about
Intrinsic patterns of coupling between correlation and amplitude of low-frequency fMRI fluctuations are disrupted in degenerative dementia mainly due to functional disconnectionBilateral Transcranial Direct Current Stimulation Language Treatment Enhances Functional Connectivity in the Left Hemisphere: Preliminary Data from Aphasia.Nonergodic arrested state in diluted clay suspensions monitored by triple-quantum 23Na nuclear magnetic resonance.Organization and hierarchy of the human functional brain network lead to a chain-like core.Modafinil-Induced Changes in Functional Connectivity in the Cortex and Cerebellum of Healthy Elderly Subjects.Moving Beyond the Brain: Transcutaneous Spinal Direct Current Stimulation in Post-Stroke Aphasia.Boronophenylalanine uptake in C6 glioma model is dramatically increased by L-DOPA preloading.Task-Related Modulations of BOLD Low-Frequency Fluctuations within the Default Mode Network.The thalamus and brainstem act as key hubs in alterations of human brain network connectivity induced by mild propofol sedation.Anatomical connectivity mapping: a new tool to assess brain disconnection in Alzheimer's disease.Modeling the contribution of neuron-astrocyte cross talk to slow blood oxygenation level-dependent signal oscillations.L-DOPA preloading increases the uptake of borophenylalanine in C6 glioma rat model: a new strategy to improve BNCT efficacy.Solvent quality influence on the dielectric properties of polyelectrolyte solutions: a scaling approach.Unraveling predictors affecting compliance to MRI in Parkinson's disease.Are aortic endograft prostheses fully hemo-compatible? A dielectric spectroscopy investigation of the electrical alterations induced on erythrocyte cell membranes.Regional brain atrophy and functional disconnection across Alzheimer's disease evolution.Right sensory-motor functional networks subserve action observation therapy in aphasia.Hemocompatibility of carotid artery stents: alterations of the electrical parameters of erythrocyte cell membrane--a word of caution.Electrical conductivity of polyelectrolyte solutions in the presence of added salt: The role of the solvent quality factor in light of a scaling approach.Segregation of Brain Structural Networks Supports Spatio-Temporal Predictive Processing.Reduction of the contribution of electrode polarization effects in the radiowave dielectric measurements of highly conductive biological cell suspensionsMetastable States of Multiscale Brain Networks Are Keys to Crack the Timing ProblemTOPEM: A multimodality probe (PET TOF, MRI, and MRS) for diagnosis and follow up of prostate cancerScale-invariant rearrangement of resting state networks in the human brain under sustained stimulationCerebral Perfusion Changes After Osteopathic Manipulative Treatment: A Randomized Manual Placebo-Controlled TrialTime evolution of the formation of different size cationic liposome-polyelectrolyte complexesElectrical conductivity of aqueous polyelectrolyte solutions in the presence of counterion condensation: the scaling approach revisitedConductometric properties of linear polyelectrolytes in poor-solvent condition: the necklace modelComplexation of anionic polyelectrolytes with cationic liposomes: evidence of reentrant condensation and lipoplex formationStairways to the brain: Transcutaneous spinal direct current stimulation (tsDCS) modulates a cerebellar-cortical network enhancing verb recoveryMild Propofol Sedation Reduces Frontal Lobe and Thalamic Cerebral Blood Flow: An Arterial Spin Labeling Study
P50
Q23992170-D19AD2D1-5C35-49DE-B713-BC21E9FBDC8CQ31039697-FCB7D293-9038-4AA7-9110-C2A5C0C28128Q31114130-1F4BEF64-648D-44B8-A9C2-1254FE8B31D9Q33884788-7F11EEDD-13C8-46CF-A378-34DDEA8BF16CQ36351420-929A0DF5-CC8E-46E1-8DD7-2ACF65153593Q38371563-0DCAE385-FA12-4FA8-9EF9-86ED1FF256CCQ39859625-06688568-BCFB-4585-87EE-B1BF6676B4ABQ41496436-37D65045-8491-494F-8AAD-E8BC8F83D677Q42262357-C926DB17-C559-464D-BB93-97D0A536167DQ43763329-94C8EEE6-E449-409E-8CCA-CF89208EF2A4Q45271808-0C50F553-7703-467B-BB95-6F4289CF86FFQ46365667-838FC494-0C06-4C4B-94D3-867A58DCBF1BQ46767478-806F21F3-523C-48E8-BCCD-0D7682A189FAQ47692200-98F083D7-7BD1-4D7F-92F1-9C45454F601CQ47728204-25493503-3663-4A23-81D8-206E80B83C15Q48123079-2FBB5EB1-E99C-4C17-9EF9-985C39BF9326Q48480379-37A219BD-3A53-4F6B-8404-1CEB46752334Q50585364-17B92621-BE72-4ADD-B300-44AF4402F553Q54393968-B36BAC18-2F3A-4B97-8CB2-BAFD1F3393EFQ55263085-281D79D8-5381-4FD9-9E2A-C454ACA52241Q57135066-7F07C1F6-3C9A-4783-81EB-F4968C2B9541Q58750525-3FB1D8BF-0E19-400A-AC10-6EC17AF16946Q59415872-A9E9448C-D2A0-4F5B-86B9-50C567A6DC97Q60713622-60D73E7B-6363-4330-B12E-8B4D30EC9338Q64072082-3C03FF57-95F3-4ADA-B5B2-93108D0FD60DQ73281158-8A54A7FB-8B93-43A8-9386-A91E6A2E52EEQ74810603-7CC3B87B-589F-40A3-998C-2CB332633897Q80355530-F82CC2B0-E87F-41B9-BD0D-DF6697D0DD6AQ81905401-7E6A6272-C8F6-4049-A0E6-017DB78BB69EQ91440553-287D262A-E1AC-4FEB-B183-534AD67A8F22Q92536124-77B5F8D2-F292-41AF-9473-1CF2BAA33F99
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Tommaso Gili
@ast
Tommaso Gili
@en
Tommaso Gili
@es
Tommaso Gili
@nl
Tommaso Gili
@sl
type
label
Tommaso Gili
@ast
Tommaso Gili
@en
Tommaso Gili
@es
Tommaso Gili
@nl
Tommaso Gili
@sl
prefLabel
Tommaso Gili
@ast
Tommaso Gili
@en
Tommaso Gili
@es
Tommaso Gili
@nl
Tommaso Gili
@sl
P106
P1153
13310221100
P21
P31
P496
0000-0001-9154-1758