Porous silicon nitride–based drug delivery carrier Michal Hičák, Ľubomír Medvecký, Miroslav Hnatko, Radoslava Stulajterová, Mária Giretová, Monika Tatarková, Zoltán Lenčéš, Pavol Šajgalík Abstract Tetracalcium phosphate/monetite biocement was modified with the addition of 30 wt% highly porous silicon nitride/α-tricalcium phosphate (α-TCP) microgranules. The volume ratio of Si3N4 and α-TCP in microgranules was 1:1 and showed good… Continue reading Porous silicon nitride–based drug delivery carrier
Tag: drug delivery
Nanoembedded Microparticles for Stabilization and Delivery of Drug-Loaded Nanoparticles
Nanoembedded Microparticles for Stabilization and Delivery of Drug-Loaded Nanoparticles Bohr A, Water J, Beck-Broichsitter M, Yang M Abstract Nanoparticle-based pharmaceutical products are currently finding their way onto the market as a popular strategy to improve the therapeutic efficacy of numerous drugs, hereunder medications for a targeted treatment of severe diseases (e.g., cancer). Drug-loaded polymer and… Continue reading Nanoembedded Microparticles for Stabilization and Delivery of Drug-Loaded Nanoparticles
Needle-free ballistic powder delivery
Needle-free ballistic powder delivery by applying Freeze Granulation you will be able to make microparticles with high insulin loading (nanosuspension) suitable for needle-free ballistic drug delivery. The resulting granules are homogeneous and robust with a diameter of around 50-150 µm, with a narrow size distribution and a high content of insulin. Please contact us and… Continue reading Needle-free ballistic powder delivery
Needle-free ballistic powder delivery
By applying Freeze Granulation you will be able to make microparticles with high insulin loading (nanosuspension) suitable for needle-free ballistic drug delivery. The resulting granules are homogeneous and robust with a diameter of around 50-150 µm, with a narrow size distribution and a high content of insulin.