Mesoporous Silicon Particle Formulations for Protected and Sustained Delivery of Therapeutic Peptides
thesis
posted on 2022-06-21, 01:09 authored by Parham Sahandi Zangabad<p>Therapeutic peptides suffer from short half-life, rapid degradation and clearance, and susceptibility to acidic pHs and enzymolysis in the body. The overall objective of this dissertation was to develop novel porous silicon (pSi)-based formulations for improved delivery of therapeutic peptides, e.g., GLP-1R agonists for the treatment of type 2 diabetes. Here, novel strategies including (i) surface chemistry modified nanoporous pSi microparticles (MPs), (ii) pSiMPs/(pluronic F127 and ReGel) composite formulations, and (iii) peptide-conjugated pSiMPs using a pH-responsive linker (1-allyl-2,3-isopropylidene glycerol), were developed to improve the loading efficiency, delivery and release kinetics of therapeutic peptides while maintaining their structural integrity and bioactivity.</p>
History
Campus location
AustraliaPrincipal supervisor
Nicolas Hans VoelckerAdditional supervisor 1
Ziqiu (Tommy) TongAdditional supervisor 2
Roshan VasaniYear of Award
2022Department, School or Centre
Drug Delivery, Disposition and DynamicsAdditional Institution or Organisation
Monash Institute of Pharmaceutical Sciences (MIPS), Monash UniversityCourse
Doctor of PhilosophyDegree Type
DOCTORATEFaculty
Faculty of Pharmacy and Pharmaceutical SciencesUsage metrics
Keywords
Porous siliconmicroparticlesnano-sized poreslong-acting release kineticsdiabetes type 2mass spectrometrysubcutaneous deliverycompositesexendin-P5exenatide (exendin-4)pH-responsive linkertherapeutic peptides1-Allyl-2,3-isopropylidene glycerolconjugationGLP-1R agonistsin vitro release kinetic modelsstructural integrityfunctional activitycAMP assaythermo-responsive hydrogelspeptide loadingsurface chemistry modifcationelectrochemical etching
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