Bioactive Coatings of Endovascular Stents Based on Polyelectrolyte Multilayers

Thierry, Benjamin; Winnik, Françoise M.; Merhi, Yahye; Silver, Jim; Tabrizian, Maryam

doi:10.1021/bm0341834

Cited by 310 publications

(305 citation statements)

References 38 publications

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“…12-14 However, these polymers present challenges due to their poor mechanical properties and limited ability to sustain stent expansion and deployment, often requiring crosslinking and related treatments to enhance durability, which in turn alters biological responses. [12][13][14] Silks represent a new family of advanced biomaterials, which should help to overcome some of these key limitations in both coated-stent technology and the favorable clinical outcomes possible. A naturally-occurring biopolymer, silk fibroin has high strength, mechanical toughness, robust flexibility, while sustaining excellent biocompatibility, therein presenting considerable utility for a number of difficult-to-solve human therapeutic interventions.…”

Section: Introductionmentioning

confidence: 99%

Controlled release from multilayer silk biomaterial coatings to modulate vascular cell responses

et al. 2008

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A multilayered silk fibroin protein coating system was employed as a drug carrier and delivery system to evaluate vascular cell responses to heparin, paclitaxel, and clopidogrel. The results demonstrated that the silk coating system was an effective system for drug-eluting coatings, such as for stent applications, based on its useful micromechanical properties and biological outcomes. Cell attachment and viability studies with human aortic endothelial cells (HAECs) and human coronary artery smooth muscle cells (HCASMCs) on the drug-incorporated silk coatings demonstrated that paclitaxel and clopidogrel inhibited smooth muscle cell proliferation and retarded endothelial cell proliferation. Heparin loaded silk multilayers promoted HAEC proliferation while inhibiting HCASMC proliferation, desired outcomes for the prevention of restenosis. The preservation of the phenotype of endothelial cells on silk and heparin loaded silk coatings was confirmed with the presence of endothelial markers CD-31, CD-146, vWF and VE-Cadherin using immunocytochemistry assays. A preliminary in-vivo study in a porcine aorta showed integrity of the silk coatings after implantation and the reduction of platelet adhesion on the heparin-loaded silk coatings.

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Section: Introductionmentioning

confidence: 99%

Controlled release from multilayer silk biomaterial coatings to modulate vascular cell responses

et al. 2008

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“…17,18 In addition, recent studies have shown that there are many other promising applications for multilayered materials in such areas as drug delivery, sensors, wound healing, and membrane filtration. [19][20][21][22] Hyaluronic acid (HA) is a linear polysaccharide composed of repeating disaccharide units of D-glucuronic acid and N-acetyl-D-glucosamine. 23 In dilute solution the conformation of the HA chains can be converted from a random coil to a single helical structure with a change in pH or ionic strength.…”

Section: Introductionmentioning

confidence: 99%

Swelling Behavior of Hyaluronic Acid/Polyallylamine Hydrochloride Multilayer Films

Burke

Barrett

2005

Biomacromolecules

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The reversible swelling behavior of multilayer films containing hyaluronic acid and polyallylamine hydrochloride was investigated using in situ ellipsometry, since many of the natural functions and applied uses of hyaluronic acid are related to the extraordinary ability of this biopolymer to swell, and to respond conformationally to the local solution environment. This swelling was observed to be substantial, and depended strongly on the film thickness, the pH conditions used to prepare the films, and the swelling solution pH and ionic strength. The swelling results were also rationalized in terms of the dissociation behavior of the polyelectrolytes in the multilayer assemblies, measured by the potential, on colloidal particles. The films were found to swell by as much as 8 times their dry thickness, and the extent of film hydration was observed to depend on the thickness of the films in a nonlinear fashion. This was related to the internal structure of the films, which is dictated by the assembly pH conditions. In addition, the swelling solution pH and ionic strength influence the electrostatic environment in the films and, in turn, have a substantial effect on the overall swelling behavior.

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“…Self-assembled multilayer architectures can be built by using macromolecules or materials as different as polyelectrolytes, proteins, inorganic complexes, clay platelets, or colloidal particles, all adsorbed from aqueous solutions or suspensions. Although complex multilayered architectures were shown to deliver a variety of molecules including drugs (4)(5)(6)(7)(8) and DNA (9)(10)(11)(12), it is unknown whether this technique is feasible for the sustained delivery of siRNAs.…”

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confidence: 99%

Sustained delivery of siRNAs targeting viral infection by cell-degradable multilayered polyelectrolyte films

Dimitrova

Affolter

Meyer

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

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Bioactive Coatings of Endovascular Stents Based on Polyelectrolyte Multilayers

Cited by 310 publications

References 38 publications

Controlled release from multilayer silk biomaterial coatings to modulate vascular cell responses

Controlled release from multilayer silk biomaterial coatings to modulate vascular cell responses

Swelling Behavior of Hyaluronic Acid/Polyallylamine Hydrochloride Multilayer Films

Sustained delivery of siRNAs targeting viral infection by cell-degradable multilayered polyelectrolyte films

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