installing screw-type anchors on the insertional footprint of the humeral head greater tuberosity. 3. Then, double suturing of the supraspinatus tendon is performed.
After double suturing of the supraspinatus tendon, the composite comprising freeze-dried HAM (2 cm x 2 cm x 0.002 cm) and AAdMSC (20 million cells) is placed on the upper surface of the splice and fixed with stitches at all four corners.
Dr. Soetomo General Academic Hospital/ Department Orthopaedic & Traumatology Faculty of Medicine Universitas Airlangga
Surabaya, East Java, Indonesia
RECRUITINGActive range of motion (AROM) pre-surgery
Shoulder: flexion, extension, abduction, adduction, external rotation, internal rotation. The tests are performed by two blinded assessor, and expressed in degrees.
Time frame: Pre-surgery
Active range of motion (AROM) at 12 months follow-up
Shoulder: flexion, extension, abduction, adduction, external rotation, internal rotation. The tests are performed by two blinded assessor, and expressed in degrees.
Time frame: 12 months
Pain pre-surgery
Measured by visual analogue scales (VAS). Patients are asked to described their level of pain from the scale 0 to 10 (0 indicating no pain, 1-3 indicating mild pain, 4-6 indicating moderate pain, 7-9 indicating severe pain, and 10 indicating the worst, unbearable pain). The lower scores mean a better pain outcome
Time frame: Pre-surgery Outcome
Pain at follow-up 12 months
Measured by visual analogue scales (VAS). Patients are asked to described their level of pain from the scale 0 to 10 (0 indicating no pain, 1-3 indicating mild pain, 4-6 indicating moderate pain, 7-9 indicating severe pain, and 10 indicating the worst, unbearable pain). The lower scores mean a better pain outcome
Time frame: 12 months
Disabilities of the Arm, Shoulder, and Hand (DASH) score pre-surgery
DASH score is a self-assessment of symptoms and function of the entire upper extremity comprising 30 items. Each item consists of five levels of answers (1=no difficulty/symptoms, 2=mild difficulty/symptoms, 3=moderate difficulty/symptoms, 4=severe difficulty/symptoms, and 5=extreme difficulty (unable to do)/symptoms). The scores are then used to calculate a scale score ranging from 0 (no disability) to 100 (most severe disability). Greater DASH scores reflect greater disability (worse outcome).
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Time frame: Pre-surgery
Disabilities of the Arm, Shoulder, and Hand (DASH) score at follow-up 12 months
DASH score is a self-assessment of symptoms and function of the entire upper extremity comprising 30 items. Each item consists of five levels of answers (1=no difficulty/symptoms, 2=mild difficulty/symptoms, 3=moderate difficulty/symptoms, 4=severe difficulty/symptoms, and 5=extreme difficulty (unable to do)/symptoms). The scores are then used to calculate a scale score ranging from 0 (no disability) to 100 (most severe disability). Greater DASH scores reflect greater disability (worse outcome).
Time frame: 12 months
Constant-Murley Score (CS) pre-surgery
The scoring system records individual parameters and provides an overall clinical functional assessment. It consists of 4 domains: pain, activities of daily living (ADL), mobility, and power/strength. Pain and ADL are self-assessed, while all other items are assessed by the blinded examiner. A higher score shows a better function (100 as the best), while a lower score shows a worse function (0 as the worst).
Time frame: Pre-surgery
Constant-Murley Score (CS) at follow-up 12 months
The scoring system records individual parameters and provides an overall clinical functional assessment. It consists of 4 domains: pain, activities of daily living (ADL), mobility, and power/strength. Pain and ADL are self-assessed, while all other items are assessed by the blinded examiner. A higher score shows a better function (100 as the best), while a lower score shows a worse function (0 as the worst).
Time frame: 12 months
Tear recurrence (re-tear)
A systematic review (D'Ambrosi et al., 2019) showed that re-tear rates after rotator cuff repair with scaffolds were 17.97%. We hypothesize that the augmentation using HAM (as scaffold) seeded with AAdMSC would further lower the re-tear rates. We plan to record the recurrence of supraspinatus tendon tear (if any) based on radiographic evaluation with ultrasonography, which will then be confirmed with MRI. Ultrasonography provides an excellent anatomical evaluation of soft tissue which is able to assess any alterations during active locomotion. However, due to its user-dependent nature, we will also confirm the findings with MRI examination. Any grade of re-tear (grade I-III as evaluated by ultrasonography and confirmed with MRI) will be counted in and classified as "re-tear". When the patients do not complain about any symptoms of re-tear, we will record them as "no re-tear".
Time frame: Throughout the study duration (12 months), recorded as the first time complained by the patients (i.e. after "n" months).