TY - JOUR
T1 - Fluid handling by foam wound dressings
T2 - From engineering theory to advanced laboratory performance evaluations
AU - Gefen, Amit
AU - Alves, Paulo
AU - Beeckman, Dimitri
AU - Cullen, Breda
AU - Lázaro-Martínez, José Luis
AU - Lev-Tov, Hadar
AU - Santamaria, Nick
AU - Swanson, Terry
AU - Woo, Kevin
AU - Söderström, Bengt
AU - Svensby, Anna
AU - Malone, Matthew
AU - Nygren, Erik
N1 - Publisher Copyright:
© 2024 The Authors. International Wound Journal published by Medicalhelplines.com Inc and John Wiley & Sons Ltd.
PY - 2024/2
Y1 - 2024/2
N2 - This article describes the contemporary bioengineering theory and practice of evaluating the fluid handling performance of foam-based dressings, with focus on the important and clinically relevant engineering structure–function relationships and on advanced laboratory testing methods for pre-clinical quantitative assessments of this common type of wound dressings. The effects of key wound dressing material-related and treatment-related physical factors on the absorbency and overall fluid handling of foam-based dressings are thoroughly and quantitively analysed. Discussions include exudate viscosity and temperature, action of mechanical forces and the dressing microstructure and associated interactions. Based on this comprehensive review, we propose a newly developed testing method, experimental metrics and clinical benchmarks that are clinically relevant and can set the standard for robust fluid handling performance evaluations. The purpose of this evaluative framework is to translate the physical characteristics and performance determinants of a foam dressing into achievable best clinical outcomes. These guiding principles are key to distinguishing desirable properties of a dressing that contribute to optimal performance in clinical settings.
AB - This article describes the contemporary bioengineering theory and practice of evaluating the fluid handling performance of foam-based dressings, with focus on the important and clinically relevant engineering structure–function relationships and on advanced laboratory testing methods for pre-clinical quantitative assessments of this common type of wound dressings. The effects of key wound dressing material-related and treatment-related physical factors on the absorbency and overall fluid handling of foam-based dressings are thoroughly and quantitively analysed. Discussions include exudate viscosity and temperature, action of mechanical forces and the dressing microstructure and associated interactions. Based on this comprehensive review, we propose a newly developed testing method, experimental metrics and clinical benchmarks that are clinically relevant and can set the standard for robust fluid handling performance evaluations. The purpose of this evaluative framework is to translate the physical characteristics and performance determinants of a foam dressing into achievable best clinical outcomes. These guiding principles are key to distinguishing desirable properties of a dressing that contribute to optimal performance in clinical settings.
KW - absorbency and retention
KW - adhesion of adhesive dressings
KW - leakage and failure of wound care
KW - testing methods and standards
KW - treatment
UR - http://www.scopus.com/inward/record.url?scp=85185207338&partnerID=8YFLogxK
U2 - 10.1111/iwj.14674
DO - 10.1111/iwj.14674
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C2 - 38353372
AN - SCOPUS:85185207338
SN - 1742-4801
VL - 21
JO - International Wound Journal
JF - International Wound Journal
IS - 2
M1 - e14674
ER -