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Recent advances in porous silicon technology for drug delivery.

Therapeutic delivery (2013-07-26)
Timothy J Barnes, Karyn L Jarvis, Clive A Prestidge
ZUSAMMENFASSUNG

Porous silicon (pSi) is a nanostructured carrier system that has received considerable attention over the past 10 years, for use in a wide variety of biomedical applications, including biosensing, biomedical imaging, tissue scaffolds and drug delivery. This interest is due to several key features of pSi, including excellent in vivo biocompatibility, the ease of surface chemistry modification and the control over its 3D porous network structure. With control of these physical parameters pSi has successfully been used for the delivery of a variety of therapeutics, ranging from small-molecule drugs to larger peptide/protein-type therapeutics. In this review, the authors provide a brief overview of pSi fabrication methods, particularly with regard to the need to passivate the highly reactive Si-Hx surface species of native pSi, typically via thermal oxidation, hydrocarbonization or hydrosilylation. This surface modification, in turn, controls both the loading and release of therapeutics. The authors will then report on specific case studies of leading examples on the use of pSi as a therapeutic-delivery system. Specifically, the first reported in vivo study that demonstrated the use of pSi to improve the delivery of a Biopharmaceutical Classification System Class 2 poorly soluble drug (indomethacin), by using thermally oxidized pSi, is discussed, as well as highlighting a study that determined the biodistribution of (18)F-radiolabeled thermally hydrocarbonized pSi after oral dosing. The authors also report on the development of composite pSi-poly(D,L-lactide-co-glycolide) microparticles for the controlled delivery of protein therapeutics. Finally, the use of pSi in the delivery of bioactives, such as the successful use of thermally carbonized pSi to deliver Melanotan II, an unspecific agonist for the melanocortin receptors that are involved in controlling fluid uptake is discussed. With a growing body of literature reporting the successful use of pSi to deliver a range of therapeutics, we are entering what may be a golden age for this drug-delivery system, which may finally see the long-held promises finally achieved.

MATERIALIEN
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Produktbeschreibung

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Silizium, powder, −325 mesh, 99% trace metals basis
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Silizium, wafer (single side polished), <100>, N-type, contains no dopant, diam. × thickness 2 in. × 0.5 mm
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Silizium, wafer (single side polished), <111>, N-type, contains no dopant, diam. × thickness 2 in. × 0.5 mm
Sigma-Aldrich
Silizium, nanopowder, <100 nm particle size (TEM), ≥98% trace metals basis
Sigma-Aldrich
Silizium, wafer (single side polished), <100>, P-type, contains boron as dopant, diam. × thickness 3 in. × 0.5 mm
Sigma-Aldrich
Silizium, wafer (single side polished), <100>, P-type, contains boron as dopant, diam. × thickness 2 in. × 0.5 mm
Sigma-Aldrich
Silizium, wafer (single side polished), <111>, N-type, contains phosphorus as dopant, diam. × thickness 2 in. × 0.5 mm
Sigma-Aldrich
Silizium, pieces, 99.95% trace metals basis
Sigma-Aldrich
Silizium, wafer (single side polished), <100>, N-type, contains no dopant, diam. × thickness 3 in. × 0.5 mm
Sigma-Aldrich
Silizium, wafer (single side polished), <100>, N-type, contains phosphorus as dopant, diam. × thickness 3 in. × 0.5 mm
Sigma-Aldrich
Silizium, wafer (single side polished), <100>, N-type, contains phosphorus as dopant, diam. × thickness 2 in. × 0.5 mm
Sigma-Aldrich
Silizium, wafer (single side polished), <111>, N-type, contains no dopant, diam. × thickness 3 in. × 0.5 mm
Sigma-Aldrich
Silizium, wafer, <111>, P-type, contains boron as dopant, diam. × thickness 2 in. × 0.3 mm
Sigma-Aldrich
Silizium, wafer (single side polished), <111>, P-type, contains boron as dopant, diam. × thickness 3 in. × 0.5 mm
Silizium, sheet, 10x10mm, thickness 0.5mm, single crystal, -100, 100%
Silikon, rod, 100mm, diameter 12.7mm, single crystal - random orientation, 100%
Silikon, sheet, 10x10mm, thickness 0.6mm, single crystal, -100, 100%
Silikon, disks, 15.9mm, thickness 0.38mm, single crystal, n-type, 100%
Silikon, disks, 15.9mm, thickness 0.38mm, single crystal, n-type, 100%
Silikon, sheet, 25x25mm, thickness 1.0mm, polycrystalline, 99.999%
Silikon, sheet, 52x52mm, thickness 1.0mm, polycrystalline, 99.999%
Silikon, rod, 50mm, diameter 2.0mm, crystalline, 100%
Silikon, rod, 80mm, diameter 20mm, single crystal, -100, 99.999%
Silizium, sheet, 40x40mm, thickness 3.0mm, single crystal, p-type, 100%
Silikon, rod, 40mm, diameter 20mm, single crystal, -100, 99.999%
Silikon, rod, 50mm, diameter 6mm, single crystal, -111, 99.999%
Silikon, rod, 100mm, diameter 5.0mm, crystalline, 100%
Silikon, disks, 13mm, thickness 0.38mm, single crystal, 100%
Silikon, rod, 100mm, diameter 25mm, crystalline, 100%
Silikon, rod, 100mm, diameter 2.0mm, crystalline, 100%