Other formats:
BibTeX
LaTeX
RIS
@proceedings{2230924, author = {Macků, Jan and Kubová, Kateřina and Koutná, Gabriela and Čubová Urbanová, Martina and Mašková, Eliška and Mašek, Josef and Pavelková, Miroslava and Muselík, Jan and Vysloužil, Jakub and Franc, Aleš and Vetchý, David and Brus, Jiří}, booktitle = {NanoMed 2022}, keywords = {thymol; solid self-emulsifying systems; ssNMR; drug delivery}, language = {eng}, title = {Gastro-resistant self-emulsifying pellets as a stable delivery system for volatile monoterpene plant drug}, url = {https://www.setcor.org/conferences/nanomed-2022}, year = {2022} }
TY - CONF ID - 2230924 AU - Macků, Jan - Kubová, Kateřina - Koutná, Gabriela - Čubová Urbanová, Martina - Mašková, Eliška - Mašek, Josef - Pavelková, Miroslava - Muselík, Jan - Vysloužil, Jakub - Franc, Aleš - Vetchý, David - Brus, Jiří PY - 2022 TI - Gastro-resistant self-emulsifying pellets as a stable delivery system for volatile monoterpene plant drug KW - thymol KW - solid self-emulsifying systems KW - ssNMR KW - drug delivery UR - https://www.setcor.org/conferences/nanomed-2022 N2 - To avoid standard therapies for gastrointestinal inflammatory diseases, an interest in finding new alternatives is rising. Plant monoterpene substances, such as thymol, carvacrol, eugenol, etc., exhibit many valuable biological activities in treating intestinal inflammation. The basic problem is that monoterpenes are volatile hydrophobic substances with poor oral bioavailability. Thymol is only partially absorbed mainly from the stomach, resulting in a 16% bioavailability. It is cumulated in a higher amount of intestinal mucosa. Thymol could be incorporated into solid self-emulsifying (SE) pellets with gastro-resistant properties to overcome drawbacks and support intestinal wall cumulation. During pellets formulation by extrusion/spheronisation, liquid and solid phases are in temporary or permanent contact. It opens the scope for interactions, instabilities, and components transfer within the dosage form. Therefore, a deep investigation of such a system by solid-state nuclear magnetic resonance spectroscopy (ss-NMR) is also necessary. ss-NMR spectroscopy confirms that thymol and SES molecules forms homogenous liquid films/phases on the surface. A more detailed investigation revealed that the thymol molecules in the uncoated sample with long-time prepareation exhibited lower molecular dynamics compared to shorter methods, indicating a higher impact of interactions between the Neusilin surface and drug. ER -
MACKŮ, Jan, Kateřina KUBOVÁ, Gabriela KOUTNÁ, Martina ČUBOVÁ URBANOVÁ, Eliška MAŠKOVÁ, Josef MAŠEK, Miroslava PAVELKOVÁ, Jan MUSELÍK, Jakub VYSLOUŽIL, Aleš FRANC, David VETCHÝ and Jiří BRUS. Gastro-resistant self-emulsifying pellets as a stable delivery system for volatile monoterpene plant drug. In \textit{NanoMed 2022}. 2022.
|