Sfoglia per Titolo
IRON AND CALCIUM EDAX DETECTION ON BOTRYOIDAL TISSUE OF HIRUDO MEDICINALIS
1999-01-01 DE EGUILEOR, MAGDA ANNA; Grimaldi, Annalisa; Protasoni, Marina; Raspanti, Mario
iron concentration and distribution in the newborn liver
1994-01-01 Faa, G; Sciot, R; Farci, Amg; Callea, F; Ambu, R; Congiu, Terenzio; VAN EYKEN, P; Cappai, G; Marras, A; Costa, V; Desmet, Vj
Iron detection and speciation in natural waters by electrochemical techniques: A critical review
2017-01-01 Laglera, Luis M.; Monticelli, Damiano
Iron K ?? echoes from the circumnuclear disk orbiting S??r A ???
2023-01-01 Stel, Giovanni; Ponti, Gabriele; Haardt, Francesco
Iron nanoparticle bio-interactions evaluated in Xenopus laevis embryos, a model for studying the safety of ingested nanoparticles
2020-01-01 Bonfanti, Patrizia; Colombo, Anita; Saibene, Melissa; Fiandra, Luisa; Armenia, Ilaria; Gamberoni, Federica; Gornati, Rosalba; Bernardini, GIOVANNI BATTISTA; Mantecca, Paride
Iron oxidation, interfacial expansion, and buckling at the Fe/NiO(001) interface
2006-01-01 Luches, P; Bellini, V; Colonna, S; Di Giustino, L; Manghi, F; Valeri, S; Boscherini, F
Iron oxide magnetic nanoparticles for magnetic fluid hyperthermia therapy: synthesis and characterization
2015-01-01 Bertani, R.; Ceretta, F.; Dughiero, F.; Forzan, M.; Gandin, V.; Marzano, C.; Michelin, R.; Stoian, S.; Ozarowski, A.; Sgarbossa, P.; Sieni, E.; Spizzo, F.
Iron oxide magnetic nanoparticles included in PLGA nanoparticles and liposomes for MFH applications
2014-01-01 Aime, S.; Bertani, R.; Ceretta, F.; Dughiero, F.; Forzan, M.; Geninatti, S.; Ruggiero, M.; Sgarbossa, P.; Sieni, E.
Iron oxide nanoparticles can cross plasma membranes
2017-01-01 Zanella, Daniele; Bossi, Elena; Gornati, Rosalba; Bastos, Carlos; Faria, Nuno; Bernardini, Giovanni
Iron Oxide Nanoparticles with and without Cobalt Functionalization Provoke Changes in the Transcription Profile via Epigenetic Modulation of Enhancer Activity
2023-01-01 Gamberoni, Federica; Borgese, Marina; Pagiatakis, Christina; Armenia, Ilaria; Grazù, Valeria; Gornati, Rosalba; Serio, Simone; Papait, Roberto; Bernardini, Giovanni
Iron oxide nanoparticles: a platform for biomolecule conjugation
2018-01-01 Armenia, Ilaria
IRON OXIDE/PLGA NANOPARTICLES FOR MAGNETICALLY CONTROLLED DRUG RELEASE
2016-01-01 Rosaria Ruggiero, M.; Geninatti Crich, Simonetta; Sieni, Elisabetta; Sgarbossa, Paolo; Cavallari, E.; Stefania, Rachele; Dughiero, Fabrizio; Aime, Silvio
Iron oxide/PLGA nanoparticles for magnetically controlled drug release
2017-01-01 Ruggiero, M. Rosaria; Geninatti Crich, Simonetta; Sieni, Elisabetta; Sgarbossa, Paolo; Cavallari, E.; Stefania, Rachele; Dughiero, Fabrizio; Aime, Silvio
Iron supplementation in young iron-deficient females causes gastrointestinal redox imbalance: protective effect of a fermented nutraceutical
2014-01-01 Bertuccelli, G.; Marotta, F.; Zerbinati, Nicola; Cabeca, A.; He, F.; Jain, S.; Lorenzetti, A.; Yadav, H.; Milazzo, M.; Calabrese, F.; Tomella, C.; Catanzaro, R.; Regenera, Research Group for Aging Intervention
Iron-capturing ability of various aporubredoxin conformation.
2006-01-01 Bonomi, F; Ferranti, P; Iametti, S; Kurtz, Dm; Morleo, A; Picariello, G; Pollegioni, Loredano
Iron-nickel mixed metal nitrido clusters: Synthesis and solid state structure of the anions [HFe5NiN(CO)14]2- and [HFe4Ni2N(CO)13]2-.
2008-01-01 DELLA PERGOLA, Roberto; Fumagalli, Alessandro; Garlaschelli, Luigi; Manassero, Carlo; Manassero, Mario; Sansoni, Mirella; Sironi, Annalisa
Irradiated CIITA-positive mammary adenocarcinoma cells act as a potent antitumor preventive vaccine by inducing tumor-specific CD4+ T cell priming and CD8+ T cell effector functions
2010-01-01 Mortara, Lorenzo; Frangione, V.; Castellani, P.; De Lerma Barbaro, A.; Accolla, R. S.
Irradiated CIITA-positive mammary adenocarcinoma cells act as a potent antitumor preventive vaccine by inducing tumor-specific CD4+ T cell priming and CD8+ T cell effector functions.
2009-01-01 Mortara, Lorenzo; V., Frangione; P., Castellani; DE LERMA BARBARO, Andrea; Accolla, Roberto
Irradiated CIITA-positive mammary adenocarcinoma cells act as effective tumor cell vaccine inducing both tumor-specific CD4+ and CD8+ T immune responses and tumor rejection upon challenge.
2008-01-01 Mortara, Lorenzo; V., Frangione; M., Pinter; P., Castellani; DE LERMA BARBARO, Andrea; Accolla, Roberto
Irradiated CIITA-positive mammary adenocarcinoma cells act as potent anti-tumor preventive vaccine by inducine tumor-specific CD4+ T cell priming and CD8+ T cell effector functions
2009-01-01 Mortara, Lorenzo; Frangione, V; Castellani, P; DE LERMA BARBARO, Andrea; Accolla, Roberto
| Titolo | Data di pubblicazione | Autore(i) | File |
|---|---|---|---|
| IRON AND CALCIUM EDAX DETECTION ON BOTRYOIDAL TISSUE OF HIRUDO MEDICINALIS | 1-gen-1999 | DE EGUILEOR, MAGDA ANNA; Grimaldi, Annalisa; Protasoni, Marina; Raspanti, Mario | |
| iron concentration and distribution in the newborn liver | 1-gen-1994 | Faa, G; Sciot, R; Farci, Amg; Callea, F; Ambu, R; Congiu, Terenzio; VAN EYKEN, P; Cappai, G; Marras, A; Costa, V; Desmet, Vj | |
| Iron detection and speciation in natural waters by electrochemical techniques: A critical review | 1-gen-2017 | Laglera, Luis M.; Monticelli, Damiano | |
| Iron K ?? echoes from the circumnuclear disk orbiting S??r A ??? | 1-gen-2023 | Stel, Giovanni; Ponti, Gabriele; Haardt, Francesco | |
| Iron nanoparticle bio-interactions evaluated in Xenopus laevis embryos, a model for studying the safety of ingested nanoparticles | 1-gen-2020 | Bonfanti, Patrizia; Colombo, Anita; Saibene, Melissa; Fiandra, Luisa; Armenia, Ilaria; Gamberoni, Federica; Gornati, Rosalba; Bernardini, GIOVANNI BATTISTA; Mantecca, Paride | |
| Iron oxidation, interfacial expansion, and buckling at the Fe/NiO(001) interface | 1-gen-2006 | Luches, P; Bellini, V; Colonna, S; Di Giustino, L; Manghi, F; Valeri, S; Boscherini, F | |
| Iron oxide magnetic nanoparticles for magnetic fluid hyperthermia therapy: synthesis and characterization | 1-gen-2015 | Bertani, R.; Ceretta, F.; Dughiero, F.; Forzan, M.; Gandin, V.; Marzano, C.; Michelin, R.; Stoian, S.; Ozarowski, A.; Sgarbossa, P.; Sieni, E.; Spizzo, F. | |
| Iron oxide magnetic nanoparticles included in PLGA nanoparticles and liposomes for MFH applications | 1-gen-2014 | Aime, S.; Bertani, R.; Ceretta, F.; Dughiero, F.; Forzan, M.; Geninatti, S.; Ruggiero, M.; Sgarbossa, P.; Sieni, E. | |
| Iron oxide nanoparticles can cross plasma membranes | 1-gen-2017 | Zanella, Daniele; Bossi, Elena; Gornati, Rosalba; Bastos, Carlos; Faria, Nuno; Bernardini, Giovanni | |
| Iron Oxide Nanoparticles with and without Cobalt Functionalization Provoke Changes in the Transcription Profile via Epigenetic Modulation of Enhancer Activity | 1-gen-2023 | Gamberoni, Federica; Borgese, Marina; Pagiatakis, Christina; Armenia, Ilaria; Grazù, Valeria; Gornati, Rosalba; Serio, Simone; Papait, Roberto; Bernardini, Giovanni | |
| Iron oxide nanoparticles: a platform for biomolecule conjugation | 1-gen-2018 | Armenia, Ilaria | |
| IRON OXIDE/PLGA NANOPARTICLES FOR MAGNETICALLY CONTROLLED DRUG RELEASE | 1-gen-2016 | Rosaria Ruggiero, M.; Geninatti Crich, Simonetta; Sieni, Elisabetta; Sgarbossa, Paolo; Cavallari, E.; Stefania, Rachele; Dughiero, Fabrizio; Aime, Silvio | |
| Iron oxide/PLGA nanoparticles for magnetically controlled drug release | 1-gen-2017 | Ruggiero, M. Rosaria; Geninatti Crich, Simonetta; Sieni, Elisabetta; Sgarbossa, Paolo; Cavallari, E.; Stefania, Rachele; Dughiero, Fabrizio; Aime, Silvio | |
| Iron supplementation in young iron-deficient females causes gastrointestinal redox imbalance: protective effect of a fermented nutraceutical | 1-gen-2014 | Bertuccelli, G.; Marotta, F.; Zerbinati, Nicola; Cabeca, A.; He, F.; Jain, S.; Lorenzetti, A.; Yadav, H.; Milazzo, M.; Calabrese, F.; Tomella, C.; Catanzaro, R.; Regenera, Research Group for Aging Intervention | |
| Iron-capturing ability of various aporubredoxin conformation. | 1-gen-2006 | Bonomi, F; Ferranti, P; Iametti, S; Kurtz, Dm; Morleo, A; Picariello, G; Pollegioni, Loredano | |
| Iron-nickel mixed metal nitrido clusters: Synthesis and solid state structure of the anions [HFe5NiN(CO)14]2- and [HFe4Ni2N(CO)13]2-. | 1-gen-2008 | DELLA PERGOLA, Roberto; Fumagalli, Alessandro; Garlaschelli, Luigi; Manassero, Carlo; Manassero, Mario; Sansoni, Mirella; Sironi, Annalisa | |
| Irradiated CIITA-positive mammary adenocarcinoma cells act as a potent antitumor preventive vaccine by inducing tumor-specific CD4+ T cell priming and CD8+ T cell effector functions | 1-gen-2010 | Mortara, Lorenzo; Frangione, V.; Castellani, P.; De Lerma Barbaro, A.; Accolla, R. S. | |
| Irradiated CIITA-positive mammary adenocarcinoma cells act as a potent antitumor preventive vaccine by inducing tumor-specific CD4+ T cell priming and CD8+ T cell effector functions. | 1-gen-2009 | Mortara, Lorenzo; V., Frangione; P., Castellani; DE LERMA BARBARO, Andrea; Accolla, Roberto | |
| Irradiated CIITA-positive mammary adenocarcinoma cells act as effective tumor cell vaccine inducing both tumor-specific CD4+ and CD8+ T immune responses and tumor rejection upon challenge. | 1-gen-2008 | Mortara, Lorenzo; V., Frangione; M., Pinter; P., Castellani; DE LERMA BARBARO, Andrea; Accolla, Roberto | |
| Irradiated CIITA-positive mammary adenocarcinoma cells act as potent anti-tumor preventive vaccine by inducine tumor-specific CD4+ T cell priming and CD8+ T cell effector functions | 1-gen-2009 | Mortara, Lorenzo; Frangione, V; Castellani, P; DE LERMA BARBARO, Andrea; Accolla, Roberto |
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