Human neutrophil elastase and collagenase sequestration with phosphorylated cotton wound dressings.
@article{Edwards2007HumanNE,
title={Human neutrophil elastase and collagenase sequestration with phosphorylated cotton wound dressings.},
author={Judson Vincent Edwards and Phyllis S. Howley},
journal={Journal of biomedical materials research. Part A},
year={2007},
volume={83 2},
pages={
446-54
}
}The design and preparation of wound dressings that redress the protease imbalance in chronic wounds is an important goal of wound healing and medical materials science. Chronic wounds contain high levels of tissue and cytokine-destroying proteases including matrix metalloprotease and neutrophil elastase. Thus, the lowering of excessive protease levels in the wound environment by wound dressing sequestration prevents the breakdown of extracellular matrix proteins and growth factors necessary for…
39 Citations
Thrombin Production and Human Neutrophil Elastase Sequestration by Modified Cellulosic Dressings and Their Electrokinetic Analysis
- BiologyJournal of functional biomaterials
- 2011
Electrokinetic fiber surface properties of the biomaterials of this study were determined to correlate material charge and polarity with function relative to thrombin production and elastase sequestration.
Positively and negatively charged ionic modifications to cellulose assessed as cotton-based protease-lowering and hemostatic wound agents
- Biology
- 2009
Three finishing chemistries utilizing traditional pad-dry-cure approaches were explored for their potential to confer charged properties to cotton dressings to lower protease levels in the chronic wound and promote clotting in hemorrhaging wounds.
Characterization of potential elastase inhibitor-peptides regulated by a molecular switch for wound dressings applications.
- Biology, ChemistryEnzyme and microbial technology
- 2012
and Brian Manufacture of a Phosphorylated Cotton Chronic Wound Dressing Development of a Continuous Finishing Chemistry Process
- Biology
- 2009
A phosphorylated form of cotton gauze for treatment of chronic wounds was designed to improve the wound dressing’s capacity to remove harmful proteases from the wound and facilitate healing and two phosphorylation reagents were compared for their ability to phosphorylate cotton in a urea-based formulation and yield an active, effective dressing, with a high whiteness index.
Influence of secretory leukocyte protease inhibitor‐based peptides on elastase activity and their incorporation in hyaluronic acid hydrogels for chronic wound therapy
- Biology, ChemistryBiopolymers
- 2012
Although, only moderated elastase inhibition was observed, these peptides represent potential candidates for chronic wound applications, as there is no need for complete elast enzyme inhibition in the normal wound healing process.
NMR and molecular modelling studies on elastase inhibitor-peptides for wound management
- Biology, Chemistry
- 2013
Development of a Continuous Finishing Chemistry Process for Manufacture of a Phosphorylated Cotton Chronic Wound Dressing
- Biology
- 2009
Finishing formulations combining the two phosphorylating reagents, DAP and SMP: urea, were assessed to improve both whiteness and efficacy, and found to be most optimal for whiteness, efficacy and ease of sterilization, when adapted to industrial scale production of the cotton chronic wound dressing.
Microbial alginate dressings show improved binding capacity for pathophysiological factors in chronic wounds compared to commercial alginate dressings of marine origin
- Biology, MedicineJournal of biomaterials applications
- 2017
Alginates from bacteria might be a superior future medical product for clinical use because of its possible positive effects on wound healing and the enhanced binding affinity by microbial alginate of Azotobacter vinelandii to pathophysiological factors may be interesting to support optimal conditions for wound healing.
Restoring balance: biofilms and wound dressings.
- BiologyJournal of wound care
- 2018
The aim of the paper is to review the ideal characteristics of wound dressings, in conjunction with antimicrobials, that are considered a fundamental part of an antibiofilm strategy and growing requirement for enhanced wound healing.
Ovine forestomach matrix biomaterial is a broad spectrum inhibitor of matrix metalloproteinases and neutrophil elastase
- BiologyInternational wound journal
- 2014
An extract of OFM was shown to be a potent inhibitor of a range of tissue MMPs and NE and may provide a clinical advantage by more effectively addressing the protease imbalance seen in chronic wounds.
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