In vivo efficacy proof of concept of a large-size bioprinted dermo-epidermal substitute for permanent wound coverage

Maxime Abellan Lopez; Laurence Hutter; Etienne Pagin; Mélanie Vélier; Julie Véran; Laurent Giraudo; Chloe Dumoulin; Laurent Arnaud; Nicolas Macagno; Romain Appay; Laurent Daniel; Benjamin Guillet; Laure Balasse; Hugo Caso; Dominique Casanova; Baptiste Bertrand; Françoise Dignat; Loïc Hermant; Hélène Riesterer; Fabien Guillemot; Florence Sabatier; Jérémy Magalon

doi:10.3389/fbioe.2023.1217655

In vivo efficacy proof of concept of a large-size bioprinted dermo-epidermal substitute for permanent wound coverage

Front Bioeng Biotechnol. 2023 Jul 25:11:1217655. doi: 10.3389/fbioe.2023.1217655. eCollection 2023.

Authors

Maxime Abellan Lopez^{1

2}, Laurence Hutter³, Etienne Pagin³, Mélanie Vélier^{2

4}, Julie Véran^{2

4}, Laurent Giraudo^{2

4}, Chloe Dumoulin^{2

4}, Laurent Arnaud⁵, Nicolas Macagno⁶, Romain Appay⁶, Laurent Daniel⁶, Benjamin Guillet^{2

7}, Laure Balasse², Hugo Caso¹, Dominique Casanova^{1

2}, Baptiste Bertrand^{1

2}, Françoise Dignat^{2

4}, Loïc Hermant³, Hélène Riesterer³, Fabien Guillemot³, Florence Sabatier^{2

4}, Jérémy Magalon^{2

4}

Affiliations

¹ Plastic Surgery Department, Hôpital de la Conception, AP-HM, Marseille, France.
² Aix-Marseille Université, INSERM, Institut National de Recherche Pour l'Agriculture, l'Alimentation et l'Environnement, Centre de Recherche en Cardiovasculaire et Nutrition (C2VN), Marseille, France.
³ Poietis, Pessac, France.
⁴ Cell Therapy Department, Hôpital de la Conception, AP-HM, INSERM CIC BT 1409, Marseille, France.
⁵ Vascular Biology Department, Hôpital de la Timone, AP-HM, Marseille, France.
⁶ Anatomy and Pathology Department, INSERM U1263, C2VN, Hôpital de la Timone, Marseille, France.
⁷ Centre Européen de Recherche en Imagerie Médicale (CERIMED), Aix-Marseille Université, Centre National de la Recherche Scientifique, Marseille, France.

Abstract

Introduction: An autologous split-thickness skin graft (STSG) is a standard treatment for coverage of full-thickness skin defects. However, this technique has two major drawbacks: the use of general anesthesia for skin harvesting and scar sequelae on the donor site. In order to reduce morbidity associated with STSG harvesting, researchers have developed autologous dermo-epidermal substitutes (DESs) using cell culture, tissue engineering, and, more recently, bioprinting approaches. This study assessed the manufacturing reliability and in vivo efficacy of a large-size good manufacturing practice (GMP)-compatible bio-printed human DES, named Poieskin^®, for acute wound healing treatment. Methods: Two batches (40 cm² each) of Poieskin^® were produced, and their reliability and homogeneity were assessed using histological scoring. Immunosuppressed mice received either samples of Poieskin^® (n = 8) or human STSG (n = 8) immediately after longitudinal acute full-thickness excision of size 1 × 1.5 cm, applied on the skeletal muscle plane. The engraftment rate was assessed through standardized photographs on day 16 of the follow-up. Moreover, wound contraction, superficial vascularization, and local inflammation were evaluated via standardized photographs, laser Doppler imaging, and PET imaging, respectively. Histological analysis was finally performed after euthanasia. Results: Histological scoring reached 75% ± 8% and 73% ± 12%, respectively, displaying a robust and homogeneous construct. Engraftment was comparable for both groups: 91.8% (SD = 0.1152) for the Poieskin^® group versus 100% (SD = 0) for the human STSG group. We did not record differences in either graft perfusion, PET imaging, or histological scoring on day 16. Conclusion: Poieskin^® presents consistent bioengineering manufacturing characteristics to treat full-thickness cutaneous defects as an alternative to STSG in clinical applications. Manufacturing of Poieskin^® is reliable and homogeneous, leading to a clinically satisfying rate of graft take compared to the reference human STSG in a mouse model. These results encourage the use of Poieskin^® in phase I clinical trials as its manufacturing procedure is compatible with pharmaceutical guidelines.

Keywords: good manufacturing practice compatible; large size; laser-assisted bioprinting; multimodal bioprinting; skin substitute; wound healing.

Copyright © 2023 Abellan Lopez, Hutter, Pagin, Vélier, Véran, Giraudo, Dumoulin, Arnaud, Macagno, Appay, Daniel, Guillet, Balasse, Caso, Casanova, Bertrand, Dignat, Hermant, Riesterer, Guillemot, Sabatier and Magalon.