Search Results - "Arguchinskaya, N. V."

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  1. 1
    Riboflavin-Induced Photocrosslinking of Highly Concentrated Collagen: Printing Accuracy, Degradation Time, and Cytocompatibility

    Riboflavin-Induced Photocrosslinking of Highly Concentrated Collagen: Printing Accuracy, Degradation Time, and Cytocompatibility by Arguchinskaya, N. V., Beketov, E. E., Isaeva, E. V., Kisel, A. A., Eremin, P. S., Ivanov, S. A., Shegay, P. V., Kaprin, A. D.

    Published in Applied biochemistry and microbiology (01-12-2023)
    “…The effect of riboflavin-induced collagen photocrosslinking on the scaffold printing accuracy, namely on the area of formed niches and filament thickness, as…”
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  2. 2
    Decellularized Extracellular Matrix for Tissue Engineering (Review)

    Decellularized Extracellular Matrix for Tissue Engineering (Review) by Isaeva, E V, Beketov, E E, Arguchinskaya, N V, Ivanov, S А, Shegay, P V, Kaprin, А D

    Published in Sovremennye tekhnologii v medit͡s︡ine (01-01-2022)
    “…In recent years, decellularized tissues have evolved into a new, full-fledged platform for the creation of tissue-engineered constructions. Extracellular…”
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  3. 3
    The Use of Collagen with High Concentration in Cartilage Tissue Engineering by Means of 3D-Bioprinting

    The Use of Collagen with High Concentration in Cartilage Tissue Engineering by Means of 3D-Bioprinting by Isaeva, E. V., Beketov, E. E., Yuzhakov, V. V., Arguchinskaya, N. V., Kisel, A. A., Malakhov, E. P., Lagoda, T. S., Yakovleva, N. D., Shegai, P. V., Ivanov, S. A., Kaprin, A. D.

    Published in Cell and tissue biology (01-09-2021)
    “…3D-bioprinting is a promising technology for a tissue scaffold fabrication in the case of damaged tissue/organ replacement. Collagen is one of the most…”
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  4. 4
    Effect of Collagen and GelMA on Preservation of the Costal Chondrocytes' Phenotype in a Scaffold in vivo

    Effect of Collagen and GelMA on Preservation of the Costal Chondrocytes' Phenotype in a Scaffold in vivo by Isaeva, E V, Kisel, A A, Beketov, E E, Demyashkin, G A, Yakovleva, N D, Lagoda, T S, Arguchinskaya, N V, Baranovsky, D S, Ivanov, S A, Shegay, P V, Kaprin, A D

    Published in Sovremennye tekhnologii v medit͡s︡ine (01-01-2023)
    “…was to compare type I collagen-based and methacryloyl gelatin-based (GelMA) hydrogels by their ability to form hyaline cartilage in animals after subcutaneous…”
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  5. 5
    The Technique of Thyroid Cartilage Scaffold Support Formation for Extrusion-Based Bioprinting

    The Technique of Thyroid Cartilage Scaffold Support Formation for Extrusion-Based Bioprinting by Arguchinskaya, N V, Beketov, E E, Kisel, A A, Isaeva, E V, Osidak, E O, Domogatsky, S P, Mikhailovsky, N V, Sevryukov, F E, Silantyeva, N K, Agababyan, T A, Ivanov, S A, Shegay, P V, Kaprin, A D

    Published in International journal of bioprinting (01-01-2021)
    “…During biofabrication, a tissue scaffold may require temporary support. The aim of this study was to develop an approach of human thyroid cartilage scaffold…”
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  6. 6
    Materials for creating tissue-engineered constructs using 3D bioprinting: cartilaginous and soft tissue restoration

    Materials for creating tissue-engineered constructs using 3D bioprinting: cartilaginous and soft tissue restoration by N. V. Arguchinskaya, E. E. Beketov, E. V. Isaeva, N. S. Sergeeva, P. V. Shegay, S. A. Ivanov, A. D. Kaprin

    “…3D Bioprinting is a dynamically developing technology for tissue engineering and regenerative medicine. The main advantage of this technique is its ability to…”
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