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- Title
Infrapatellar Fat Pad Mesenchymal Stromal Cell–Derived Exosomes Accelerate Tendon-Bone Healing and Intra-articular Graft Remodeling After Anterior Cruciate Ligament Reconstruction.
- Authors
Xu, Junjie; Ye, Zipeng; Han, Kang; Zheng, Ting; Zhang, Tianlun; Dong, Shikui; Jiang, Jia; Yan, Xiaoyu; Cai, Jiangyu; Zhao, Jinzhong
- Abstract
Background: Exosomes derived from mesenchymal stromal cells (MSCs) reportedly enhance the healing process. However, no studies have investigated the effect of exosomes from infrapatellar fat pad (IPFP) MSCs on tendon-bone healing and intra-articular graft remodeling after anterior cruciate ligament reconstruction (ACLR). Purpose: To evaluate the in vivo effect of exosomes from IPFP MSCs on tendon-bone healing and intra-articular graft remodeling in a rat model of ACLR. Study Design: Controlled laboratory study. Methods: A total of 90 skeletally mature male Sprague Dawley rats underwent unilateral ACLR using an autograft. All rats were randomly divided into 3 groups: sham injection (SI) group (n = 30), control injection (CI) group (n = 30), and IPFP MSC–derived exosome injection (IMEI) group (n = 30). At 2, 4, and 8 weeks postoperatively, tendon-bone healing and intra-articular graft remodeling were evaluated via biomechanical testing, micro–computed tomography, and histological analysis; macrophage polarization was evaluated using immunohistochemical staining. Results: Biomechanical testing demonstrated a significantly higher failure load and stiffness in the IMEI group than in the SI and CI groups at 4 and 8 weeks postoperatively. Moreover, a thinner graft-to-bone healing interface with more fibrocartilage was observed in the IMEI group at both time points. Micro–computed tomography revealed greater new bone ingrowth in the IMEI group than in the other groups, as demonstrated by smaller mean bone tunnel areas and a larger bone volume/total volume ratio. Additionally, more cellular infiltration was observed in the intra-articular graft in the IMEI group than in the other groups at 4 weeks, followed by more regularly organized fibers with mature collagen at 8 weeks. Notably, similar trends of macrophage polarization were found at both the graft-to-bone interface and the intra-articular graft in the IMEI group, with significantly fewer proinflammatory M1 macrophages and larger numbers of reparative M2 macrophages than in the SI and CI groups. Conclusion: IPFP MSC–derived exosomes accelerated tendon-bone healing and intra-articular graft remodeling after ACLR, which may have resulted from the immunomodulation of macrophage polarization. Clinical Relevance: The IPFP can be easily harvested by most orthopaedic surgeons. Exosomes from IPFP MSCs, constituting a newly emerging cell-free approach, may represent a treatment option for improving tendon-bone healing and intra-articular graft remodeling after ACLR.
- Subjects
TENDON transplantation; WOUND healing; BIOLOGICAL models; IN vitro studies; COLLAGEN; FLOW cytometry; STATISTICS; EXOSOMES; BONES; STAINS &; staining (Microscopy); CELL culture; REGENERATION (Biology); ANIMAL experimentation; TIME; IMMUNOHISTOCHEMISTRY; ONE-way analysis of variance; TENDONS; MACROPHAGES; RATS; AUTOGRAFTS; DESCRIPTIVE statistics; ANTERIOR cruciate ligament surgery; HISTOLOGY; BIOMECHANICS; COMPUTED tomography; DATA analysis; DATA analysis software; MESENCHYMAL stem cells; ADIPOSE tissues
- Publication
American Journal of Sports Medicine, 2022, Vol 50, Issue 3, p662
- ISSN
0363-5465
- Publication type
Article
- DOI
10.1177/03635465211072227