Akhmedov B scite author profile

Akhmedov B

2Publications

4Citation Statements Received

34Citation Statements Given

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National Medical Research Center of Cardiology

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Minimally Manipulated Bone Marrow-Derived Cells Can Be Used for Tissue Engineering In Situ and Simultaneous Formation of Personalized Tissue Models

Baranovskii

Demchenko

et al. 2022

Bull Exp Biol Med

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Background: The use of tissue-engineered bone autografts is a promising approach for bone defects restoration. The isolation of cells and their seeding on bone autograft is usually carried out in a laboratory, requiring significant time and two separate surgical interventions. Intraoperative creation of tissueengineered bone autograft can represent a perspective solution. The aim of this study is to investigate the possibility of creation of tissue-engineered bone autograft by intraoperative enrichment of bone tissue with bone marrow-derived mononuclear cells (BM-MNCs) isolated simultaneously. Methods. Red bone marrow and autologous bone tissue (bone fragments and bone chips) of the donor were harvested intraoperatively. BM-MNCs were isolated, and bone fragments were enriched with BM-MNCs intraoperatively. Assessment of the adhesion and proliferation of BM-MNCs on bone fragments was carried out by fluorescence microscopy and histological examination. MTT assay was used to compare metabolic activity of BM-MNCs and wBMA cells seeded on bone chips. Results. Autologous bone fragments were colonized with autologous BM-MNCs isolated simultaneously in the O.R. with further adhesion and active growth of cells. When seeded on bone chips, metabolic activity of BM-MNCs was statistically significantly higher compared to wBMA cells (p-value=0.0272) on day 14. There was no difference in metabolic activity of BM-MNCs and wBMA cells cultured in nutrient medium without bone chips. Conclusion. Technically simple method of intraoperative enrichment of autologous bone fragments with BM-MNCs isolated simultaneously allowed to create tissue-engineered bone autograft in the O.R. The safety and effectiveness of intraoperatively enriched autografts should be investigated further.

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Intraoperative enrichment of bone autograft with autologous bone marrow-derived mononuclear cells isolated simultaneously: moving towards tissue engineeringin situ

Baranovskii

B²,

Krasilnikova

et al. 2020

Preprint

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BackgroundThe use of tissue-engineered bone autografts is a promising approach for bone defects restoration. The isolation of cells and their seeding on bone autograft is usually carried out in a laboratory, requiring significant time and two separate surgical interventions. Intraoperative creation of tissue-engineered bone autograft can represent a perspective solution. The aim of this study is to investigate the possibility of creation of tissue-engineered bone autograft by intraoperative enrichment of bone tissue with bone marrow-derived mononuclear cells (BM-MNCs) isolated simultaneously.MethodsRed bone marrow and autologous bone tissue (bone fragments and bone chips) of the donor were harvested intraoperatively. BM-MNCs were isolated, and bone fragments were enriched with BM-MNCs intraoperatively. Assessment of the adhesion and proliferation of BM-MNCs on bone fragments was carried out by fluorescence microscopy and histological examination. MTT assay was used to compare metabolic activity of BM-MNCs and wBMA cells seeded on bone chips.ResultsAutologous bone fragments were colonized with autologous BM-MNCs isolated simultaneously in the O.R. with further adhesion and active growth of cells. When seeded on bone chips, metabolic activity of BM-MNCs was statistically significantly higher compared to wBMA cells (p-value=0.0272) on day 14. There was no difference in metabolic activity of BM-MNCs and wBMA cells cultured in nutrient medium without bone chips.ConclusionTechnically simple method of intraoperative enrichment of autologous bone fragments with BM-MNCs isolated simultaneously allowed to create tissue-engineered bone autograft in the O.R. The safety and effectiveness of intraoperatively enriched autografts should be investigated further.

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Akhmedov B

Minimally Manipulated Bone Marrow-Derived Cells Can Be Used for Tissue Engineering In Situ and Simultaneous Formation of Personalized Tissue Models

Intraoperative enrichment of bone autograft with autologous bone marrow-derived mononuclear cells isolated simultaneously: moving towards tissue engineeringin situ

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