Effects of Micronized Cartilage Matrix on Cartilage Repair in Osteochondral Lesions of the Talus

Author:

Shieh Alvin K.1ORCID,Singh Sohni G.1,Nathe Connor2,Lian Evan3,Haudenschild Dominik R.1,Nolta Jan A.4ORCID,Lee Cassandra A.1,Giza Eric1,Kreulen Christopher D.1

Affiliation:

1. Department of Orthopaedic Surgery, University of California Davis Medical Center, Sacramento, CA, USA

2. University of California Irvine School of Medicine, Irvine, CA, USA

3. Royal College of Surgeons in Ireland School of Medicine, Dublin, Ireland

4. Institute for Regenerative Cures, University of California Davis Medical Center, Sacramento, CA, USA

Abstract

Background The repair of osteochondral lesions remains a challenge due to its poor vascularity and limited healing potential. Micronized cartilage matrix (MCM) is dehydrated, decellularized, micronized allogeneic cartilage matrix that contains the components of native articular tissue and is hypothesized to serve as a scaffold for the formation of hyaline-like tissue. Our objective was to demonstrate in vitro that the use of MCM combined with mesenchymal stem cells (MSCs) can lead to the formation of hyaline-like cartilage tissue in a single-stage treatment model. Design In group 1 (no wash), 250 µL MCM was reconstituted in 150 µL Dulbecco’s phosphate-buffered saline (DPBS) for 5 minutes. Group 2 (saline wash) included 250 µL MCM washed in 20 mL DPBS for 30 minutes, then aspirated to remove all DPBS and reconstituted in 150 µL DPBS. Group 3 (serum wash): 250µL MCM washed in 20 mL DPBS for 30 minutes, then aspirated and reconstituted in 150 µL fetal bovine serum. Each group was then added to 50 µL solution of MSC suspended in DPBS at a concentration of 1.2 × 106 cells/350 µL. After 3 weeks, the defects were extracted and sectioned to perform viability and histologic analyses. Results Stem cells without rehydration of the MCM showed almost no viability whereas near complete cell viability was seen after rehydration with serum or saline solution, ultimately leading to chondrogenic differentiation and adhesion to the MCM particles. Conclusion We have shown in this proof-of-concept in vitro study that MCM can serve as a scaffold for the growth of cartilage tissue for the treatment of osteochondral lesions.

Publisher

SAGE Publications

Subject

Physical Therapy, Sports Therapy and Rehabilitation,Biomedical Engineering,Immunology and Allergy

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1. Osteochondral Injuries of the Talus;Clinics in Podiatric Medicine and Surgery;2024-07

2. Arthroscopic Cartilage Transplantation;Clinics in Podiatric Medicine and Surgery;2023-07

3. Management of Osteochondral Disorders of the Ankle;Evaluation and Surgical Management of the Ankle;2023

4. Nanohydroxyapatite Hydrogel Can Promote the Proliferation and Migration of Chondrocytes and Better Repair Talar Articular Cartilage;Computational and Mathematical Methods in Medicine;2022-05-26

5. Arthroscopy and Micronized Allogenic Cartilage Matrix Grafting for a Missed Talus Nonunion;JBJS Case Connector;2022

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