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Hydrogels in wound management
One of the most prevalent applications of hydrogels is wound management. Thanks to their high water content and unique physical properties, hydrogels could potentially resemble biological tissues including human skin. (Peppas et al. 2000, Gupta et al. 2010, Caló & Khutoryanskiy 2014, Jones et al. 2006) There is active interest in the development of new and advanced hydrogel-based products from both an academic and industrial perspective. In fact, hydrogels exhibit many characteristics of the ‘ideal’ wound dressing. These include: the capability of maintaining a moist environment at the wound site allowing gas exchange (moisture vapour transmission), biocompatibility, fast absorption of wound exudate, protection of newly formed or delicate skin and easy and relatively painless dressing removal. (Thomas 1990, Gupta et al. 2010, Vowden & Vowden 2014, Boateng & Catanzano 2015) In this Chapter we will provide the reader with an overview of the most recent hydrogel materials designed for wound management
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Poly(vinyl alcohol)–Gantrez® AN cryogels for wound care applications
Cryotropic gelation is a low cost, well-known technique that has been used for decades for the preparation of cryogels based on poly(vinyl alcohol). This technique does not require addition of any cross-linkers or initiators because a physical cross-linking takes place during the cryotropic gelation. Poly(vinyl alcohol)–Gantrez® AN cryogels with highly porous structure were successfully produced from the aqueous polymer mixtures with addition of 0.4, 0.6 and 0.8% w/v NaOH, which were frozen at −18 °C for approximately 9 hours and then thawed at room temperature (∼25 °C). These cryogels exhibited excellent mechanical properties (with 158–218% elongation to break) and high swelling ability in water (∼40 g of deionized water could be absorbed per 1 g of initial gel within 48 h). They exhibited intrinsic antimicrobial properties against Staphylococcus aureus without the addition of any antimicrobial agent due to the acidic nature of Gantrez® AN and related low pH of these cryogels. The in vitro biocompatibility of these cryogels was assessed using human dermal fibroblasts with very encouraging results. These cryogels are promising for applications in wound care