Clinical Study on the Safety and Efficacy of Tendon Stem Progenitor Cells Therapy for Rotator Cuff Tears

NCT ID: NCT07320378

Last Updated: 2026-01-06

Basic Information

• Recruitment Status: NOT_YET_RECRUITING
• Clinical Phase: EARLY_PHASE1
• Total Enrollment: 107 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2026-05-31
• Study Completion Date: 2029-01-31

Brief Summary

Tendon injury is one of the most common sports injuries, including local tissue degeneration at the tendon insertion site following inflammation caused by long-term joint movement, friction, or strain, as well as acute traumatic tendon tears and defects of varying degrees due to sports. It is a recognized therapeutic challenge in orthopedics and sports medicine. With the increase in people's physical activities and changes in work styles, tendon injuries have become increasingly prevalent, with at least 30 million tendon injury cases annually. Meanwhile, tendon injuries pose a significant threat to the careers of many elite athletes. Currently, clinical treatments for tendon injuries mainly remain at the stages of physical therapy, surgical suture, and transplantation. Although these treatments have certain effects, their efficacy is limited-primarily because adult tendons lack complete regenerative capacity. As a result, the quality of repaired tendons is far inferior to that of normal tendons, making them prone to tendon adhesion, poor structural and mechanical properties, and frequent re-rupture. Even autologous tendon transplantation can only achieve approximately 40% of the mechanical properties of normal tendons, accompanied by excessive scar tissue formation. Current therapeutic and tissue engineering approaches can only partially improve tendon repair quality, failing to induce complete tendon repair and regeneration. Therefore, exploring new and efficient strategies for the treatment and regeneration of tendon injuries is of great significance.

In recent years, cell therapy has brought new opportunities for improving the repair quality of soft tissues such as tendons. Tendon-derived cells are isolated and extracted from tendons. These cells not only possess stem cell characteristics similar to bone marrow mesenchymal stem cells but also highly express tendon-specific genes and proteins. Therefore, this study intends to first culture and expand tendon stem/progenitor cells (TSPCs) to form therapeutic agents, then apply TSPC-enhanced therapy intraoperatively to patients with rotator cuff tendinopathy, and evaluate its clinical safety and efficacy.

Conditions

Rotator Cuff Tendinopathy

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: TREATMENT
• Blinding Strategy: TRIPLE

Study Groups

Conventional surgery group

All procedures were performed under general anesthesia, including subacromial decompression, acromioplasty, and rotator cuff repair using a double-row suture bridge technique.

Group Type: ACTIVE_COMPARATOR

Conventional rotator cuff repair.

Intervention Type: PROCEDURE

All procedures were performed under general anesthesia. Patients were in a beach-chair position. After glenohumeral inspection, subacromial decompression was conducted, and acromioplasty was performed. After subacromial decompression, the upper surface of the greater tuberosity was abraded to create a bleeding cancellous bone bed. The footprint of the greater tuberosity was debrided. Rotator cuff repair was performed using a double-row suture bridge technique. For medial-row repair, a hole was punched in the greater tuberosity, and a bioabsorbable suture anchor was inserted. After the medial row was completed, the suture limbs were used to create suture bridges over the tendon. The lateral fixation points were placed, and the suture anchor was used for lateral-row fixation.

TSPCs enhanced group

For patients in the TSPCs group, after removing the arthroscopic fluid, TSPCs mixed with fibrin glue were applied to the tendon-bone junction and repaired tendon surface under arthroscopic guidance.

Group Type: EXPERIMENTAL

Stem cell therapy

Intervention Type: BIOLOGICAL

For patients in the TSPCs group, after removing the arthroscopic fluid, the prepared TSPCs loaded on a scaffold were injected into the tendon - bone junction and over the repaired tendon using a spinal needle. Fibrin glue (Fibrin Sealant (Human), RAAS) served as the scaffold. The TSPCs suspension was first mixed with thrombin solution at a 3:1 ratio. Then, using the DUPLOJECT syringe support system (Fibrin Sealant (Human), RAAS), 2 ml of cell - thrombin suspension was combined with 2 ml of fibrinogen solution at a 1:1 ratio and applied to the repaired tendon surface. After extracting the arthroscopic fluid, this cell - thrombin - fibrinogen suspension was implanted under arthroscopic guidance. A probe was used to spread and adjust the fibrin glue to cover the repaired tendon - bone junction and tendon surface.

Conventional rotator cuff repair.

Intervention Type: PROCEDURE

All procedures were performed under general anesthesia. Patients were in a beach-chair position. After glenohumeral inspection, subacromial decompression was conducted, and acromioplasty was performed. After subacromial decompression, the upper surface of the greater tuberosity was abraded to create a bleeding cancellous bone bed. The footprint of the greater tuberosity was debrided. Rotator cuff repair was performed using a double-row suture bridge technique. For medial-row repair, a hole was punched in the greater tuberosity, and a bioabsorbable suture anchor was inserted. After the medial row was completed, the suture limbs were used to create suture bridges over the tendon. The lateral fixation points were placed, and the suture anchor was used for lateral-row fixation.

Interventions

Stem cell therapy

For patients in the TSPCs group, after removing the arthroscopic fluid, the prepared TSPCs loaded on a scaffold were injected into the tendon - bone junction and over the repaired tendon using a spinal needle. Fibrin glue (Fibrin Sealant (Human), RAAS) served as the scaffold. The TSPCs suspension was first mixed with thrombin solution at a 3:1 ratio. Then, using the DUPLOJECT syringe support system (Fibrin Sealant (Human), RAAS), 2 ml of cell - thrombin suspension was combined with 2 ml of fibrinogen solution at a 1:1 ratio and applied to the repaired tendon surface. After extracting the arthroscopic fluid, this cell - thrombin - fibrinogen suspension was implanted under arthroscopic guidance. A probe was used to spread and adjust the fibrin glue to cover the repaired tendon - bone junction and tendon surface.

Intervention Type: BIOLOGICAL

Conventional rotator cuff repair.

All procedures were performed under general anesthesia. Patients were in a beach-chair position. After glenohumeral inspection, subacromial decompression was conducted, and acromioplasty was performed. After subacromial decompression, the upper surface of the greater tuberosity was abraded to create a bleeding cancellous bone bed. The footprint of the greater tuberosity was debrided. Rotator cuff repair was performed using a double-row suture bridge technique. For medial-row repair, a hole was punched in the greater tuberosity, and a bioabsorbable suture anchor was inserted. After the medial row was completed, the suture limbs were used to create suture bridges over the tendon. The lateral fixation points were placed, and the suture anchor was used for lateral-row fixation.

Intervention Type: PROCEDURE

Eligibility Criteria

Inclusion Criteria

1. Aged between 18 and 70 years, regardless of gender;

2. Tear size classified as small (< 1 cm) or medium-sized (1 cm to 3 cm) according to the DeOrio and Cofield classification system;

3. Persistent shoulder pain or functional limitations despite at least 3 months of non-surgical treatment, with indications for arthroscopic rotator cuff repair;

4. Willing to sign the informed consent form and agree to participate in this study.

Exclusion Criteria

1. Tear size classified as large (3 cm to 5 cm) or massive (> 5 cm) according to the DeOrio and Cofield classification, or Patte grade 3 tendon retraction;

2. Subscapularis tendon tear;

3. Complicated with anterior, posterior, or multidirectional shoulder joint instability;

4. Indications for repair of anterior or posterior labral injury;

5. Intra-articular injection of hyaluronic acid or corticosteroids within 3 months prior to the planned surgery;

6. Comorbidities that contraindicate arthroscopic shoulder surgery;

7. Local (shoulder, abdomen, buttocks) or systemic infection, osteomyelitis, or sepsis;

8. Diabetes mellitus, untreated thyroid disease, chronic kidney disease, or rheumatoid arthritis;

9. Immunodeficiency;

10. Chronic diseases involving coagulation or platelet aggregation, or severe coagulopathy;

11. Severe cardiovascular disease;

12. Stroke or acute cardiovascular event within 6 months prior to the planned surgery;

13. Weight loss > 30 kg for any reason within 12 months, or unexplained weight loss > 10 kg within 12 months;

14. Eating disorder or body dysmorphic disorder;

15. Alcohol/drug addiction or mental illness that may affect compliance with postoperative protocols;

16. Pregnant or lactating women;

17. Refusal to sign the informed consent form;

18. Other conditions deemed inappropriate by the investigators.

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 70 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

Second Affiliated Hospital, School of Medicine, Zhejiang University

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Central Contacts

ZeTao Wang

Role: CONTACT

843047681@qq.com

+8613858885932

Other Identifiers

2025-1814

Identifier Type: -

Identifier Source: org_study_id