What question did this study set out to answer?

To evaluate the efficacy of a new bioengineered skin substitute in healing extensive full thickness burns in a child.

March 24, 2026Open Access

A Novel Engineered Skin Closes Full Thickness Burn Wounds: A Case Report

Key Points

To evaluate the efficacy of a new bioengineered skin substitute in healing extensive full thickness burns in a child.
Used a bioengineered bilaminar skin substitute made with platelet gel for grafting.
Manufactured 500 cm2 of bilaminar skin from a 5 cm2 skin biopsy.
Applied graft to an excised wound bed pre-treated with a biodegradable dermal matrix.
Monitored graft take rate and wound healing over 15 months.
Achieved a graft take rate of 95% at 2 weeks post grafting.
No instances of wound breakdown at graft sites at 15 months post grafting.
Successfully closed full thickness burns without further surgery.

Abstract

This report describes initial use of a novel bioengineered bilaminar skin substitute to obtain healing in a 6-year-old child with 63% total body surface area (TBSA) full thickness burns.This platelet gel-based Human Skin Equivalent (PG-HSE) autograft differs from other second generation bilaminar biologic skin substitutes, incorporating a platelet -derived hydrogel scaffold.A 5 cm 2 skin biopsy was used to manufacture 500 cm 2 of bilaminar skin.This was applied to an excised wound bed treated with a biodegradable dermal skin substitute, NovoSorb Biodegradable Temporising Matrix (BTM) (PolyNovo Biomaterials Pty Ltd, Port Melbourne, Victoria, Australia).The take rate of the grafted PG-HSE was 95% at 2 weeks post grafting, with no wound breakdown or requirement for further surgery at the PG-HSE graft sites at 15 months post grafting.This case demonstrates the efficacy of this bioengineered skin autograft in closing temporised full-thickness burns.

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A Novel Engineered Skin Closes Full Thickness Burn Wounds: A Case Report

Key Points

Abstract

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