Addressing wound healing barriers to optimise wound progression: investigating the advanced benefits of a next-generation multilayer foam dressing
Addressing wound healing barriers to optimise wound progression: investigating the advanced benefits of a next-generation multilayer foam dressing
Objective: Excess wound exudate can cause tissue maceration and delayed healing. Fluctuating exudate levels, combined with the impact of gravity, increase dressing leakage risk, affecting patient quality of life. Bacteria and proteases found in hard-to-heal (chronic) wounds pose additional barriers to healing if not promptly removed. Absorbent
dressings must therefore address these multiple challenges, and so were explored in this series of preclinical investigations. Method: Standard in vitro absorbency tests were conducted to compare the performance of several dressings with a new advanced five‑layer silicone polyurethane foam dressing with superabsorbent particles (ASFS). Dressing functionality was explored using clinically relevant test conditions, including the impact of gravity and fluid bolus events on absorbency, combined with the dressing’s ability to
absorb and retain bacteria and proteases. Results: ASFS demonstrated superior performance across standard absorbency tests versus most of the alternative absorbent dressings and outperformed a comparator five‑layer silicone foam dressing with superabsorbent fibres (SFD) in run-off testing. Under clinically relevant dynamic bolus conditions, including gravitational challenge, no leakage was observed with ASFS, whereas dressing failure due to fluid spill or leakage was observed with SFD. ASFS was also shown to retain matrix metalloproteinases and the majority of bacteria, even under increasing fluid volumes. Conclusion: Functionality of absorbent wound dressings in both
standard and clinically relevant tests is critical to support healthcare professionals’ decision-making in selecting optimal interventions for their patients’ wounds. Effective exudate management combined with removal of bacteria and proteases by the new ASFS dressing supports healthcare professional and patient confidence in continuing with daily activities, with the potential for fewer dressing changes and associated resource benefits, warranting further evaluation in clinical practice.
advanced absorption technology, confidence, exudate management, fluid handling, sequestration and retention, wound, wound care, wound dressing, wound healing
365-376
Ousey, Karen
7b0abbb1-217c-4961-8609-e0fd491db131
Garba, Kamaluddeen
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Lwaleed, Bashir
e7c59131-82ad-4a14-a227-7370e91e3f21
Fitzgerald, Daniel
a8e24c78-a863-40ac-bd06-b622faa983b6
Williams, Damaris
21a511e0-7550-42d6-8a1a-80a138e8cad1
Winks, Jessica
bf26d807-baa6-4635-871a-cbacd1a451f4
Brownhill, Varuni
93358a2c-65e1-4964-b9a1-fa2eb09772da
Worsley, Peter
6d33aee3-ef43-468d-aef6-86d190de6756
May 2026
Ousey, Karen
7b0abbb1-217c-4961-8609-e0fd491db131
Garba, Kamaluddeen
9555057b-3d45-4b9c-a220-ecb4a16faa69
Lwaleed, Bashir
e7c59131-82ad-4a14-a227-7370e91e3f21
Fitzgerald, Daniel
a8e24c78-a863-40ac-bd06-b622faa983b6
Williams, Damaris
21a511e0-7550-42d6-8a1a-80a138e8cad1
Winks, Jessica
bf26d807-baa6-4635-871a-cbacd1a451f4
Brownhill, Varuni
93358a2c-65e1-4964-b9a1-fa2eb09772da
Worsley, Peter
6d33aee3-ef43-468d-aef6-86d190de6756
Ousey, Karen, Garba, Kamaluddeen, Lwaleed, Bashir, Fitzgerald, Daniel, Williams, Damaris, Winks, Jessica, Brownhill, Varuni and Worsley, Peter
(2026)
Addressing wound healing barriers to optimise wound progression: investigating the advanced benefits of a next-generation multilayer foam dressing.
Journal of Wound Care, 35 (5), .
(doi:10.12968/jowc.2026.0135).
Abstract
Objective: Excess wound exudate can cause tissue maceration and delayed healing. Fluctuating exudate levels, combined with the impact of gravity, increase dressing leakage risk, affecting patient quality of life. Bacteria and proteases found in hard-to-heal (chronic) wounds pose additional barriers to healing if not promptly removed. Absorbent
dressings must therefore address these multiple challenges, and so were explored in this series of preclinical investigations. Method: Standard in vitro absorbency tests were conducted to compare the performance of several dressings with a new advanced five‑layer silicone polyurethane foam dressing with superabsorbent particles (ASFS). Dressing functionality was explored using clinically relevant test conditions, including the impact of gravity and fluid bolus events on absorbency, combined with the dressing’s ability to
absorb and retain bacteria and proteases. Results: ASFS demonstrated superior performance across standard absorbency tests versus most of the alternative absorbent dressings and outperformed a comparator five‑layer silicone foam dressing with superabsorbent fibres (SFD) in run-off testing. Under clinically relevant dynamic bolus conditions, including gravitational challenge, no leakage was observed with ASFS, whereas dressing failure due to fluid spill or leakage was observed with SFD. ASFS was also shown to retain matrix metalloproteinases and the majority of bacteria, even under increasing fluid volumes. Conclusion: Functionality of absorbent wound dressings in both
standard and clinically relevant tests is critical to support healthcare professionals’ decision-making in selecting optimal interventions for their patients’ wounds. Effective exudate management combined with removal of bacteria and proteases by the new ASFS dressing supports healthcare professional and patient confidence in continuing with daily activities, with the potential for fewer dressing changes and associated resource benefits, warranting further evaluation in clinical practice.
Text
Allevyn Complete Care preclinical. Manuscript Final draft for review.20MAR INFOR.CLEAN.
- Accepted Manuscript
Restricted to Repository staff only until 21 October 2026.
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JoWC_2026_35_5_000_ final proof
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More information
Accepted/In Press date: 27 March 2026
e-pub ahead of print date: 21 April 2026
Published date: May 2026
Keywords:
advanced absorption technology, confidence, exudate management, fluid handling, sequestration and retention, wound, wound care, wound dressing, wound healing
Identifiers
Local EPrints ID: 511872
URI: http://eprints.soton.ac.uk/id/eprint/511872
ISSN: 0969-0700
PURE UUID: 0cf2f2cc-628e-4267-96db-7b28e845b31f
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Date deposited: 08 Jun 2026 16:51
Last modified: 09 Jun 2026 02:04
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Contributors
Author:
Karen Ousey
Author:
Kamaluddeen Garba
Author:
Daniel Fitzgerald
Author:
Damaris Williams
Author:
Jessica Winks
Author:
Varuni Brownhill
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