00799nas a2200205 4500008004100000245016900041210006900210300001300279490000800292653001900300100001600319700001400335700001600349700001600365700001800381700001800399700001700417700002000434856013900454 2016 eng d00aCombining electroencephalographic activity and instantaneous heart rate for assessing brain–heart dynamics during visual emotional elicitation in healthy subjects0 aCombining electroencephalographic activity and instantaneous hea a201501760 v37410aBioengineering1 aValenza, G.1 aGreco, A.1 aGentili, C.1 aLanatà, A.1 aSebastiani, L1 aMenicucci, D.1 aGemignani, A1 aScilingo, E. P. uhttp://www.centropiaggio.unipi.it/publications/combining-electroencephalographic-activity-and-instantaneous-heart-rate-assessing-brain00606nas a2200157 4500008004100000245008500041210006900126653001900195100001600214700001700230700001600247700001700263700001400280700002000294856013400314 2016 eng d00aPredicting Mood Changes in Bipolar Disorder through Heartbeat Nonlinear Dynamics0 aPredicting Mood Changes in Bipolar Disorder through Heartbeat No10aBioengineering1 aValenza, G.1 aNardelli, M.1 aGentili, C.1 aBertschy, G.1 aKosel, M.1 aScilingo, E. P. uhttp://www.centropiaggio.unipi.it/publications/predicting-mood-changes-bipolar-disorder-through-heartbeat-nonlinear-dynamics.html00692nas a2200205 4500008003900000245008000039210006900119260000900188300001000197653001900207100001600226700001400242700001600256700001600272700001800288700001800306700001700324700002000341856012500361 2015 d00aBrain dynamics during emotion elicitation in healthy subjects: An EEG study0 aBrain dynamics during emotion elicitation in healthy subjects An bIEEE a1–310aBioengineering1 aValenza, G.1 aGreco, A.1 aLanatà, A.1 aGentili, C.1 aMenicucci, D.1 aSebastiani, L1 aGemignani, A1 aScilingo, E. P. uhttp://www.centropiaggio.unipi.it/publications/brain-dynamics-during-emotion-elicitation-healthy-subjects-eeg-study.html00715nas a2200181 4500008004100000245014800041210006900189300001400258490000700272653001900279100001600298700001300314700001600327700001400343700002000357700001700377856013900394 2015 eng d00aCharacterization of Depressive States in Bipolar Patients using Wearable Textile Technology and Instantaneous Heart Rate Variability Assessment0 aCharacterization of Depressive States in Bipolar Patients using a263–2740 v1910aBioengineering1 aValenza, G.1 aCiti, L.1 aGentili, C.1 aLanata, A1 aScilingo, E. P.1 aBarbieri, R. uhttp://www.centropiaggio.unipi.it/publications/characterization-depressive-states-bipolar-patients-using-wearable-textile-technology-000697nas a2200193 4500008004100000245011500041210006900156260001200225490000600237100001700243700001600260700001500276700001600291700001400307700001300321700001400334700002000348856013500368 2015 eng d00aCharacterizing psychological dimensions in non-pathological subjects through autonomic nervous system dynamics0 aCharacterizing psychological dimensions in nonpathological subje c03/20150 v91 aNardelli, M.1 aValenza, G.1 aCristea, I1 aGentili, C.1 aCotet, C.1 aDavid, D1 aLanata, A1 aScilingo, E. P. uhttp://www.centropiaggio.unipi.it/publications/characterizing-psychological-dimensions-non-pathological-subjects-through-autonomic00647nas a2200169 4500008004100000245010900041210006900150300001400219490000700233653001900240100001400259700001600273700001700289700001600306700002000322856013500342 2015 eng d00aComplexity Index from a Personalized Wearable Monitoring System for Assessing Remission in Mental Health0 aComplexity Index from a Personalized Wearable Monitoring System a132–1390 v1910aBioengineering1 aLanata, A1 aValenza, G.1 aNardelli, M.1 aGentili, C.1 aScilingo, E. P. uhttp://www.centropiaggio.unipi.it/publications/complexity-index-personalized-wearable-monitoring-system-assessing-remission-mental00701nas a2200181 4500008004100000245012500041210006900166300001700235653001900252100001400271700001600285700001400301700001600315700001500331700001500346700002000361856013800381 2015 eng d00aHow the autonomic nervous system and driving style change with incremental stressing conditions during simulated driving0 aHow the autonomic nervous system and driving style change with i a1505 - 1517 10aBioengineering1 aLanata, A1 aValenza, G.1 aGreco, A.1 aGentili, C.1 aBucchi, F.1 aFrendo, F.1 aScilingo, E. P. uhttp://www.centropiaggio.unipi.it/publications/how-autonomic-nervous-system-and-driving-style-change-incremental-stressing-conditions00669nas a2200181 4500008003900000245010600039210006900145260000900214300001400223653001900237100001600256700001700272700001600289700001600305700001700321700002000338856012900358 2015 d00aPredicting mood changes in bipolar disorder through heartbeat nonlinear dynamics: A preliminary study0 aPredicting mood changes in bipolar disorder through heartbeat no bIEEE a801–80410aBioengineering1 aValenza, G.1 aNardelli, M.1 aLanatà, A.1 aGentili, C.1 aBertschy, G.1 aScilingo, E. P. uhttp://www.centropiaggio.unipi.it/publications/predicting-mood-changes-bipolar-disorder-through-heartbeat-nonlinear-dynamics00668nas a2200157 4500008004100000245014800041210006900189653001900258100001600277700001300293700001600306700001400322700002000336700001700356856013700373 2014 eng d00aCharacterization of Depressive States in Bipolar Patients using Wearable Textile Technology and Instantaneous Heart Rate Variability Assessment0 aCharacterization of Depressive States in Bipolar Patients using 10aBioengineering1 aValenza, G.1 aCiti, L.1 aGentili, C.1 aLanata, A1 aScilingo, E. P.1 aBarbieri, R. uhttp://www.centropiaggio.unipi.it/publications/characterization-depressive-states-bipolar-patients-using-wearable-textile-technology00655nas a2200181 4500008004100000245009100041210006900132300001400201490000700215653001900222100001600241700001300257700001600270700001400286700002000300700001700320856013600337 2014 eng d00aPoint-Process Nonlinear Autonomic Assessment of Depressive States in Bipolar Patients0 aPointProcess Nonlinear Autonomic Assessment of Depressive States a296–3020 v5310aBioengineering1 aValenza, G.1 aCiti, L.1 aGentili, C.1 aLanata, A1 aScilingo, E. P.1 aBarbieri, R. uhttp://www.centropiaggio.unipi.it/publications/point-process-nonlinear-autonomic-assessment-depressive-states-bipolar-patients.html00688nas a2200169 4500008004100000245013400041210006900175653001900244100001600263700001700279700001400296700001600310700001700326700001600343700002000359856013900379 2014 eng d00aWearable Monitoring for Mood Recognition in Bipolar Disorder based on History-Dependent Long-Term Heart Rate Variability Analysis0 aWearable Monitoring for Mood Recognition in Bipolar Disorder bas10aBioengineering1 aValenza, G.1 aNardelli, M.1 aLanata, A1 aGentili, C.1 aBertschy, G.1 aParadiso, R1 aScilingo, E. P. uhttp://www.centropiaggio.unipi.it/publications/wearable-monitoring-mood-recognition-bipolar-disorder-based-history-dependent-long-term00622nas a2200157 4500008004100000245011100041210006900152300001200221490000700233653001900240100001600259700001600275700001400291700002000305856013900325 2013 eng d00aMood recognition in bipolar patients through the PSYCHE platform: Preliminary evaluations and perspectives0 aMood recognition in bipolar patients through the PSYCHE platform a49–580 v5710aBioengineering1 aValenza, G.1 aGentili, C.1 aLanata, A1 aScilingo, E. P. uhttp://www.centropiaggio.unipi.it/publications/mood-recognition-bipolar-patients-through-psyche-platform-preliminary-evaluations-and-000721nas a2200193 4500008004100000245013200041210006900173300001400242490000700256653001900263100001200282700001500294700001400309700001600323700001600339700002000355700001300375856013900388 2012 eng d00aAre socially anxious individuals less empathic? A psychophysiological investigation of facial mimicry for emotional expressions0 aAre socially anxious individuals less empathic A psychophysiolog a375–3760 v8510aBioengineering1 aMatu, S1 aCristea, I1 aCoteţ, C1 aValenza, G.1 aGentili, C.1 aScilingo, E. P.1 aDavid, D uhttp://www.centropiaggio.unipi.it/publications/are-socially-anxious-individuals-less-empathic-psychophysiological-investigation-facial00670nas a2200181 4500008004100000245011700041210006900158300000800227490000700235653001900242100001500261700001600276700001600292700001500308700002000323700001300343856013200356 2012 eng d00aCognitive reappraisal and acceptance distinctively impact heart rate variability in socially anxious individuals0 aCognitive reappraisal and acceptance distinctively impact heart a3390 v8510aBioengineering1 aCristea, I1 aValenza, G.1 aGentili, C.1 aTatar, A S1 aScilingo, E. P.1 aDavid, D uhttp://www.centropiaggio.unipi.it/publications/cognitive-reappraisal-and-acceptance-distinctively-impact-heart-rate-variability00674nas a2200205 4500008004100000245007200041210006900113260000900182300001600191653001900207100001500226700001300241700001600254700001400270700001700284700001600301700001400317700002000331856011700351 2012 eng d00aSpeech analysis for mood state characterization in bipolar patients0 aSpeech analysis for mood state characterization in bipolar patie bIEEE a2104–210710aBioengineering1 aVanello, N1 aGuidi, A1 aGentili, C.1 aWerner, S1 aBertschy, G.1 aValenza, G.1 aLanata, A1 aScilingo, E. P. uhttp://www.centropiaggio.unipi.it/publications/speech-analysis-mood-state-characterization-bipolar-patients.html02084nas a2200253 4500008004100000245009000041210006900131260003800200300001600238490000700254520127800261653001201539100001701551700001501568700001201583700001601595700002001611700001501631700001701646700001501663700001501678700001601693856012101709 2007 eng d00aThe Effect of Visual Experience on the Development of Functional Architecture in hMT+0 aEffect of Visual Experience on the Development of Functional Arc bOxford University PresscMarch 19 a2933 - 29390 v173 a
We investigated whether the visual hMT+ cortex plays a role in supramodal representation of sensory flow, not mediated by visual mental imagery. We used functional magnetic resonance imaging to measure neural activity in sighted and congenitally blind individuals during passive perception of optic and tactile flows. Visual motion-responsive cortex, including hMT+, was identified in the lateral occipital and inferior temporal cortices of the sighted subjects by response to optic flow. Tactile flow perception in sighted subjects activated the more anterior part of these cortical regions but deactivated the more posterior part. By contrast, perception of tactile flow in blind subjects activated the full extent, including the more posterior part. These results demonstrate that activation of hMT+ and surrounding cortex by tactile flow is not mediated by visual mental imagery and that the functional organization of hMT+ can develop to subserve tactile flow perception in the absence of any visual experience. Moreover, visual experience leads to a segregation of the motion-responsive occipitotemporal cortex into an anterior subregion involved in the representation of both optic and tactile flows and a posterior subregion that processes optic flow only.
10aHaptics1 aRicciardi, E1 aVanello, N1 aSani, L1 aGentili, C.1 aScilingo, E. P.1 aLandini, L1 aGuazzelli, M1 aBicchi, A.1 aHaxby, J V1 aPietrini, P uhttp://www.centropiaggio.unipi.it/publications/effect-visual-experience-development-functional-architecture-hmt.html00893nas a2200265 4500008004100000245015000041210006900191260001300260300001300273490000700286653001200293100001700305700001200322700001600334700001400350700001500364700001500379700001600394700001700410700001500427700001500442700001600457700001600473856013800489 2006 eng d00aBrain response to visual, tactile and auditory flow in sighted and blind individuals supports a supramodal functional organization in hMT complex0 aBrain response to visual tactile and auditory flow in sighted an bElsevier a512 TH-P0 v3110aHaptics1 aRicciardi, E1 aSani, L1 aGentili, C.1 aBonino, D1 aVanello, N1 aHaxby, J V1 aSeifritz, E1 aGuazzelli, M1 aLandini, L1 aBicchi, A.1 aDi Salle, F1 aPietrini, P uhttp://www.centropiaggio.unipi.it/publications/brain-response-visual-tactile-and-auditory-flow-sighted-and-blind-individuals-supports00753nas a2200229 4500008004100000245009400041210006900135300001400204490000700218653001200225100001600237700001700253700001600270700001400286700001500300700001200315700001300327700001700340700001500357700001500372856013600387 2005 eng d00aOltre le immagini sensoriali: la rappresentazione degli oggetti nella via visiva ventrale0 aOltre le immagini sensoriali la rappresentazione degli oggetti n aS81–S830 v2610aHaptics1 aPietrini, P1 aRicciardi, E1 aGentili, C.1 aBonino, D1 aVanello, N1 aSani, L1 aDanti, S1 aGuazzelli, M1 aBicchi, A.1 aVecchi, TE uhttp://www.centropiaggio.unipi.it/publications/oltre-le-immagini-sensoriali-la-rappresentazione-degli-oggetti-nella-visiva-ventrale00767nas a2200205 4500008004100000245016400041210006900205300001200274490000600286653001200292100001700304700001200321700001600333700001500349700001500364700001500379700001500394700001600409856013600425 2005 eng d00aSupramodal response of human MT+ complex to visual and tactile perception of flow as demonstrated by fMRI studies in sighted and congenitally blind individuals0 aSupramodal response of human MT complex to visual and tactile pe a129-1290 v110aHaptics1 aRicciardi, E1 aSani, L1 aGentili, C.1 aVanello, N1 aHaxby, J V1 aLandini, L1 aBicchi, A.1 aPietrini, P uhttp://www.centropiaggio.unipi.it/publications/supramodal-response-human-mt-complex-visual-and-tactile-perception-flow-demonstrated01538nas a2200265 4500008004100000245009700041210006900138520068700207653001200894100001500906700001700921700001300938700001900951700002000970700001600990700001201006700001601018700002201034700001701056700001501073700001501088700001501103700001601118856013801134 2004 eng d00aPerception of Optic and Tactile Flow Both Activate V5/MT cortical complex in the human brain0 aPerception of Optic and Tactile Flow Both Activate V5MT cortical3 aV5/MT complex responds selectively to perception of optic flow (Morrone et al., Nature Neurosci , 2001). Since similarities exist between visual and tactile perception, we hypothesized that tactile flow might also rely on V5/MT response. We and others have shown recently that visual extrastriate cortical areas respond both during visual and tactile recognition of objects, indicating that these regions are organized in a supramodal fashion. In this study, we measured neural response evoked during visual and tactile perception of coherently moving dot patterns to test the hypothesis that V5/MT may be supramodally organized and may respond also to tactile stimulation.
10aHaptics1 aVanello, N1 aRicciardi, E1 aDente, D1 aSgambelluri, N1 aScilingo, E. P.1 aGentili, C.1 aSani, L1 aPositano, V1 aSantarelli, M. F.1 aGuazzelli, M1 aHaxby, J V1 aLandini, L1 aBicchi, A.1 aPietrini, P uhttp://www.centropiaggio.unipi.it/publications/perception-optic-and-tactile-flow-both-activate-v5mt-cortical-complex-human-brain.html01357nas a2200277 4500008004100000245009400041210006900135300001200204520048800216653001200704100001700716700001500733700001300748700001900761700002000780700001600800700001200816700001600828700002200844700001700866700001500883700001500898700001500913700001600928856013500944 2004 eng d00aPerception of visual and tactile flow activates common cortical areas in the human brain.0 aPerception of visual and tactile flow activates common cortical a290-2923 aWe report results of a pilot study using functional magnetic resonance imaging aimed at determining the neural correlates of tactile flow. We hypothesized that brain response to tactile flow would involve the same cortical areas (V5/MT) that respond to optic flow. Our results showed that V5/MT cortex indeed is activated by tactile flow perception. These findings are consistent with a supramodal organization of brain regions involved in optic and tactile flow processing.
10aHaptics1 aRicciardi, E1 aVanello, N1 aDente, D1 aSgambelluri, N1 aScilingo, E. P.1 aGentili, C.1 aSani, L1 aPositano, V1 aSantarelli, M. F.1 aGuazzelli, M1 aHaxby, J V1 aLandini, L1 aBicchi, A.1 aPietrini, P uhttp://www.centropiaggio.unipi.it/publications/perception-visual-and-tactile-flow-activates-common-cortical-areas-human-brain.html