Marina Gallarate
Associate Professor
- Department of Drug Science and Technology
- SSD: CHIM/09 - pharmaceutical and technological applications of chemistry
- ORCID: orcid.org/0000-0001-8185-1672
Contacts
- 0116707194
- 0116707162
- marina.gallarate@unito.it
- via Pietro Giuria 9 10125 Torino
- https://www.dstfen.unito.it/persone/marina.gallarate
- Contacts VCard
At
- Department of Drug Science and Technology
- Dipartimento di Scienza e Tecnologia del Farmaco
- Corsi di studio in
Farmacia - Chimica e tecnologia farmaceutiche - Dottorato in Scienze Farmaceutiche e Biomolecolari
Curriculum vitae
Selected research products
Naked and Decorated Nanoparticles Containing H2S-Releasing Doxorubicin: Preparation, Characterization and Assessment of Their Antitumoral Efficiency on Various Resistant Tumor Cells
2022-01-01 Elena PEIRA; Daniela Chirio; Simona Sapino; Konstantin CHEGAEV; Giulia Chindamo; IRIS CHIARA SALAROGLIO; Chiara Riganti; Marina GALLARATE https://iris.unito.it/handle/2318/1885286
Doxorubicin-Loaded Lipid Nanoparticles Coated with Calcium Phosphate as a Potential Tool in Human and Canine Osteosarcoma Therapy
2022-01-01 Chirio, Daniela; Sapino, Simona; Chindamo, Giulia; Peira, Elena; Vercelli, Cristina; Riganti, Chiara; Manzoli, Maela; Gambino, Graziana; Re, Giovanni; Gallarate, Marina https://iris.unito.it/handle/2318/1873043
Cannabis-Based Oral Emulsion for Medical Purposes to Meet the Needs of Patients: Formulation, Quality and Stability
2022-01-01 Baratta, Francesca; Peira, Elena; Maza, Carola; Gallarate, Marina; Brusa, Paola https://iris.unito.it/handle/2318/1851361
Nanocarriers in Veterinary Medicine: A Challenge for Improving Osteosarcoma Conventional Treatments
2022-01-01 Sapino S.; Chindamo G.; Chirio D.; Morel S.; Peira E.; Vercelli C.; Gallarate M. https://iris.unito.it/handle/2318/1885368
Osteomyelitis: Focus on Conventional Treatments and Innovative Drug Delivery Systems
2021-01-01 Gallarate, Marina; Chirio, Daniela; Chindamo, Giulia; Peira, Elena; Sapino, Simona https://iris.unito.it/handle/2318/1816334
A new bevacizumab carrier for intravitreal administration: Focus on stability
2021-01-01 Chirio D.; Peira E.; Sapino S.; Chindamo G.; Oliaro-bosso S.; Adinolfi S.; Dianzani C.; Baratta F.; Gallarate M. https://iris.unito.it/handle/2318/1795350
Developing actively targeted nanoparticles to fight cancer: Focus on italian research
2021-01-01 Argenziano M.; Arpicco S.; Brusa P.; Cavalli R.; Chirio D.; Dosio F.; Gallarate M.; Peira E.; Stella B.; Ugazio E. https://iris.unito.it/handle/2318/1816443
Assessment of in‐situ gelling microemulsion systems upon temperature and dilution condition for corneal delivery of bevacizumab
2021-01-01 Peira E.; Chindamo G.; Chirio D.; Sapino S.; Oliaro-bosso S.; Rebba E.; Ivanchenko P.; Gallarate M. https://iris.unito.it/handle/2318/1795299
Calcium Phosphate-Coated Lipid Nanoparticles as a Potential Tool in Bone Diseases Therapy
2021-01-01 Sapino, Simona; Chindamo, Giulia; Chirio, Daniela; Manzoli, Maela; Peira, Elena; Riganti, Chiara; Gallarate, Marina https://iris.unito.it/handle/2318/1816356
Recent advances in nanosystems and strategies for vaginal delivery of antimicrobials
2021-01-01 Chindamo G.; Sapino S.; Peira E.; Chirio D.; Gallarate M. https://iris.unito.it/handle/2318/1775029
Curcumin-loaded solid lipid nanoparticles bypass p-glycoprotein mediated doxorubicin resistance in triple negative breast cancer cells
2020-01-01 Abd-Ellatef G.-E.F.; Gazzano E.; Chirio D.; Hamed A.R.; Belisario D.C.; Zuddas C.; Peira E.; Rolando B.; Kopecka J.; Marie M.A.S.; Sapino S.; Fahmy S.R.; Gallarate M.; Abdel-Hamid A.-H.Z.; Riganti C. https://iris.unito.it/handle/2318/1740386
Bone diseases: Current approach and future perspectives in drug delivery systems for bone targeted therapeutics
2020-01-01 Chindamo G.; Sapino S.; Peira E.; Chirio D.; Gonzalez M.C.; Gallarate M. https://iris.unito.it/handle/2318/1740158
Poly (N-isopropylacrylamide) based hydrogels as novel precipitation and stabilization media for solid lipid nanoparticles (SLNs)
2019-01-01 Jadhav, S.A., Brunella, V., Sapino, S., Caprarelli B., Riedo, C., Chirio, D., Gallarate, M. https://iris.unito.it/handle/2318/1692215
Thermosensitive nanocomposite hydrogels for intravitreal delivery of cefuroxime
2019-01-01 Simona Sapino; Elena Peira; Daniela Chirio; Giulia Chindamo; Stefano Guglielmo; Simonetta Oliaro-Bosso; Raffaella Barbero; Cristina Vercelli; Giovanni Re; Valentina Brunella; Chiara Riedo; Antonio Maria Fea; Marina Gallarate https://iris.unito.it/handle/2318/1715088
Development of Solid Lipid Nanoparticles by Cold Dilution of Microemulsions: Curcumin Loading, Preliminary In Vitro Studies, and Biodistribution
2019-01-01 Chirio, Daniela; Peira, Elena; Dianzani, Chiara; Muntoni, Elisabetta; Gigliotti, Casimiro Luca; Ferrara, Benedetta; Sapino, Simona; Chindamo, Giulia; Gallarate, Marina https://iris.unito.it/handle/2318/1704549
Ocular Drug Delivery: A Special Focus on the Thermosensitive Approach
2019-01-01 Sapino, Simona; Chirio, Daniela; Peira, Elena; Abellán Rubio, Elena; Brunella, Valentina; Jadhav, Sushilkumar A; Chindamo, Giulia; Gallarate, Marina https://iris.unito.it/handle/2318/1707648
New Thermosensitive Nanocomposite Hydrogels for Intravitreal Administration
2018-01-01 Marina, Gallarate https://iris.unito.it/handle/2318/1655853
Sistemi nanocompositi termosensibili per la somministrazione intravitreale di cefuroxima
2018-01-01 BRUNO CAPRARELLI, SIMONA SAPINO, ELENA PEIRA, DANIELA CHIRIO, SUSHIL A JADHAV, SIMONETTA OLIARO BOSSO, STEFANO GUGLIELMO, RAFFAELLA BARBERO, ANTONIO MARIA FEA, CLAUDIA FRUTTERO, FRANCO DOSIO, MARINA GALLARATE https://iris.unito.it/handle/2318/1685938
Chapter 7 - Ocular delivery of solid lipid nanoparticles
2018-01-01 Battaglia, Luigi; Gallarate, Marina; Serpe, Loredana; Foglietta, Federica; Muntoni, Elisabetta; del Pozo Rodriguez, Ana; Angeles Solinis Aspiazu, Maria https://iris.unito.it/handle/2318/1669479
Development and Characterization of Solid Lipid Nanoparticles Loaded with a Highly Active Doxorubicin Derivative
2018-01-01 Stella, Barbara; Peira, Elena; Dianzani, Chiara; Gallarate, Marina; Battaglia, Luigi; Gigliotti, Casimiro Luca; Boggio, Elena; Dianzani, Umberto; Dosio, Franco https://iris.unito.it/handle/2318/1660390
Lipophilic prodrug of floxuridine loaded into solid lipid nanoparticles: In vitro cytotoxicity studies on different human cancer cell lines
2018-01-01 Chirio, Daniela; Peira, Elena; Battaglia, Luigi; Ferrara, Benedetta; Barge, Alessandro; Sapino, Simona; Giordano, Susanna; Dianzani, Chiara; Gallarate, Marina https://iris.unito.it/handle/2318/1655802
Stearoyl-Chitosan Coated Nanoparticles Obtained by Microemulsion Cold Dilution Technique
2018-01-01 Chirio, Daniela; Peira, Elena; Sapino, Simona; Dianzani, Chiara; Barge, Alessandro; Muntoni, Elisabetta; Morel, Silvia; Gallarate, Marina https://iris.unito.it/handle/2318/1685845
Solid lipid nanoparticles by coacervation loaded with a methotrexate prodrug: preliminary study for glioma treatment
2017-01-01 Battaglia, L; Muntoni, E; Chirio, D; Peira, E; Annovazzi, L; Schiffer, D; Mellai, M; Riganti, C; Salaroglio, Ic; Lanotte, M; Panciani, P; Capucchio, Mt; Valazza, A; Biasibetti, E; Gallarate, M https://iris.unito.it/handle/2318/1627489
Comparison of Allogeneic and Syngeneic Rat Glioma Models by Using MRI and Histopathologic Evaluation
2017-01-01 Biasibetti, Elena; Valazza, Alberto; Capucchio, Maria T; Annovazzi, Laura; Battaglia, Luigi; Chirio, Daniela; Gallarate, Marina; Mellai, Marta; Muntoni, Elisabetta; Peira, Elena; Riganti, Chiara; Schiffer, Davide; Panciani, Pierpaolo; Lanotte, Michele https://iris.unito.it/handle/2318/1632007
Solid Lipid Nanoparticles Loaded with Antitumor Lipophilic Prodrugs Aimed to Glioblastoma Treatment:
2017-01-01 Annovazzi, Laura; Schiffer, Davide; Mellai, Marta; Gallarate, Marina; Battaglia, Luigi; Chirio, Daniela; Peira, Elena; Muntoni, Elisabetta; Chegaev, Konstantin; Barge, Alessandro; Lanotte, Michele; Panciani, Pierpaolo; Capucchio, Maria Teresa; Valazza, Alberto; Biasibetti, Elena; Riganti, Chiara https://iris.unito.it/handle/2318/1627515
Recent studies on the delivery of hydrophilic drugs in nanoparticulate systems.
2016-01-01 Arpicco, Silvia; Battaglia, Luigi; Brusa, Paola; Cavalli, Roberta; Chirio, Daniela; Dosio, Franco; Gallarate, Marina; Milla, Paola; Peira, Elena; Rocco, Flavio; Sapino, Simona; Stella, Barbara; Ugazio, Elena; Ceruti, Maurizio https://iris.unito.it/handle/2318/1525357
Application of lipid nanoparticles to ocular drug delivery
2016-01-01 Battaglia, Luigi; Serpe, Loredana; Foglietta, Federica; Muntoni, Elisabetta; Gallarate, Marina; Del Pozo Rodriguez, Ana; Solinis, Maria Angeles https://iris.unito.it/handle/2318/1609995
Solid lipid nanoparticles carrying lipophilic derivatives of doxorubicin: preparation, characterization, and in vitro cytotoxicity studies
2016-01-01 Peira, Elena; Chirio, Daniela; Battaglia, Luigi; Barge, Alessandro; Chegaev, Konstantin; Gigliotti, Casimiro Luca; Ferrara, Benedetta; Dianzani, Chiara; Gallarate, Marina https://iris.unito.it/handle/2318/1610005
Experimental glioblastoma in Fisher rat model: treatment with a biocompatible system as carrier of methotrexate drug.
2015-01-01 Biasibetti E; Valazza A; Battaglia L; Gallarate M; Peira E; Chirio D; Muntoni E; Panciani PP; Riganti C; Annovazzi L; Caldera V; Schiffer D; Lanotte M; Capucchio M.T. https://iris.unito.it/handle/2318/156754
Incorporation of squalenoyl doxorubicin into solid lipid nanoparticles
2015-01-01 Stella, B.; Peira, E.; Dianzani, C.; Battaglia, L.; Gallarate, M.; Dosio, F. https://iris.unito.it/handle/2318/1578026
Method for preparing solid lipid nanoparticles containing antibodies in ion pair form using the fatty acid coacervation technique
2015-01-01 Gallarate Marina; Peira Elena; Battaglia Luigi Sebastiano https://iris.unito.it/handle/2318/1642669
Bevacizumab loaded solid lipid nanoparticles prepared by the coacervation technique: preliminary in vitro studies
2015-01-01 Battaglia, Luigi; Gallarate, Marina; Peira, Elena; Chirio, Daniela; Solazzi, Ilaria; Giordano, Susanna Marzia Adele; Gigliotti, Casimiro Luca; Riganti, Chiara; Dianzani, Chiara https://iris.unito.it/handle/2318/1520408
Solid lipid nanoparticles as antineoplastic drugs vehicles in glioblastoma multiforme: in vitro and in vivo pathological effects.
2014-01-01 Biasibetti E.; Battaglia L.; Gallarate M.; Peira E.; Chirio D.; Muntoni E.; Valazza A.; Lanotte M.; Panciani P.P.; Riganti C.; Annovazzi L.; Caldera V.; Schiffer D.; Capucchio M.T. https://iris.unito.it/handle/2318/141589
Nanoparticelle lipidiche solide per veicolare farmaci antitumorali oltre la barriera emato-encefalica, in particolare per il trattamento dei tumori cerebrali
2014-01-01 L. Battaglia; M. Gallarate; E. Peira; D. Chirio; E. Muntoni; L. Gastaldi; E. Biasibetti; MT. Capucchio; A. Valazza; P. Panciani; M. Lanotte; D. Schiffer; L. Annovazzi; V. Caldera; M. Mellai; C. Riganti https://iris.unito.it/handle/2318/150727
Techniques for the Preparation of Solid Lipid Nano and MicroparticlesApplication of Nanotechnology in Drug Delivery
2014-01-01 L. Battaglia; M. Gallarate; P.P. Panciani; E. Ugazio; S. Sapino; E. Peira; D. Chirio https://iris.unito.it/handle/2318/155384
Methotrexate loaded SLN obtained by coacervation for potential glioblastoma treatment
2014-01-01 L. Battaglia; M. Gallarate; E. Peira; D. Chirio; L. Gastaldi; E. Muntoni; E. Biasibetti; M.T. Capucchio; A. Valazza; P. Panciani; M. Lanotte; D. Schiffer; L. Annovazzi; V. Caldera; C. Riganti https://iris.unito.it/handle/2318/155385
Solid lipid nanoparticles as vehicles of drugs to the brain: Current state of the art
2014-01-01 L. Gastaldi; L. Battaglia; E. Peira; D. Chirio; E. Muntoni; I. Solazzi; M. Gallarate; F. Dosio https://iris.unito.it/handle/2318/155381
SLN prodotte attraverso la tecnica della coacervazione come veicoli di macromolecole idrofile
2014-01-01 I. Solazzi; L. Battaglia; M. Gallarate; E. Peira; D. Chirio; S. Giordano; V. Dolo; C. Dianzani https://iris.unito.it/handle/2318/155386
Solid Lipid Nanoparticles for Potential Doxorubicin
2014-01-01 L. Battaglia; M. Gallarate; E. Peira; D. Chirio; E. Muntoni; E. Biasibetti; https://iris.unito.it/handle/2318/145777
The influence of surface charge and photo-reactivity on skin-permeation enhancer property of nano-TiO2 in ex vivo pig skin model under indoor light
2014-01-01 Peira, Elena; Turci, Francesco; Corazzari, Ingrid; Chirio, Daniela; Battaglia, Luigi Sebastiano; Fubini, Bice; Gallarate, Marina https://iris.unito.it/handle/2318/155488
Positive-charged solid lipid nanoparticles as paclitaxel drug delivery system in glioblastoma treatment
2014-01-01 Daniela Chirio;Marina Gallarate;Elena Peira;Luigi Battaglia;Elisabetta Muntoni;Chiara Riganti;Elena Biasibetti;Maria Teresa Capucchio;Alberto Valazza;Pierpaolo Panciani;Michele Lanotte;Laura Annovazzi;Valentina Caldera;Marta Mellai;Gaetano Filice;Silvia Corona;Davide Schiffer https://iris.unito.it/handle/2318/150103
Solid Lipid Nanoparticles Loaded with Fluorescent-labelled Cyclosporine A: Anti-inflammatory Activity in Vitro
2014-01-01 Gallarate, M.; Serpe, L.; Foglietta, F.; Giordano, S.; Peira, E.; Chirio, D.; Battaglia, L. https://iris.unito.it/handle/2318/155522
PLGA nanoparticles for “inverse vaccination” in Experimental Autoimmune Encephalomyelitis (EAE)
2013-01-01 G. Cappellano, AD. Woldetsadik, Y.Shivakumar, M.Rizzi, F.Carniato, E. Orilieri, A.Chiocchetti, L.Battaglia, M.Gallarate, R.Cavalli, C. Dianzani, F. Renò, U. Dianzani https://iris.unito.it/handle/2318/1577105
Metodo per la preparazione di nanoparticelle lipidiche solide contenenti anticorpi in forma di coppia ionica, mediante la tecnica della coacervazione degli acidi grassi
2013-01-01 Battaglia L.; Gallarate M.; Peira E. https://iris.unito.it/handle/2318/152752
Solid lipid nanoparticles as antineoplastic drug vehicles in glioblastoma multiforme. invitro and in vivo pathological effects
2013-01-01 E.Biasibetti; L.Battaglia; M.Gallarate; E.Peira; D.Chirio; E.Muntoni*; A.Valazza; M.Lanotte; PP.Panciani; C.Riganti; L.Annovazzi; V.Caldera; D.Schiffer; M.T.Capucchio https://iris.unito.it/handle/2318/140298
Influence of silica nanoparticles (SiO2-NP) on drug permeation
2013-01-01 Elena Peira; Marina Gallarate; Luigi Battaglia; Francesco Turci; Bice Fubini; Barbara Onida https://iris.unito.it/handle/2318/139615
SLN obtained by coacervation for potential anti-tumour drug delivery to the brain.
2013-01-01 L. Battaglia; M.Gallarate; E. Peira; D. Chirio; E. Muntoni; F. Dosio; E. Biasibetti; M.T.Capucchio; A.Valazza; P. Panciani; M.Lanotte; D.Schiffer; L. Annovazzi;V.Caldera; C.Riganti. https://iris.unito.it/handle/2318/141596
Development of O/W nanoemulsions for ophthalmic administration of timolol
2013-01-01 Marina, Gallarate; Daniela, Chirio; Rosanna, Bussano; Elena, Peira; Luigi, Sebastiano Battaglia; Francesca, Baratta; Michele, Trotta https://iris.unito.it/handle/2318/125674
Sistemi microemulsivi per la somministrazione oftalmica di bevacizumab
2012-01-01 Elena Peira; Luigi Battaglia; Daniela Chirio; Marina Gallarate; Michele Trotta https://iris.unito.it/handle/2318/140337
SLN per la veicolazione di un analogo fluorescente della Ciclosporina A
2012-01-01 Luigi Battaglia; Loredana Serpe; Gian Paolo Zara; Daniela Chirio; Marina Gallarate; Elena Peira; Michele Trotta https://iris.unito.it/handle/2318/139304
Solid lipid nanoparticles prepared by coacervation method as vehicles for ocular cyclosporine
2012-01-01 L. Battaglia; I. D’Addino; E. Peira; M. Trotta; M. Gallarate https://iris.unito.it/handle/2318/122815
Lipid nanoparticles: state of the art, new preparation methods andchallenges in drug delivery
2012-01-01 Battaglia L.; Gallarate M. https://iris.unito.it/handle/2318/110736
Resveratrol in solid lipid nanoparticles
2012-01-01 Carlotti ME; Sapino S; Ugazio E; Gallarate M; Morel S https://iris.unito.it/handle/2318/84566
Lipid Nanosystems in Topical PUVA Therapy
2012-01-01 Luigi BATTAGLIA; Elena PEIRA; Simona SAPINO; Marina GALLARATE https://iris.unito.it/handle/2318/90033
Peptide-Loaded Solid Lipid Nanoparticles Prepared throughCoacervation Technique
2011-01-01 Marina Gallarate; Luigi Battaglia; Elena Peira; Michele Trotta https://iris.unito.it/handle/2318/86219
New Formulative Strategies for Lipid Nano and Microparticles Preparation
2011-01-01 Luigi BATTAGLIA; Marina GALLARATE https://iris.unito.it/handle/2318/89972
Thermosensitive gels for the topical administration of diltiazem
2011-01-01 Daniela Chirio; Michele Trotta; Marina Gallarate; Elena Peira; M.Eugenia Carlotti https://iris.unito.it/handle/2318/86155
Insulin-Loaded SLN Prepared with the Emulsion Dilution Technique: In Vivo Tracking of Nanoparticles after Oral Administration to Rats
2011-01-01 M. Trotta ; M. E. Carlotti; M. Gallarate; G. P. Zara; E. Muntoni; L. Battaglia https://iris.unito.it/handle/2318/88131
Methotrexate loaded SLN prepared by coacervation technique: in vitro cytotoxicity and in vivo pharmacokinetic and biodistribution
2011-01-01 Battaglia L; Serpe L; Muntoni E; Zara G.P.;Trotta M; Gallarate M https://iris.unito.it/handle/2318/131985
Thermogelling microemulsions for topical delivery of griseofulvin
2011-01-01 E. Peira; M. Gallarate; R. Spagnolo; D. Chirio; M. Trotta https://iris.unito.it/handle/2318/89626
Formulation of curcumin-loaded solid lipid nanoparticlesproduced by fatty acids coacervation technique
2011-01-01 DANIELA CHIRIO; MARINA GALLARATE; ELENA PEIRA; LUIGI BATTAGLIA ; LOREDANA SERPE; MICHELE TROTTA https://iris.unito.it/handle/2318/95359
Solid lipid nanoparticles produced through a coacervation method
2010-01-01 Luigi Battaglia; Marina Gallarate; Roberta Cavalli; Michele Trotta https://iris.unito.it/handle/2318/61349
Synthesis, characterization and potential application of monoacyl-cyclodextrins
2010-01-01 Martina K; Puntambekar DS; Barge A; Gallarate M; Chirio D; Cravotto G https://iris.unito.it/handle/2318/74790
Amphotericin B loaded SLN prepared with the coacervation technique
2010-01-01 M.A. Bianco; M. Gallarate; M. Trotta; L. Battaglia https://iris.unito.it/handle/2318/79786
Cisplatin-loaded SLN produced by coacervation technique
2010-01-01 M. Gallarate; M. Trotta; L. Battaglia; D. Chirio https://iris.unito.it/handle/2318/78575
SLN da coacervazione per la veicolazione oculare di ciclosporina
2009-01-01 L. Battaglia; M. Trotta; M. Gallarate; E. Peira https://iris.unito.it/handle/2318/139350
Influence of alpha- and gamma- cyclodextrin lipophilic derivativeson curcumin-loaded SLN
2009-01-01 Chirio D.; Gallarate M.; Trotta M.; Carlotti M.E.; Calcio Gaudino E.; Cravotto G. https://iris.unito.it/handle/2318/62900
Formulation of dry emulsion for topical applications
2009-01-01 GALLARATE M; MITTONE E; CARLOTTI M.E; TROTTA M; PICCERELLE P https://iris.unito.it/handle/2318/27448
Preparation of solid lipid nanoparticles from W/O/W emulsions: Preliminary studies on insulin encapsulation
2009-01-01 Marina GALLARATE; Michele TROTTA; Luigi Sebastiano BATTAGLIA; Daniela CHIRIO https://iris.unito.it/handle/2318/61993
On the photodegradation of dithranol in different topical formulations: use of SLN to increase the stability of the drug
2009-01-01 M.E. Carlotti; S. Sapino; E. Peira; M. Gallarate; E. Ugazio https://iris.unito.it/handle/2318/70347
Effect of natural antioxidants on lipoperoxidation induced by TiO2 nanoparticles upon UVB irradiation
2008-01-01 M.E. Carlotti; E. Ugazio; S. Sapino; M. Gallarate; R. Cavalli https://iris.unito.it/handle/2318/100627
Studenti in farmacia e sul territorio
2008-01-01 Paola Brusa; Marina Gallarate https://iris.unito.it/handle/2318/69510
Effects of γ-cyclodextrin dodecyl carbonate on curcumin-loaded SLN
2008-01-01 CHIRIO D.; TROTTA M.; GALLARATE M.; CARLOTTI M.E.; SPAGNOLO R. https://iris.unito.it/handle/2318/112756
Cisplatin loaded SLN proced by coacervation technique
2008-01-01 L. Battaglia; R. Cavalli; M. Gallarate; M. Trotta https://iris.unito.it/handle/2318/57043
Amphotericin B loaded solid lipid nanoparticles produced through a coacervation method
2008-01-01 L. S. Battaglia; M. Trotta; R. Cavalli; M. Gallarate https://iris.unito.it/handle/2318/57044
O/W microemulsions with vanillin as vehicles for antiacne actives: preparation, characterization and stability
2008-01-01 CARLOTTI ME; SAPINO S; GALLARATE M; PEIRA E; UGAZIO E https://iris.unito.it/handle/2318/132750
Release of mandelic acid from O/W emulsions with lamellar phases
2008-01-01 CARLOTTI ME; SAPINO S; GALLARATE M; TROTTA M; CAVALLI R; UGAZIO E; PEIRA E https://iris.unito.it/handle/2318/35138
O/W moisturizing emulsions with saccharose palmitate and saccharose stearate
2008-01-01 CARLOTTI ME; SAPINO S; UGAZIO E; PEIRA E; GALLARATE M; TROTTA M https://iris.unito.it/handle/2318/132594
O/W emulsions with liquid crystals as vehicles of β-escin
2008-01-01 CARLOTTI ME; SAPINO S; GALLARATE M; TROTTA M; CAVALLI R; UGAZIO E https://iris.unito.it/handle/2318/35173
In vivo behaviour of insulin-loaded SLN after oral administration to rats
2007-01-01 L. Battaglia; R. Cavalli; M. Gallarate; M. Trotta; G.P. Zara https://iris.unito.it/handle/2318/59889
Water-in-silicone microemulsions for topical application of betamethasone
2007-01-01 E. Peira; M.E. Carlotti; M. Gallarate; M. Trotta https://iris.unito.it/handle/2318/139357
Lipid nanoparticles formed by solvent-in-water emulsion-diffusion technique: Development and influence on insulin stability
2007-01-01 BATTAGLIA L; TROTTA M; GALLARATE M; CARLOTTI ME; ZARA G; BARGONI A https://iris.unito.it/handle/2318/25449
Solid lipid nanoparticles formed by solvent-in-water emulsion diffusion tecnique: development and influence of insulin stability
2007-01-01 BATTAGLIA L; TROTTA M; GALLARATE M; CARLOTTI M.E; ZARA G.P; BARGONI A https://iris.unito.it/handle/2318/37343
Elastic positively-charged liposomes for topical administration of acyclovir
2007-01-01 PEIRA E; TROTTA M; CARLOTTI M.E; GALLARATE M; CHIRIO D https://iris.unito.it/handle/2318/39379
Photostability of octyl p-methoxy cinnamate in O/W emulsions and in SLNs vehicled in the emulsions
2007-01-01 CARLOTTI ME; SAPINO S; VIONE D; MINERO C; TROTTA M; GALLARATE M https://iris.unito.it/handle/2318/41137
Solid lipid nanoparticles (SLN) for the topical administration of guaiazulene
2006-01-01 GALLARATE M.; CARLOTTI M.E.; TROTTA M.; BATTAGLIA L. https://iris.unito.it/handle/2318/112758
Photodegradation of retinol and anti-aging effectiveness of two commercial emulsions
2006-01-01 M.E. CARLOTTI; E. UGAZIO; S. SAPINO; E. PEIRA; M. GALLARATE https://iris.unito.it/handle/2318/38424
Deformable liposomes as topical formulations containing α-tocopherol
2006-01-01 M. GALLARATE; D. CHIRIO; M. TROTTA; M.E. CARLOTTI https://iris.unito.it/handle/2318/37624
Prontuario Galenico (Galenic Handbook)
2005-01-01 P. Brusa; M. Gallarate; A. Germano https://iris.unito.it/handle/2318/68073
Olio di Tamanu. stabilità all'ossidazione e formulazione di emulsioni O/A
2005-01-01 Carlotti M. E.; Sapino S.; Peira E.; Gallarate M. https://iris.unito.it/handle/2318/52508
Hemp-seed and olive oil, their stability against oxidation and use in O/W emulsions
2005-01-01 S. SAPINO; M. CARLOTTI; E. PEIRA; M. GALLARATE https://iris.unito.it/handle/2318/21502
Norme di buona preparazione: i radiofarmaci
2005-01-01 P. Brusa; M. Gallarate https://iris.unito.it/handle/2318/70248
Storia della Farmacia
2005-01-01 P. Brusa; M. Gallarate https://iris.unito.it/handle/2318/72154
Il prodotto erboristico: realtà o fantasia…?! Stato dell’arte in base alle normative vigenti
2005-01-01 P. Brusa; M. Gallarate https://iris.unito.it/handle/2318/69582
Prontuario Galenico
2005-01-01 P. Brusa; M. Gallarate; A. Germano https://iris.unito.it/handle/2318/69155
Prontuario Galenico
2005-01-01 P. Brusa; M. Gallarate; A. Germano https://iris.unito.it/handle/2318/66475
Preparazioni topiche farmaceutiche e cosmetiche
2005-01-01 P. Brusa; M. Gallarate https://iris.unito.it/handle/2318/70045
Il prodotto cosmetico: novità in merito all’etichettatura
2005-01-01 P. Brusa; M. Gallarate https://iris.unito.it/handle/2318/70046
Tracce di glutine nei medicinali e nei cosmetici. Parte seconda
2005-01-01 P. Brusa; M. Gallarate https://iris.unito.it/handle/2318/72153
Courses
- Dispositivi medici: tipologia, acquisti e legislazione (SSFO) - anno solare 2022/2023 (STF0169)
Corsi di studio in
Farmacia - Chimica e tecnologia farmaceutiche - Tecnologia e normativa farmaceutiche I (STF0058)
Corsi di studio in
Farmacia - Chimica e tecnologia farmaceutiche - Tecnologia e normativa farmaceutiche II (STF0059)
Corsi di studio in
Farmacia - Chimica e tecnologia farmaceutiche
Research topics
- Interessi
- International cooperations
- National cooperations
- Publications
- Invited lectures
- Research projects
L'attività di ricerca è prevalentemente indirizzata allo sviluppo di tecnologie di produzione, alla valutazione della stabilità nel tempo, ed alla caratterizzazione chimico fisica di sistemi dispersi solidi, semisolidi, liquidi di natura colloidale proponibili per la veicolazione di farmaci.
Attualmente l'interesse è rivolto alla produzione di sistemi lipidici nano e microparticellari e di nano/microemulsioni con la finalità di inglobamento di sostanze farmacologicamente attive a differente attività terapeutica, ma accomunate da problemi di bassa biodisponibilità o di tossicità tali da impedirna la somministrazione attraverso forme farmaceutiche convenzionali.
In questo ambito sono disponibili tesi sperimentali per studenti di Farmacia e CTF
Neuroengineering and Neuroprosthesis Unit at the Bioengineering Institute. University Miguel Hernández (Spain)
- Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas (INIFTA) La Plata (Argentina)
- C. Farmacia Ospedaliera A.O. Ordine Mauriziano
- Società Prodotti Antibiotici S.p.A
List and description of scientific publications
List and description of invited lectures
List and description of research projects
- Development of solid lipid nanoparticles (SLN) as vehicles of antineoplastic drugs to improve the pharmacological glioblastoma therapy" finanziato nell'ambito del “Bando per il finanziamento di progetti di ricerca di Ateneo – anno 2011” granted as a winner of the “Announcement of the grant of Academic research projects - year 2011”. The research concerns the development of colloidal solid lipid nanoparticles (SLN), prepared mainly through the coacervation technique, to be used as antineoplastic drug carriers in post-chirurgical glioblastoma therapy. The aim is the entrapment of lipophilic and hydrophilic antineoplastic agents in positive-charged and surface-modified SLN. The presence, on SLN surface, of specific ligand able to bind the receptors present on the membrane of Brain-Blood-Barrier endothelial cells might promote an active targeting.
The project involved three Operative Units: the Department of Scienza e Tecnologia del Farmaco, the Department of Neuroscienze e the Department of Patologia Animale of the University of Turin.
-
Ricerca e Istruzione 2016 (Fondazione CRT): 'Ricerca per lo sviluppo di antitumorali attivi nei confronti di tumori resistenti'
- Idrogeli nanocompositi termosensibli per il rilascio intravitreale di cefuroxima”, finanziato dalla Fondazione CRT, anno 2017
- Inglobamento di anticorpi in particelle solide lipidiche a diversa composizione (SLN)
Research groups
Research projects
- Research of a new antitumor compounds active against chemo-resistant tumors
- Advanced nanosystems for ophthalmic administration
- Asymmetrical flow field-flow fractionation (AF4) technique in pharmaceutical and biomedical applications.
- Encapsulation of antitumoral drugs and curcumin as Pgp inhibitor in solid lipid nanoparticles (SLN)
Activities in agenda
Academic bodies
Office hours
su appuntamento