Hydro-responsive wound dressings for treating hard-to-heal wounds: a narrative review of the clinical evidence—part 2

Rippon, Mark; Forster, Jan; Rogers, Alan A

doi:10.12968/jowc.2022.31.4.330

J Wound Care

2022

DOI: 10.12968/jowc.2022.31.4.330

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Hydro-responsive wound dressings for treating hard-to-heal wounds: a narrative review of the clinical evidence—part 2

Mark Rippon

Jan Forster

Alan A Rogers³

Abstract: This narrative clinical review summarises the key evidence in support for the use of a hydro-responsive wound dressing, HydroTac (HRWD-2, PAUL HARTMANN AG, Germany) to address key aspects associated with the treatment of both acute and hard-to-heal wounds. This review demonstrates how HRWD-2 can be used in general to address the challenges presented by a wide range of wound types and skin injuries. It highlights the ability of HRWD-2 to regulate an optimal moist wound environment that promotes wound progressio… Show more

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Cited by 2 publications

References 34 publications

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Development of HEMA‐Succinic Acid‐PEG Bio‐Based Monomers for High‐Performance Hydrogels in Regenerative Medicine

Rayat Pisheh,

Sabzevari,

Ansari

et al. 2024

Biopolymers

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In recent years, hydrogels have found a special place in regenerative medicine for tissue repair, rehabilitation, and drug delivery. To be used in regenerative medicine, hydrogels must have desirable physical, chemical, and biological properties. In this study, a new biomonomer based on hydroxyethyl methacrylate‐succinic acid‐polyethylene glycol 200 (HEMA‐Suc‐PEG) was synthesized and characterized. Then, using the synthesized monomers and different ratios of polyethylene glycol diacrylate (PEGDA) as a crosslinker, biocompatible hydrogels were synthesized through thermal and UV curing methods. The mechanical, physical, chemical, and biological properties of the hydrogels and the behavior of endothelial cells, an essential component of the cardiovascular system, were evaluated. The results showed that the hydrogel synthesized with 0.2 g of PEGDA (UV curing) has desirable mechanical and physical properties. Biological tests showed that these hydrogels are not only nontoxic to cells but also enhance cell adhesion. Therefore, the hydrogel containing the synthesized monomer HEMA‐Suc‐PEG and 0.2 g of PEGDA has the potential to be used in the cardiovascular system.

show abstract

Development of HEMA‐Succinic Acid‐PEG Bio‐Based Monomers for High‐Performance Hydrogels in Regenerative Medicine

Rayat Pisheh,

Sabzevari,

Ansari

et al. 2024

Biopolymers

View full text Add to dashboard Cite

show abstract

HydroTac—a hydro-responsive wound dressing: a review of the in vitro evidence

Rippon

Mikosiński²,

Rogers³

2022

J Wound Care

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Aim: The aim of this review is to identify and summarise the key in vitro evidence available to support the use of HydroTac (HRWD-2) to address specific aspects associated with the treatment of both acute and hard-to-heal wounds. Background: The provision of a moist wound healing environment to support optimal wound healing has been a basic tenet in wound care since the pioneering work on the benefits of occlusion to support wound healing. Modern wound dressings have adopted the benefits of moist healing through their innovative development. HRWD-2 has been shown in clinical studies to enable and support good healing outcomes and the in vitro evidence in support of this dressing is presented in this article. Method: An online literature search (supplemented with a manual search of resources not available online) was conducted to identify articles and studies describing in vitro evidence in support of HRWD-2 in aspects important for promoting a healing response in the clinical environment. Results: In vitro studies showed that HRWD-2 contributes to balancing moisture levels and enhances the availability of growth factors known to be important for re-epithelialisation. Pre-clinical studies indicate that HRWD-2 enhances wound re-epithelialisation. Together these results suggest that HRWD-2 promotes a moist healing environment leading to the dressing supporting re-epithelialisation. In vitro data indicating an intrinsic lower in vitro adherence of HRWD-2 likely translate clinically to the benefits of an atraumatic wound dressing, including reduced pain (specifically at dressing change). Conclusion: The in vitro evidence presented in this review supports the successful clinical results reported for HRWD-2 in terms of fluid management, wound healing and pain reduction at dressing change.

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Hydro-responsive wound dressings for treating hard-to-heal wounds: a narrative review of the clinical evidence—part 2

Cited by 2 publications

References 34 publications

Development of HEMA‐Succinic Acid‐PEG Bio‐Based Monomers for High‐Performance Hydrogels in Regenerative Medicine

Development of HEMA‐Succinic Acid‐PEG Bio‐Based Monomers for High‐Performance Hydrogels in Regenerative Medicine

HydroTac—a hydro-responsive wound dressing: a review of the in vitro evidence

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