TY  - BOOK
AU  - Carney, Bonnie C
AU  - Keyloun, John
AU  - Kirkpatrick, Liam D
AU  - Moffatt, Lauren T
AU  - Nisar, Saira
AU  - Oliver, Mary A
AU  - Prindeze, Nicholas
AU  - Shupp, Jeffrey W
AU  - Travis, Taryn E
TI  - A Pilot Study of Negative Pressure Therapy with Autologous Skin Cell Suspensions in a Porcine Model
SN  - 0022-4804
PY  - 2021///
KW  - *Burns
KW  - *Negative-Pressure Wound Therapy
KW  - Animals
KW  - Burns/pa [Pathology]
KW  - Pilot Projects
KW  - Skin Transplantation
KW  - Skin/pa [Pathology]
KW  - Suspensions
KW  - Swine
KW  - MedStar Health Research Institute
KW  - MedStar Washington Hospital Center
KW  - Burn Research Fellowship
KW  - Firefighters' Burn and Surgical Research Laboratory
KW  - Surgery/Burn Services
KW  - Journal Article
N2  - BACKGROUND: Negative pressure wound therapy (NPWT) is an option for securing meshed split thickness skin grafts (mSTSGs) after burn excision to optimize skin graft adherence. Recently, the use of autologous skin cell suspension (ASCS) has been approved for use in the treatment of burn injuries in conjunction with mSTSGs.To date, limited data exists regarding the impact of NPWT on healing outcomes when the cellular suspension is utilized. It was hypothesized that NPWT would not negatively impact wound healing of ASCS+mSTSG; CONCLUSIONS: These data suggest the positive attributes of the cellular suspension delivered are retained following the application of negative pressure. Re-epithelialization, revascularization, and repigmentation are not adversely impacted. The use of NPWT may be considered as an option when using ASCS with mSTSGs for the treatment of full-thickness burns. Copyright (c) 2021 The Authors. Published by Elsevier Inc. All rights reserved; MATERIALS AND METHODS: A burn, excision, mSTSG, ASCS +/- NPWT model was used. Two Duroc pigs were utilized in this experiment, each with 2 sets of paired burns. Four wounds received mSTSG+ASCS+NPWT through post-operative day 3, and 4 wounds received mSTSG+ACSC+ traditional ASCS dressings. Cellular viability was characterized prior to spraying. Percent re-epithelialization, graft-adherence, pigmentation, elasticity, and blood perfusion and blood vessel density were assessed at multiple time points through 2 weeks; RESULTS: All wounds healed within 14 days with minimal scar pathology and no significant differences in percent re-epithelialization between NPWT, and non-NPWT wounds were observed. Additionally, no differences were detected for pigmentation, perfusion, or blood vessel density. NPWT treated wounds had less graft loss and improved elasticity, with elasticity being statistically different
UR  - https://dx.doi.org/10.1016/j.jss.2021.05.010
ER  -