David Wood scite author profile

Biological hydrogels have been increasingly sought after as wound dressings or scaffolds for regenerative medicine, owing to their inherent biofunctionality in biological environments. Especially in moist wound healing, the ideal material should absorb large amounts of wound exudate while remaining mechanically competent in situ. Despite their large hydration, however, current biological hydrogels still leave much to be desired in terms of mechanical properties in physiological conditions. To address this challenge, a multi-scale approach is presented for the synthetic design of cyto-compatible collagen hydrogels with tunable mechanical properties (from the nano- up to the macro-scale), uniquely high swelling ratios and retained (more than 70%) triple helical features. Type I collagen was covalently functionalized with three different monomers, i.e. 4-vinylbenzyl chloride, glycidyl methacrylate and methacrylic anhydride, respectively. Backbone rigidity, hydrogen-bonding capability and degree of functionalization (F: 16 ± 12–91 ± 7 mol%) of introduced moieties governed the structure–property relationships in resulting collagen networks, so that the swelling ratio (SR: 707 ± 51–1996 ± 182 wt%), bulk compressive modulus (Ec: 30 ± 7–168 ± 40 kPa) and atomic force microscopy elastic modulus (EAFM: 16 ± 2–387 ± 66 kPa) were readily adjusted. Because of their remarkably high swelling and mechanical properties, these tunable collagen hydrogels may be further exploited for the design of advanced dressings for chronic wound care.

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The effect of 24h non-stop hydrogen peroxide concentration on bovine enamel and dentine mineral content and microhardness

Al-Salehi

Wood

Hatton

2007

Journal of Dentistry

106

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Translucent zirconia in the ceramic scenario for monolithic restorations: A flexural strength and translucency comparison test

Carrabba

Keeling

Aziz

et al. 2017

Journal of Dentistry

115

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Hydrothermal synthesis of hydroxyapatite

Earl

Wood

Milne

2006

J. Phys.: Conf. Ser.

121

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David Wood

Report on a WHO consultation on immunological endpoints for evaluation of new Japanese encephalitis vaccines, WHO, Geneva, 2–3 September, 2004

Genetic Basis of Attenuation of the Sabin Type 2 Vaccine Strain of Poliovirus in Primates

Microcomputerised tomography evaluation of 10% carbamide peroxide applied to enamel

Failure to clear persistent vaccine-derived neurovirulent poliovirus infection in an immunodeficient man

Multi-scale mechanical characterization of highly swollen photo-activated collagen hydrogels

The effect of 24h non-stop hydrogen peroxide concentration on bovine enamel and dentine mineral content and microhardness

Translucent zirconia in the ceramic scenario for monolithic restorations: A flexural strength and translucency comparison test

Hydrothermal synthesis of hydroxyapatite

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