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Handheld instrument for wound-conformal delivery of skin precursor sheets improves healing in full-thickness burns

Richard Cheng, Gertraud Eylert, J Gariepy, S He, Hasan Ahmad, Yi‐Zhou Gao, Stefania Priore, Navid Hakimi, Marc G. Jeschke, Axel Günther

2020Biofabrication109 citationsDOIOpen Access PDF

Abstract

The current standard of care for patients with severe large-area burns consists of autologous skin grafting or acellular dermal substitutes. While emerging options to accelerate wound healing involve treatment with allogeneic or autologous cells, delivering cells to clinically relevant wound topologies, orientations, and sizes remains a challenge. Here, we report the one-step in situ formation of cell-containing biomaterial sheets using a handheld instrument that accommodates the topography of the wound. In an approach that maintained cell viability and proliferation, we demonstrated conformal delivery to surfaces that were inclined up to 45° with respect to the horizontal. In porcine pre-clinical models of full-thickness burn, we delivered mesenchymal stem/stromal cell-containing fibrin sheets directly to the wound bed, improving re-epithelialization, dermal cell repopulation, and neovascularization, indicating that this device could be introduced in a clinical setting improving dermal and epidermal regeneration.

Topics & Concepts

Wound healingMesenchymal stem cellBiomedical engineeringMedicineRegeneration (biology)NeovascularizationBiomaterialStromal cellMaterials scienceRegenerative medicineCellSurgeryPathologyAngiogenesisCancer researchChemistryCell biologyBiologyBiochemistryWound Healing and Treatments3D Printing in Biomedical ResearchPlanarian Biology and Electrostimulation
Handheld instrument for wound-conformal delivery of skin precursor sheets improves healing in full-thickness burns | Litcius