Maria Antonietta Casadei


Titolo Pubblicato in Anno
Gellan gum/laponite beads for the modified release of drugs: experimental and modeling study of gastrointestinal release PHARMACEUTICS 2019
Freeze-dried nanocomposite gel beads for oral drug delivery. In vitro simulation of gastro-intestinal drug release Proceedings of Eurodrying 2019 2019
Lycium barbarum polysaccharides: extraction, purification, structural characterisation and evidence about hypoglycaemic and hypolipidaemic effects. A review FOOD CHEMISTRY 2018
Design of a tunable nanocomposite double network hydrogel based on gellan gum for drug delivery applications EUROPEAN POLYMER JOURNAL 2018
Effect of glycerol on the physical and mechanical properties of thin gellan gum films for oral drug delivery INTERNATIONAL JOURNAL OF PHARMACEUTICS 2018
Can pulsed electromagnetic fields trigger on-demand drug release from high-tm magnetoliposomes? NANOMATERIALS 2018
Experimental and modeling study of drug release from HPMC-based erodible oral thin films PHARMACEUTICS 2018
SPC liposomes as possible delivery systems for improving bioavailability of the natural sesquiterpene β-caryophyllene: lamellarity and drug-loading as key features for a rational drug delivery design PHARMACEUTICS 2018
Evaluation of processing effects on anthocyanin content and colour modifications of blueberry (Vaccinium spp.) extracts: Comparison between HPLC-DAD and CIELAB analyses FOOD CHEMISTRY 2017
Design and characterization of a biocompatible physical hydrogel based on scleroglucan for topical drug delivery CARBOHYDRATE POLYMERS 2017
From macro to nano polysaccharide hydrogels: an opportunity for the delivery of drugs JOURNAL OF DRUG DELIVERY SCIENCE AND TECHNOLOGY 2016
Gellan gum methacrylate and laponite as an innovative nanocomposite hydrogel for biomedical applications EUROPEAN POLYMER JOURNAL 2016
Magnetoliposomes: envisioning new strategies for water decontamination CHEMICAL ENGINEERING TRANSACTIONS 2016
Manufacturing and characterization of polymeric thin films for buccal delivery of drugs 10th World Meeting on. Pharmaceutics, Biopharmaceutics and Pharmaceutical Technology proceeding book 2016
Swelling and drug release from oral thin films (OTFs) VIII International conference on “Times of polymers and composites”. From aerospace to nanotechnology 2016
From surface to core modification: development of gel-in-liposome hybrid systems nanomedine book of abstract 2016
Protection and viability of fruit seeds oils by nanostructured lipid carrier (NLC) nanosuspensions JOURNAL OF COLLOID AND INTERFACE SCIENCE 2016
Emerging trends in liposome design. MITO. Un viaggio tra liposomi e polisaccaridi-A journey through liposomes and polysaccharides. Ediz. bilingue MITO. Un viaggio tra liposomi e polisaccaridi 2016
Thin film technology: new opportunity for buccal controlled delivery. MITO. Un viaggio tra liposomi e polisaccaridi-A journey through liposomes and polysaccharides. Ediz. bilingue MITO. Un viaggio tra liposomi e polisaccaridi 2016
Injectable and photocross-linkable gels based on gellan gum methacrylate: a new tool for biomedical application INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES 2015


  • PE5
  • PE5_4
  • PE5_7
  • PE5_8


  • Nanotecnologie
  • Advanced materials
  • Life-science technologies & biotechnologies

Interessi di ricerca

The research activity of the Laboratory of Bio-Inspired Devices for Technology, coordinated by me, is focused on the development of new polymer- and/or lipid-based systems for biomedical or pharmaceutical applications. The main research lines are: 1) Synthesis and characterization of novel biopolymers and matrices for application as modified drug delivery systems or as scaffold for tissue engineering


2) Synthesis and characterization of biopolymers to employ in three-dimensional (3D) bioprinting


3) Design and development of polymeric thin films for drug delivery


4) Design and development of hybrid drug delivery systems, such as Gel-in.Liposomes (GiL) systems, innovative liposomes with a gelled core


5) Design and development of stimuli responsive nano-systems for "on demand" drug release




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