2012
DOI: 10.3390/coatings2010045
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Polyurethane Organosilicate Nanocomposites as Blood Compatible Coatings

Abstract: Polymer clay nanocomposites (NCs) show remarkable potential in the field of drug delivery due to their enhanced barrier properties. It is hypothesised that well dispersed clay particles within the polymer matrix create a tortuous pathway for diffusing therapeutic molecules, thereby resulting in more sustained release of the drug. As coatings for medical devices, these materials can simultaneously modulate drug release and improve the mechanical performance of an existing polymer system without introducing addi… Show more

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Cited by 3 publications
(3 citation statements)
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“…A disadvantage to this approach was the interactions that occurred between the bioactive molecule and the nanocomposite components. 13,14 In related research, it was also demonstrated that the organic molecules used to enhance dispersion of silicate nanoparticles can be released from PUNCs and impact biological interactions. 15,16 This study will address the hypothesis that OMs used to prepare the silicates incorporated into PU matrixes are surface expressed via diffusive migration and, through this expression, can directly impact on biological interactions.…”
Section: Introductionmentioning
confidence: 97%
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“…A disadvantage to this approach was the interactions that occurred between the bioactive molecule and the nanocomposite components. 13,14 In related research, it was also demonstrated that the organic molecules used to enhance dispersion of silicate nanoparticles can be released from PUNCs and impact biological interactions. 15,16 This study will address the hypothesis that OMs used to prepare the silicates incorporated into PU matrixes are surface expressed via diffusive migration and, through this expression, can directly impact on biological interactions.…”
Section: Introductionmentioning
confidence: 97%
“…Another approach is direct inclusion of bioactive molecules into polymers. Specifically, Chung et al 13 showed that heparin released from PUNCs perturbed blood-material interactions. A disadvantage to this approach was the interactions that occurred between the bioactive molecule and the nanocomposite components.…”
Section: Introductionmentioning
confidence: 98%
“…These properties, along with their excellent biocompatibility, have led to widespread research into their viability in biomedical applications. PU films have proven to be well suited for numerous medical-grade applications, including the use of protective coating on implantable devices [15]. Another example of PUs is the use as drug-release carriers, which either degrade to release drugs into a patient or have the drugs attached externally so that they will directly degrade over time [16].…”
Section: Introductionmentioning
confidence: 99%