Decellularized Umbilical Cord as a Scaffold to Support Healing of Full-Thickness Wounds

Albina A. Kondratenko; Dmitry V. Tovpeko; Daniil A. Volov; Lidia I. Kalyuzhnaya; Vladimir E. Chernov; Ruslan I. Glushakov; Maria Y. Sirotkina; Dmitry A. Zemlyanoy; Natalya B. Bildyug; Sergey V. Chebotarev; Elga I. Alexander-Sinclair; Alexey V. Nashchekin; Aleksandra D. Belova; Alexey M. Grigoriev; Ludmila A. Kirsanova; Yulia B. Basok; Victor I. Sevastianov

doi:10.3390/biomimetics9070405

Biomimetics (Jul 2024)

Decellularized Umbilical Cord as a Scaffold to Support Healing of Full-Thickness Wounds

Albina A. Kondratenko,
Dmitry V. Tovpeko,
Daniil A. Volov,
Lidia I. Kalyuzhnaya,
Vladimir E. Chernov,
Ruslan I. Glushakov,
Maria Y. Sirotkina,
Dmitry A. Zemlyanoy,
Natalya B. Bildyug,
Sergey V. Chebotarev,
Elga I. Alexander-Sinclair,
Alexey V. Nashchekin,
Aleksandra D. Belova,
Alexey M. Grigoriev,
Ludmila A. Kirsanova,
Yulia B. Basok,
Victor I. Sevastianov

Affiliations

Albina A. Kondratenko: Research Department of Biomedical Research of the Research Center, S.M. Kirov Military Medical Academy, 194044 St. Petersburg, Russia
Dmitry V. Tovpeko: Research Department of Biomedical Research of the Research Center, S.M. Kirov Military Medical Academy, 194044 St. Petersburg, Russia
Daniil A. Volov: Research Department of Biomedical Research of the Research Center, S.M. Kirov Military Medical Academy, 194044 St. Petersburg, Russia
Lidia I. Kalyuzhnaya: Research Department of Biomedical Research of the Research Center, S.M. Kirov Military Medical Academy, 194044 St. Petersburg, Russia
Vladimir E. Chernov: Research Department of Biomedical Research of the Research Center, S.M. Kirov Military Medical Academy, 194044 St. Petersburg, Russia
Ruslan I. Glushakov: Research Department of Biomedical Research of the Research Center, S.M. Kirov Military Medical Academy, 194044 St. Petersburg, Russia
Maria Y. Sirotkina: Cellular biotechnology Centre for Cell Technology (CCT), Institute of Cytology of the Russian Academy of Sciences, 194064 St. Petersburg, Russia
Dmitry A. Zemlyanoy: Department of General Hygiene, St. Petersburg State Pediatric Medical University, 194100 St. Petersburg, Russia
Natalya B. Bildyug: Cellular biotechnology Centre for Cell Technology (CCT), Institute of Cytology of the Russian Academy of Sciences, 194064 St. Petersburg, Russia
Sergey V. Chebotarev: Research Department of Biomedical Research of the Research Center, S.M. Kirov Military Medical Academy, 194044 St. Petersburg, Russia
Elga I. Alexander-Sinclair: Cellular biotechnology Centre for Cell Technology (CCT), Institute of Cytology of the Russian Academy of Sciences, 194064 St. Petersburg, Russia
Alexey V. Nashchekin: Laboratory “Characterization of Materials and Structures of Solid State Electronics”, Ioffe Institute, 194021 St. Petersburg, Russia
Aleksandra D. Belova: Department for Biomedical Technologies and Tissue Engineering. Shumakov National Medical Research Center of Transplantology and Artificial Organs, 123182 Moscow, Russia
Alexey M. Grigoriev: Department for Biomedical Technologies and Tissue Engineering. Shumakov National Medical Research Center of Transplantology and Artificial Organs, 123182 Moscow, Russia
Ludmila A. Kirsanova: Department for Biomedical Technologies and Tissue Engineering. Shumakov National Medical Research Center of Transplantology and Artificial Organs, 123182 Moscow, Russia
Yulia B. Basok: Department for Biomedical Technologies and Tissue Engineering. Shumakov National Medical Research Center of Transplantology and Artificial Organs, 123182 Moscow, Russia
Victor I. Sevastianov: Department for Biomedical Technologies and Tissue Engineering. Shumakov National Medical Research Center of Transplantology and Artificial Organs, 123182 Moscow, Russia

DOI: https://doi.org/10.3390/biomimetics9070405
Journal volume & issue: Vol. 9, no. 7
p. 405

Abstract

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The umbilical cord is a material that enhances regeneration and is devoid of age-related changes in the extracellular matrix (ECM). The aim of this work was to develop a biodegradable scaffold from a decellularized human umbilical cord (UC-scaffold) to heal full-thickness wounds. Decellularization was performed with 0.05% sodium dodecyl sulfate solution. The UC-scaffold was studied using morphological analysis methods. The composition of the UC-scaffold was studied using immunoblotting and Fourier transform infrared spectroscopy. The adhesion and proliferation of mesenchymal stromal cells were investigated using the LIVE/DEAD assay. The local reaction was determined by subcutaneous implantation in mice (n = 60). A model of a full-thickness skin wound in mice (n = 64) was used to assess the biological activity of the UC-scaffold. The proposed decellularization method showed its effectiveness in the umbilical cord, as it removed cells and retained a porous structure, type I and type IV collagen, TGF-β3, VEGF, and fibronectin in the ECM. The biodegradation of the UC-scaffold in the presence of collagenase, its stability during incubation in hyaluronidase solution, and its ability to swell by 1617 ± 120% were demonstrated. Subcutaneous scaffold implantation in mice showed gradual resorption of the product in vivo without the formation of a dense connective tissue capsule. Epithelialization of the wound occurred completely in contrast to the controls. All of these data suggest a potential for the use of the UC-scaffold.

Published in Biomimetics

ISSN: 2313-7673 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology
Website: https://www.mdpi.com/journal/biomimetics

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