0000000000824662

AUTHOR

Christian Celia

showing 4 related works from this author

Bisphosphonate-polyaspartamide conjugates as bone targeted drug delivery systems.

2015

Poly-hydroxy-aspartamide was used as a backbone to synthesize bisphosphonate derivatives thus achieving macromolecular carriers to be potentially used as targeting agents for bone drug delivery. Molecules bearing bisphosphonate groups, such as aminobisphosphonate (ABP) and neridronate (NRD), have been conjugated to polyaspartamide (α,β-poly(N-2-hydroxyethyl)-dl-aspartamide, PHEA), with or without a spacer (succinic acid or 6-aminocaproic acid) thus obtaining PHEA-succinate-ABP and PHEA-caproylcarbamate-ABP and PHEA-ABP and PHEA-NRD, respectively. Bisphosphonate-polymer conjugates were physico-chemically characterized using size exclusion chromatography and 1H-NMR; and their in vitro and e…

BiodistributionMaterials scienceMedicine (all)medicine.medical_treatmentChemistry (all)Biomedical EngineeringGeneral ChemistryGeneral MedicineBisphosphonateBone tissueIn vitromedicine.anatomical_structureBiochemistryTargeted drug deliverySettore CHIM/09 - Farmaceutico Tecnologico ApplicativoIn vivoDrug deliverymedicineGeneral Materials ScienceMaterials Science (all)Ex vivoJournal of materials chemistry. B
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Cationic Supramolecular Vesicular Aggregates for Pulmonary Tissue Selective Delivery in Anticancer Therapy

2016

The biopharmaceutical properties of supramolecular vesicular aggregates (SVAs) were characterized with regard to their physicochemical features and compared with cationic liposomes (CLs). Neutral and cationic SVAs were synthesized using two different copolymers of poly(aspartyl hydrazide) by thin-layer evaporation and extrusion techniques. Both copolymers were self-assembled in pre-formulated liposomes and formed neutral and cationic SVAs. Gemcitabine hydrochloride (GEM) was used as an anticancer drug and loaded by a pH gradient remote loading procedure, which significantly increased drug loading inside the SVAs. The resulting average size of the SVAs was 100 nm. The anticancer activity of …

DrugBiodistributionMacromolecular Substancesmedia_common.quotation_subjectSupramolecular chemistryAntineoplastic Agents02 engineering and technology010402 general chemistryHydrazideDeoxycytidine01 natural sciencesBiochemistryGemcitabine Hydrochloridesupramolecular chemistryStructure-Activity Relationshipchemistry.chemical_compoundDrug Delivery SystemsCationsDrug DiscoveryTumor Cells CulturedAnimalsHumansTissue DistributionCationic liposomeRats WistarGeneral Pharmacology Toxicology and Pharmaceuticsvesicular aggregatesCell Proliferationmedia_commonPharmacologyLiposomeDose-Response Relationship DrugMolecular StructurenanoparticleOrganic ChemistryCationic polymerization021001 nanoscience & nanotechnologyGemcitabineRats0104 chemical scienceschemistryBiochemistryantitumor agentliposomeMolecular MedicineDrug Screening Assays Antitumor0210 nano-technologyChemMedChem
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Folate-targeted supramolecular vesicular aggregates based on polyaspartyl-hydrazide copolymers for the selective delivery of antitumoral drugs.

2010

Supramolecular vesicular aggregates (SVAs) have the advantage of combining the safe and biocompatible properties of colloidal vesicular carriers based on phospholipids with those of polymeric materials, i.e. polyaspartyl-hydrazide (PAHy) copolymers. To provide SVAs with a certain tumour selectivity, folate moieties were chemically conjugated to PAHy copolymers. Physicochemical properties (mean sizes, polydispersity index and zeta potential) of folate-targeted SVAs (FT-SVAs) loaded with gemcitabine were evaluated. The antiproliferative and anticancer activity of gemcitabine-loaded FT-SVAs was evaluated against two cancer cell lines, i.e. MCF-7 cells which over-express the folate receptor and…

AzidesMaterials sciencePolymersBiophysicsBioengineeringAntineoplastic AgentsBiocompatible MaterialsPharmacologyDeoxycytidineFlow cytometryBiomaterialsDrug Delivery SystemsFolic AcidIn vivoCell Line TumorMaterials TestingmedicineHumansTissue DistributionCytotoxicityLiposomeDrug CarriersMicroscopy Confocalmedicine.diagnostic_testMolecular StructureGemcitabineIn vitroDRUG DELIVERY POLYASPARTYLHYDRAZIDE FOLATESettore CHIM/09 - Farmaceutico Tecnologico ApplicativoMechanics of MaterialsCell cultureFolate receptorDrug deliveryCeramics and CompositesBiophysicsPeptidesBiomaterials
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Folate-targeted supramolecular vesicular aggregates as a new frontier for effective anticancer treatment in in vivo model.

2012

Abstract Supramolecular vesicular aggregates (SVAs), made up by self-assembling liposomes and polyasparthydrazide co-polymers conjugated to folic acid molecules were extensively investigated in this manuscript as potential active targeting formulation for anticancer drug delivery. Folate-targeted systems (FT-SVAs) were used to treat breast cancer and to further proof the potential in vivo administration of these systems for the therapeutic treatment for several aggressive solid tumors. The physicochemical and technological parameters of FT-SVAs are suitable for their potential in vivo administration. The chemotherapeutic activity of GEM-loaded FT-SVAs was increased during in vivo experiment…

Antimetabolites AntineoplasticStereochemistryPharmaceutical ScienceBreast NeoplasmsMice SCIDDeoxycytidinechemistry.chemical_compoundMiceBreast cancerDrug Delivery SystemsFolic AcidPharmacokineticsIn vivoMice Inbred NODPEG ratiomedicineAnimalsHumansLiposomeDrug CarriersGeneral Medicinemedicine.diseaseXenograft Model Antitumor AssaysGemcitabineGemcitabinePLGANylonsHydrazineschemistryDrug deliveryLiposomesCancer researchMCF-7 CellsFemaleFolate supramolecular vescicular aggregates anticancer treatmentBiotechnologymedicine.drugEuropean journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V
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