Silica nanoparticles to control the lipase-mediated digestion of lipid-based oral delivery systems
We investigate the role of hydrophilic fumed silica in controlling the digestion kinetics of lipid
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
[PDF][PDF] Silica Nanoparticles To Control the Lipase-Mediated Digestion of Lipid-Based Oral Delivery Systems
A Tan, S Simovic, AK Davey, T Rades, BJ Boyd… - drugs, 2003 - academia.edu
We investigate the role of hydrophilic fumed silica in controlling the digestion kinetics of lipid
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
Silica nanoparticles to control the lipase-mediated digestion of lipid-based oral delivery systems.
A Tan, S Simovic, AK Davey, T Rades… - Molecular …, 2010 - europepmc.org
We investigate the role of hydrophilic fumed silica in controlling the digestion kinetics of lipid
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
Silica nanoparticles to control the lipase-mediated digestion of lipid-based oral delivery systems
A Tan, S Simovic, A Davey, T Rades… - Molecular …, 2010 - research.monash.edu
We investigate the role of hydrophilic fumed silica in controlling the digestion kinetics of lipid
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
Silica nanoparticles to control the lipase-mediated digestion of lipid-based oral delivery systems
A Tan, S Simovic, A Davey, T Rades, B Boyd… - 2010 - digital.library.adelaide.edu.au
We investigate the role of hydrophilic fumed silica in controlling the digestion kinetics of lipid
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
[引用][C] Silica Nanoparticles To Control the Lipase-Mediated Digestion of Lipid-Based Oral Delivery Systems
A Tan, S Simovic, AK Davey, T Rades, BJ Boyd… - Molecular …, 2010 - infona.pl
Silica Nanoparticles To Control the Lipase-Mediated Digestion of Lipid-Based Oral Delivery
Systems × Close The Infona portal uses cookies, ie strings of text saved by a browser on the …
Systems × Close The Infona portal uses cookies, ie strings of text saved by a browser on the …
Silica nanoparticles to control the lipase-mediated digestion of lipid-based oral delivery systems
A Tan, S Simovic, AK Davey, T Rades… - Molecular …, 2010 - pubmed.ncbi.nlm.nih.gov
We investigate the role of hydrophilic fumed silica in controlling the digestion kinetics of lipid
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
emulsions, hence further exploring the mechanisms behind the improved oral absorption of …
[引用][C] Silica nanoparticles to control the lipase-mediated digestion of lipid-based oral delivery systems
Molecular Pharmaceutics, 2010