2004
DOI: 10.1016/j.jconrel.2004.01.014
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DSIMS characterization of a drug-containing polymer-coated cardiovascular stent

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Cited by 13 publications
(10 citation statements)
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“…In addition, the sputter rate is significantly reduced when employing atomic beams, such that only dynamic SIMS instruments are typically used. There are several examples of polymeric depth profiling with atomic beams including PS (Whitlow & Wool, 1989, 1991Zhao et al, 1991;Shwarz et al, 1992;Liu et al, 1995;Zheng et al, 1995;Strzhemechny et al, 1997;Rysz et al, 1999;Yokoyama et al, 1999;Shin et al, 2001;Hu et al, 2003;Lin et al, 2003;Harton, Stevie, & Ade, 2006a,b,c;Harton et al, 2006d), PAMA (Valenty et al, 1984), PBMA (Verhoeven et al, 2004), PEVA (Verhoeven et al, 2004), PC (Valenty et al, 1984), PVDF (Chujo, 1991), PEO (Mattsson et al, 2000;Huang et al, 2001), PMMA (Chujo, 1991;Huang et al, 2001;Hu et al, 2003;Harton, Stevie, & Ade, 2006a,b,c;Harton et al, 2006d), polydimethyl phenylene oxide (PDPO) (Lin et al, 2003), PVP (Zheng et al, 1995;Pinto, Novak, & Nicholas, 1999;Yokoyama et al, 1999;Harton, Stevie, & Ade, 2006a,b;Harton et al, 2006d), PPV and other polymer based LED materials Bulle-Lieuwma & van de Weijer, 2006), solar cell materials (Bulle-Lieuwma et al, 2003), conducting polymers (Gray et al, 1992), video tapes (Chujo, 1991), silicones …”
Section: B Atomic Ion Bombardment Of Polymersmentioning
confidence: 99%
“…In addition, the sputter rate is significantly reduced when employing atomic beams, such that only dynamic SIMS instruments are typically used. There are several examples of polymeric depth profiling with atomic beams including PS (Whitlow & Wool, 1989, 1991Zhao et al, 1991;Shwarz et al, 1992;Liu et al, 1995;Zheng et al, 1995;Strzhemechny et al, 1997;Rysz et al, 1999;Yokoyama et al, 1999;Shin et al, 2001;Hu et al, 2003;Lin et al, 2003;Harton, Stevie, & Ade, 2006a,b,c;Harton et al, 2006d), PAMA (Valenty et al, 1984), PBMA (Verhoeven et al, 2004), PEVA (Verhoeven et al, 2004), PC (Valenty et al, 1984), PVDF (Chujo, 1991), PEO (Mattsson et al, 2000;Huang et al, 2001), PMMA (Chujo, 1991;Huang et al, 2001;Hu et al, 2003;Harton, Stevie, & Ade, 2006a,b,c;Harton et al, 2006d), polydimethyl phenylene oxide (PDPO) (Lin et al, 2003), PVP (Zheng et al, 1995;Pinto, Novak, & Nicholas, 1999;Yokoyama et al, 1999;Harton, Stevie, & Ade, 2006a,b;Harton et al, 2006d), PPV and other polymer based LED materials Bulle-Lieuwma & van de Weijer, 2006), solar cell materials (Bulle-Lieuwma et al, 2003), conducting polymers (Gray et al, 1992), video tapes (Chujo, 1991), silicones …”
Section: B Atomic Ion Bombardment Of Polymersmentioning
confidence: 99%
“…The porcine stented arterial segments were excised at different time points, and the amount of residual drug on the stent was measured using high‐performance liquid chromatography technique. The description of this technique, which is very commonly used to determine release rates of drugs from stent coatings,20–22 is not discussed here. The residual amount of drug in the stent coating at a particular time point is subtracted from the total amount of drug in the stent at time t = 0 to determine the amount of drug released from the stent till that time point.…”
Section: Methodsmentioning
confidence: 99%
“…The stent coatings need to satisfy many of the physical, biological, and regulatory criteria before they can be deemed suitable, therefore, the most important factir is to choose a suitable and convenient method for coating the stent. The coating solution is often applied to the stent in the traditional manner in which liquid solution is applied, such as, dipping, spraying, or brushing 26–28. Of late, the layer‐by‐layer (LBL) assembly technology, a technique in which nanoscale layers of polyanions and polycations are dipped onto a charged surface from aqueous baths, constitutes a powerful tool, with applications ranging from electrochemical thin films to biocatalysis 29.…”
Section: Introductionmentioning
confidence: 99%