Sfoglia per Autore
Rapid mapping of visual receptive fields by filtered back projection: application to multi‐neuronal electrophysiology and imaging
2014-01-01 Johnston, J; Ding, H; Seibel, S. H.; Esposti, Federico; Lagnado, L.
A synaptic mechanism for temporal filtering of visual signals
2014-01-01 Baden, T; Nikolaev, A; Esposti, Federico; Dreosti, E; Odermatt, B; Lagnado, L.
Congenital nystagmus gene FRMD7 is necessary for establishing a neuronal circuit asymmetry for direction selectivity
2016-01-01 Yonehara, K; Fiscella, M; Drinnenberg, A; Esposti, Federico; Trenholm, S; Krol, J; Franke, F; Gross Scherf, B; Kusnyerik, A; Müller, J; Szabo, A; Jüttnern, J; Cordoba, F; Police Reddy, A; Németh, J; Zsolt Nagy, Z; Munier, F; Hierlemann, A; Roska, B.
Functional ultrasound imaging as an innovative tool to assess hepatic microcirculation performances during and after liver transplantation procedures
2017-01-01 Concone, Giacomo; Esposti, Federico; Di Sandro, Stefano; De Carlis Luciano, Gregorio
Optogenetics in treating retinal disease
2017-01-01 Nelidova, Dasha; Esposti, Federico
Assessing microvascular hemodynamics by functional ultrasound. From basic research to clinics
2018-01-01 Brocci, Filippo; De Propris, Licia; Esposti, Federico
DECODING THE CENTRAL REPRESENTATIONS OF VISCERAL GASTROENTERIC INPUTS
2018-01-01 Esposti, Federico; Brocci, Filippo; Gustar, Adrian; Sanchini, Gabriele
Loss of circadian rhythm in HVAD patients correlates with early diagnosis of pump thrombosis
2018-01-01 Consolo, F.; Esposti, F.; Gustar, A.; Bertoldi, L.; De Bonis, M.; Pappalardo, F.
EARLY DIAGNOSIS OF PUMP THROMBOSIS BASED ON TIME-FREQUENCY ANALYSIS OF LOG-FILES OF THE HEARTWARE HVAD VENTRICULAR ASSIST DEVICE
2018-01-01 Consolo, F; Esposti, F; Gustar, A; De Bonis, M; Pappalardo, F
Targeting neuronal and glial cell types with synthetic promoter AAVs in mice, non-human primates and humans
2019-01-01 Jüttner, J.; Szabo, A.; Gross-Scherf, B.; Morikawa, R. K.; Rompani, S. B.; Hantz, P.; Szikra, T.; Esposti, F.; Cowan, C. S.; Bharioke, A.; Patino-Alvarez, C. P.; Keles, Ö.; Kusnyerik, A.; Azoulay, T.; Hartl, D.; Krebs, A. R.; Schübeler, D.; Hajdu, R. I.; Lukats, A.; Nemeth, J.; Nagy, Z. Z.; Wu, ; K., -C.; Wu, ; R., -H.; Xiang, L.; Fang, ; X., -L.; Jin, ; Z., -B.; Goldblum, D.; Hasler, P. W.; Scholl, H. P. N.; Krol, J.; Roska, B.
Log files analysis and evaluation of circadian patterns for the early diagnosis of pump thrombosis with a centrifugal continuous-flow left ventricular assist device
2019-01-01 Consolo, Filippo; Esposti, Federico; Gustar, Adrian; De Bonis, Michele; Pappalardo, Federico
Fighting healthcare rocketing costs with value-based medicine: The case of stroke management
2020-01-01 Esposti, F.; Banfi, G.
Application of the “immunization islands” model to improve quality, efficiency and safety of a COVID-19 mass vaccination site [Applicazione del modello delle “isole vaccinali” per migliorare qualità, efficienza e sicurezza di un centro vaccinale massivo anti COVID-19]
2021-01-01 Signorelli, C; Odone, A; Gianfredi, V; Capraro, M; Kacerik, E; Chiecca, G; Scardoni, A; Minerva, M; Mantecca, R; Musarò, P; Brazzoli, P; Basteri, P; Bertini, B; Esposti, F; Ferri, C; Alberti, V. A; Gastaldi, G.
Titolo | Data di pubblicazione | Autore(i) | File |
---|---|---|---|
Rapid mapping of visual receptive fields by filtered back projection: application to multi‐neuronal electrophysiology and imaging | 1-gen-2014 | Johnston, J; Ding, H; Seibel, S. H.; Esposti, Federico; Lagnado, L. | |
A synaptic mechanism for temporal filtering of visual signals | 1-gen-2014 | Baden, T; Nikolaev, A; Esposti, Federico; Dreosti, E; Odermatt, B; Lagnado, L. | |
Congenital nystagmus gene FRMD7 is necessary for establishing a neuronal circuit asymmetry for direction selectivity | 1-gen-2016 | Yonehara, K; Fiscella, M; Drinnenberg, A; Esposti, Federico; Trenholm, S; Krol, J; Franke, F; Gross Scherf, B; Kusnyerik, A; Müller, J; Szabo, A; Jüttnern, J; Cordoba, F; Police Reddy, A; Németh, J; Zsolt Nagy, Z; Munier, F; Hierlemann, A; Roska, B. | |
Functional ultrasound imaging as an innovative tool to assess hepatic microcirculation performances during and after liver transplantation procedures | 1-gen-2017 | Concone, Giacomo; Esposti, Federico; Di Sandro, Stefano; De Carlis Luciano, Gregorio | |
Optogenetics in treating retinal disease | 1-gen-2017 | Nelidova, Dasha; Esposti, Federico | |
Assessing microvascular hemodynamics by functional ultrasound. From basic research to clinics | 1-gen-2018 | Brocci, Filippo; De Propris, Licia; Esposti, Federico | |
DECODING THE CENTRAL REPRESENTATIONS OF VISCERAL GASTROENTERIC INPUTS | 1-gen-2018 | Esposti, Federico; Brocci, Filippo; Gustar, Adrian; Sanchini, Gabriele | |
Loss of circadian rhythm in HVAD patients correlates with early diagnosis of pump thrombosis | 1-gen-2018 | Consolo, F.; Esposti, F.; Gustar, A.; Bertoldi, L.; De Bonis, M.; Pappalardo, F. | |
EARLY DIAGNOSIS OF PUMP THROMBOSIS BASED ON TIME-FREQUENCY ANALYSIS OF LOG-FILES OF THE HEARTWARE HVAD VENTRICULAR ASSIST DEVICE | 1-gen-2018 | Consolo, F; Esposti, F; Gustar, A; De Bonis, M; Pappalardo, F | |
Targeting neuronal and glial cell types with synthetic promoter AAVs in mice, non-human primates and humans | 1-gen-2019 | Jüttner, J.; Szabo, A.; Gross-Scherf, B.; Morikawa, R. K.; Rompani, S. B.; Hantz, P.; Szikra, T.; Esposti, F.; Cowan, C. S.; Bharioke, A.; Patino-Alvarez, C. P.; Keles, Ö.; Kusnyerik, A.; Azoulay, T.; Hartl, D.; Krebs, A. R.; Schübeler, D.; Hajdu, R. I.; Lukats, A.; Nemeth, J.; Nagy, Z. Z.; Wu, ; K., -C.; Wu, ; R., -H.; Xiang, L.; Fang, ; X., -L.; Jin, ; Z., -B.; Goldblum, D.; Hasler, P. W.; Scholl, H. P. N.; Krol, J.; Roska, B. | |
Log files analysis and evaluation of circadian patterns for the early diagnosis of pump thrombosis with a centrifugal continuous-flow left ventricular assist device | 1-gen-2019 | Consolo, Filippo; Esposti, Federico; Gustar, Adrian; De Bonis, Michele; Pappalardo, Federico | |
Fighting healthcare rocketing costs with value-based medicine: The case of stroke management | 1-gen-2020 | Esposti, F.; Banfi, G. | |
Application of the “immunization islands” model to improve quality, efficiency and safety of a COVID-19 mass vaccination site [Applicazione del modello delle “isole vaccinali” per migliorare qualità, efficienza e sicurezza di un centro vaccinale massivo anti COVID-19] | 1-gen-2021 | Signorelli, C; Odone, A; Gianfredi, V; Capraro, M; Kacerik, E; Chiecca, G; Scardoni, A; Minerva, M; Mantecca, R; Musarò, P; Brazzoli, P; Basteri, P; Bertini, B; Esposti, F; Ferri, C; Alberti, V. A; Gastaldi, G. |
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