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Implantation of Various Cell-Free Matrixes Does Not Contribute to the Restoration of Hyaline Cartilage within Full-Thickness Focal Defects

by Chagin, Andrei S. , Ibragimova, Shabnam I. , Telpukhov, Vladimir I. , Istranova, Elena V. , Lychagin, Aleksey V. , Istranov, Leonid P. , Nedorubov, Andrey A. , Romanova, Irina A. , Timashev, Peter S. , Medvedeva, Ekaterina V.

in Animals / Biomedical materials / Bone marrow / Cartilage / Cellulose / Clinical medicine / Collagen / Defects / Extracellular matrix / Fibrillar Collagens - metabolism / Fibroblasts / Hyaline Cartilage - pathology / Hyaluronic acid / Knee Joint - pathology / Male / Osteogenesis / Prosthesis Implantation / Rats / Rats, Wistar / SOX9 Transcription Factor - metabolism / Surgery / Synthetic products / Tissue engineering / Tissue Scaffolds - chemistry / Transplants & implants

2022

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Implantation of Various Cell-Free Matrixes Does Not Contribute to the Restoration of Hyaline Cartilage within Full-Thickness Focal Defects

2022

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Implantation of Various Cell-Free Matrixes Does Not Contribute to the Restoration of Hyaline Cartilage within Full-Thickness Focal Defects

2022

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Journal Article

Implantation of Various Cell-Free Matrixes Does Not Contribute to the Restoration of Hyaline Cartilage within Full-Thickness Focal Defects

Chagin, Andrei S.,

Ibragimova, Shabnam I.,

Telpukhov, Vladimir I.,

Istranova, Elena V.,

Lychagin, Aleksey V.,

Istranov, Leonid P.,

Nedorubov, Andrey A.,

Romanova, Irina A.,

Timashev, Peter S.,

Medvedeva, Ekaterina V.

2022

Overview

Articular cartilage is a highly organized tissue that has a limited ability to heal. Tissue engineering is actively exploited for joint tissue reconstruction in numerous cases of articular cartilage degeneration associated with trauma, arthrosis, rheumatoid arthritis, and osteoarthritis. However, the optimal scaffolds for cartilage repair are not yet identified. Here we have directly compared five various scaffolds, namely collagen-I membrane, collagen-II membrane, decellularized cartilage, a cellulose-based implant, and commercially available Chondro-Gide® (Geistlich Pharma AG, Wolhusen, Switzerland) collagen membrane. The scaffolds were implanted in osteochondral full-thickness defects, formed on adult Wistar rats using a hand-held cutter with a diameter of 2.0 mm and a depth of up to the subchondral bone. The congruence of the articular surface was almost fully restored by decellularized cartilage and collagen type II-based scaffold. The most vivid restoration was observed 4 months after the implantation. The formation of hyaline cartilage was not detected in any of the groups. Despite cellular infiltration into scaffolds being observed in each group except cellulose, neither chondrocytes nor chondro-progenitors were detected. We concluded that for restoration of hyaline cartilage, scaffolds have to be combined either with cellular therapy or morphogens promoting chondrogenic differentiation.

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Publisher

MDPI AG,MDPI

Subject

Animals

/ Biomedical materials