Progress toward a Colon Targeting Nanoparticle Based Drug Delivery System

Yu, Xiao

2012 May 1900

Hydrophobic drug paclitaxel nanoparticles (PAX NPs) and pH sensitive hydrogels were prepared in this study to build a colon targeting nanoparticle based drug delivery system for oral administration. Negative charged PAX NPs at the size of 110 +/- 10 nm were fabricated, characterized and then encapsulated in synthetic / biomacromolecule shell chitosan, dextran-sulfate using a layer by layer (LbL) self-assembly technique. Surface modifications were performed by covalently conjugating with poly (ethylene glycol) (H2N-PEG-carboxymethyl, Mw 3400) and fluorescence labeled wheat germ agglutinin (F-WGA), so as to build a biocompatible and targeted drug delivery system. Extended release of drug paclitaxel can be realized by adding more polyelectrolyte layers in the shell. High cell viability with PEG conjugated and high binding capacities of WGA modified nanoparticles with Caco-2 cells were observed. Preliminary study on stability of the nanoparticles in suspension at different pH was also performed. Two dextran based pH sensitive and enzyme degradable hydrogels: dextran maleic acid (Dex-MA), and glycidyl methacrylated dextran (Dex-GMA) were synthesized for oral delivery of nanoparticles. Hydrogels of both kinds were stable in simulated gastric fluid, but were prone to swelling and degradation in the presence or absence of enzyme dextranase in simulated intestinal fluid. The release profiles of nanoparticles could be tuned from 5 hr to 24 hr periods of time with more than 85% of the nanoparticle released in the simulated intestinal fluid. The release of PAX NPs was completed with longer time periods (45 hr-120 hr). Two possible release mechanisms were discussed for Dex-MA and Dex-GMA-co-AA hydrogels respectively: degradation controlled, and diffusion controlled. These biodegradable hydrogels, which can release nanoparticles depending on pH changes, together with the biocompatible and targeted nanoparticles, may be suitable as a potential colon targeting system for oral delivery of drug nanoparticles.

nanoparticles

hydrogel

colon targeting

oral drug delivery

controlled releases

Smart drug delivery systems designed to improve Inflammatory Bowel Disease therapy

Hernández Teruel, Adrián

21 October 2019

Tesis por compendio / [ES] La presente tesis doctoral titulada "Sistemas de liberacio'n controlada de fa'rmacos diseñados para mejorar el tratamiento de Enfermedad Inflamatoria Intestinal" se centra en el diseño, preparación, caracterización y evaluación in vivo de distintos sistemas de liberación controlada de fármacos en colon (CDDS, por sus siglas en inglés) utilizando como soporte micropartículas de silice mesoporosa, funcionalizadas con puertas moleculares. En conclusión, los estudios realizados demuestran que los materiales de silice mesoporosa, en combinación con puertas moleculares sensibles a estímulos específicos, tienen un gran potencial para el desarrollo de nuevos sistemas de liberación controlada de fármacos en el colon, dirigidos a mejorar el arsenal terapéutico disponible para el tratamiento de EII. La posibilidad de adaptar o personalizar la carga y las puertas moleculares hace que estos soportes de sílice mesoporosa sean una opción interesante para el desarrollo de nuevos sistemas de liberación controlada de fármacos en diferentes aplicaciones biomédicas. Finalmente, esperamos que los resultados obtenidos en esta tesis doctoral sirvan de inspiración para el desarrollo de sistemas de liberación controlada de fármacos innovadores y cada vez más inteligentes, para su aplicación tanto en medicina como en otras áreas. / [CA] La present tesi doctoral titulada "Sistemes d'alliberament controlat de farmacs dissenyats per a millorar el tractament de Malaltia Inflamatoria Intestinal" se centra en el disseny, preparacio, caracteritzacio i avaluacio in vivo de diferents sistemes d'alliberament controlat de farmacs en colon (*CDDS, per les seues sigles en angles) utilitzant com a suport microparticules de si'lice mesoporosa, funcionalitzades amb portes moleculars. En conclusio, els estudis realitzats demostren que els materials de si'lice mesoporosa, en combinacio amb portes moleculars sensibles a estimuls especifics, tenen un gran potencial per al desenvolupament de nous sistemes d'alliberament controlat de farmacs en el colon, dirigits a millorar l'arsenal terapeutic disponible per al tractament de MII. La possibilitat d'adaptar o personalitzar la carrega i les portes moleculars, fa que aquests suports de silice mesoporosa siguen una opcio interessant per al desenvolupament de nous sistemes d'alliberacio controlada de farmacs en diferents aplicacions biomediques. Finalment, esperem que els resultats obtinguts en aquesta tesi doctoral servisquen d'inspiracio per al desenvolupament de sistemes d'alliberament controlat de farmacs innovadors i cada vegada mes intel·ligents, per a la seua aplicacio tant en medicina com en altres arees. / [EN] This PhD thesis entitled "Smart drug delivery systems designed to improve Inflammatory Bowel Disease therapy" is focused on the design, synthesis, characterization and in vivo evaluation of several Colon Drug Delivery Systems (CDDS) using hybrid mesoporous silica microparticles as scaffolds containing molecular gates. In conclusion, the studies shown in this Thesis demonstrate that mesoporous silica materials in combination with responsive molecular gates have great potential in the design and preparation of new CDDS to improve the therapeutic options available for IBD. The possibility to adapt the cargo and the molecular gate makes mesoporous silica support especially appealing for similar controlled drug delivery applications in the biomedical field. We hope that the obtained results could inspire the development of new innovative smart drug delivery systems in this or other fields. / We thank the Spanish Government (projects MAT2015-64139-C4-1-R and AGL2015-70235-C2-2-R (MINECO/FEDER)) and the Generalitat Valenciana (project PROMETEOII/2014/047) for support. AHT thanks to the Spanish MEC for his FPU grant. We thank the Generalitat Valenciana (Project PROMETEO2018/024) / Hernández Teruel, A. (2019). Smart drug delivery systems designed to improve Inflammatory Bowel Disease therapy [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/129863 / TESIS / Compendio

Colon drug delivery systems

Colon targeting

Inflammatory bowel disease

Ulcerative colitis

Crohn's disease

Mesoporous silica microparticles

Gated materials

Molecular gates

Smart drug delivery.

QUIMICA INORGANICA