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Thermal conditioning improves quality and speed of keratinocyte sheet production for burn wound treatment

Frese, Laura; Darwiche, Salim E; von Rechenberg, Brigitte; Hoerstrup, Simon P; Giovanoli, Pietro; Calcagni, Maurizio (2021). Thermal conditioning improves quality and speed of keratinocyte sheet production for burn wound treatment. Cytotherapy, 23(6):536-547.

Abstract

BACKGROUND AIMS

Cultured patient-specific keratinocyte sheets have been used clinically since the 1970s for the treatment of large severe burns. However, despite significant developments in recent years, successful and sustainable treatment is still a challenge. Reliable, high-quality grafts with faster availability and a flexible time window for transplantation are required to improve clinical outcomes.

METHODS

Keratinocytes are usually grown in vitro at 37°C. Given the large temperature differences in native skin tissue, the aim of the authors' study was to investigate thermal conditioning of keratinocyte sheet production. Therefore, the influence of 31°C, 33°C and 37°C on cell expansion and differentiation in terms of proliferation and sheet formation efficacy was investigated. In addition, the thermal effect on the biological status and thus the quality of the graft was assessed on the basis of the release of wound healing-related biofactors in various stages of graft development.

RESULTS

The authors demonstrated that temperature is a decisive factor in the production of human keratinocyte sheets. By using specific temperature ranges, the authors have succeeded in optimizing the individual manufacturing steps. During the cell expansion phase, cultivation at 37°C was most effective. After 6 days of culture at 37°C, three times and six times higher numbers of viable cells were obtained compared with 33°C and 31°C. During the cell differentiation and sheet formation phase, however, the cells benefited from a mildly hypothermic temperature of 33°C. Keratinocytes showed increased differentiation potential and formed better epidermal structures, which led to faster biomechanical sheet stability at day 18. In addition, a cultivation temperature of 33°C resulted in a longer lasting and higher secretion of the investigated immunomodulatory, anti-inflammatory, angiogenic and pro-inflammatory biofactors.

CONCLUSIONS

These results show that by using specific temperature ranges, it is possible to accelerate the large-scale production of cultivated keratinocyte sheets while at the same time improving quality. Cultivated keratinocyte sheets are available as early as 18 days post-biopsy and at any time for 7 days thereafter, which increases the flexibility of the process for surgeons and patients alike. These findings will help to provide better clinical outcomes, with an increased take rate in severe burn patients.

Additional indexing

Item Type:Journal Article, refereed, original work
Communities & Collections:04 Faculty of Medicine > University Hospital Zurich > Clinic for Reconstructive Surgery
04 Faculty of Medicine > Institute for Regenerative Medicine (IREM)
Dewey Decimal Classification:610 Medicine & health
Scopus Subject Areas:Health Sciences > Immunology and Allergy
Life Sciences > Immunology
Health Sciences > Oncology
Health Sciences > Genetics (clinical)
Life Sciences > Cell Biology
Health Sciences > Transplantation
Life Sciences > Cancer Research
Language:English
Date:13 June 2021
Deposited On:29 Jul 2021 09:17
Last Modified:13 Sep 2024 03:41
Publisher:Elsevier
ISSN:1465-3249
OA Status:Hybrid
Publisher DOI:https://doi.org/10.1016/j.jcyt.2021.01.006
PubMed ID:33685808
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  • Licence: Creative Commons: Attribution 4.0 International (CC BY 4.0)

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