Confinement and Controlled Release of Bisphosphonates on Ordered Mesoporous Silica-Based Materials

Bisphosphonates have been confined in siliceous ordered mesoporous materials, and the drug release rate of these systems has been investigated. The bisphosphonate adsorption rate has been increased from 1% in oral administration to around 40% locally delivered. Drug dosage can be modulated through a...

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Veröffentlicht in:	Journal of the American Chemical Society 2006-06, Vol.128 (25), p.8116-8117
Hauptverfasser:	Balas, Francisco, Manzano, Miguel, Horcajada, Patricia, Vallet-Regí, María
Format:	Artikel
Sprache:	eng
Schlagworte:	Adsorption Alendronate - chemistry Bone Density Conservation Agents - chemistry Chemistry Drug Carriers - chemistry Exact sciences and technology General and physical chemistry Organophosphonates - chemistry Porosity Silicon Dioxide - chemistry Solid-liquid interface Surface physical chemistry Surface Properties
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creator	Balas, Francisco Manzano, Miguel Horcajada, Patricia Vallet-Regí, María
description	Bisphosphonates have been confined in siliceous ordered mesoporous materials, and the drug release rate of these systems has been investigated. The bisphosphonate adsorption rate has been increased from 1% in oral administration to around 40% locally delivered. Drug dosage can be modulated through amine modification of the material surface, leading to a bisphosphonate adsorption in the ordered mesoporous matrices 3 times larger than that for unmodified materials. The use of these drug delivery systems opens new fields with new possibilities for tissue engineering.
doi_str_mv	10.1021/ja062286z
format	Article
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subjects	Adsorption Alendronate - chemistry Bone Density Conservation Agents - chemistry Chemistry Drug Carriers - chemistry Exact sciences and technology General and physical chemistry Organophosphonates - chemistry Porosity Silicon Dioxide - chemistry Solid-liquid interface Surface physical chemistry Surface Properties
title	Confinement and Controlled Release of Bisphosphonates on Ordered Mesoporous Silica-Based Materials
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