THE FUNCTIONAL EFFECTIVENESS OF A CELL-ENGINEERED CONSTRUCT FOR THE REGENERATION OF ARTICULAR CARTILAGE

THE FUNCTIONAL EFFECTIVENESS OF A CELL-ENGINEERED CONSTRUCT FOR THE REGENERATION OF ARTICULAR CARTILAGE

The aim of this study is an analysis of the functional effectiveness of a biomedical cell product consisting of a biopolymer microheterogeneous collagen-containing hydrogel (BMCH), human adipose-derived mesenchymal stromal cells (hADMSCs), and chondrogenic induction medium in the regeneration of art...

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Bibliographic Details
Main Authors: V. I. Sevastianov, G. A. Dukhina, A. M. Grigoriev, N. V. Perova, L. A. Kirsanova, N. N. Skaletskiy, D. G. Akhaladze, S. V. Gautier
Format: Article
Language:Russian
Published: Federal Research Center of Transplantology and Artificial Organs named after V.I.Shumakov 2015-04-01
Series:Вестник трансплантологии и искусственных органов
Subjects:
test model
osteoarthrosis
hyaline cartilage
cartilaginous tissue
cell-engineered construct
biopolymer matrix
mesenchymal stromal cells
adipose tissue
Online Access:https://journal.transpl.ru/vtio/article/view/500
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Summary:The aim of this study is an analysis of the functional effectiveness of a biomedical cell product consisting of a biopolymer microheterogeneous collagen-containing hydrogel (BMCH), human adipose-derived mesenchymal stromal cells (hADMSCs), and chondrogenic induction medium in the regeneration of articular cartilage. Materials and methods. The test model of the adjuvant arthritis was used (female Soviet Chinchilla rabbits) with the further development into osteoarthrosis (OA) combined with the clinical, biochemical, radiological, and histochemical trials. Results. On Day 92 of the OA model it has been found that the intra-articular introduction of a BMCH with hADMSCs into the left knee joint (n = 3) 30 days after the OA modeling, as opposed to the right joint (negative control, n = 3), stimulates the regenerative processes of the cartilaginous tissue structure characterized by the formation of chondrocyte «columns», the emergence of isogenic groups in the intracellular matrix and the regeneration of its structure. Upon the intra-articular introduction of a BMCH (n = 3) such effects are markedly less pronounced. Conclusions. A significant regenerative potential of a cell-engineered construct of human articular tissue (CEC ATh) has been proven. It is possible to presume that biostimulating properties of CEC ATh are due to the activating effect of a biomedical cell product on the stem cell migration processes from the surrounding tissue into the injured area with their subsequent differentiation.
ISSN:1995-1191

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