Add to ORKGCHEMECA 2010Numerous mesoporous materials have been investigated in the last two decades to address therapeutic problems in drug delivery; for instance, poor bioavailability, low biodistribution, limited drug solubility, lack of selectivity and undesirable pharmacokinetics. In this work, a novel concept of using a silica-based natural mineral, referred to as diatomaceous earth (DE), as a drug carrier is explored. DE is formed from algae, a type of unicellular phytoplankton, through its silica shells (frustules) growth with ordered porous structures. To prove this concept we investigate loading and release of indomethacin, a poorly soluble drug from DE microparticles. The carrying capacity of DE was 22 wt % whereas indomethacin molecules in ...
Diatomite is a natural porous silica material of sedimentary origin, formed by remains of diatom ske...
Drug delivery using synthetic nanoparticles including porous silicon has been extensively used to ov...
Current development of drug microcarriers is mainly based on spherical shapes, which are not biologi...
Nature has developed an elegant biologically based self-assembling synthetic route to produce silica...
Aim: This study explores the use of natural silica-based porous material from diatoms, known as diat...
Nature has developed an elegant biologically based self-assembling synthetic route to produce silica...
Naturally available and biocompatible materials are potential substitutes for synthetic mesoporous m...
Diatomaceous earth (DE), or diatomite silica microparticles originated from fossilized diatoms are a...
Diatoms are unicellular photosynthetic algae enclosed in porous 3D nanopatterned silica enclosures c...
Diatom microalgae are the most outstanding natural source of porous silica. The diatom cell is enclo...
Diatom microalgae are the most outstanding natural source of porous silica. The diatom cell is enclo...
Diatom microalgae are the most outstanding natural source of porous silica. The diatom cell is enclo...
Drug delivery using synthetic nanoparticles including porous silicon has been extensively used to ov...
Diatoms are porous silica-based materials obtained from single cell photosynthetic algae. Despite lo...
Current development of drug microcarriers is mainly based on spherical shapes, which are not biologi...
Diatomite is a natural porous silica material of sedimentary origin, formed by remains of diatom ske...
Drug delivery using synthetic nanoparticles including porous silicon has been extensively used to ov...
Current development of drug microcarriers is mainly based on spherical shapes, which are not biologi...
Nature has developed an elegant biologically based self-assembling synthetic route to produce silica...
Aim: This study explores the use of natural silica-based porous material from diatoms, known as diat...
Nature has developed an elegant biologically based self-assembling synthetic route to produce silica...
Naturally available and biocompatible materials are potential substitutes for synthetic mesoporous m...
Diatomaceous earth (DE), or diatomite silica microparticles originated from fossilized diatoms are a...
Diatoms are unicellular photosynthetic algae enclosed in porous 3D nanopatterned silica enclosures c...
Diatom microalgae are the most outstanding natural source of porous silica. The diatom cell is enclo...
Diatom microalgae are the most outstanding natural source of porous silica. The diatom cell is enclo...
Diatom microalgae are the most outstanding natural source of porous silica. The diatom cell is enclo...
Drug delivery using synthetic nanoparticles including porous silicon has been extensively used to ov...
Diatoms are porous silica-based materials obtained from single cell photosynthetic algae. Despite lo...
Current development of drug microcarriers is mainly based on spherical shapes, which are not biologi...
Diatomite is a natural porous silica material of sedimentary origin, formed by remains of diatom ske...
Drug delivery using synthetic nanoparticles including porous silicon has been extensively used to ov...
Current development of drug microcarriers is mainly based on spherical shapes, which are not biologi...