about
Cognitive versus automatic mechanisms of mood induction differentially activate left and right amygdala.Auditory processing under cross-modal visual load investigated with simultaneous EEG-fMRI.Connecting multimodality in human communication.Neural correlates of effective and ineffective mood induction.Automated quality assurance routines for fMRI data applied to a multicenter study.Electrophysiology meets fMRI: neural correlates of the startle reflex assessed by simultaneous EMG-fMRI data acquisition.Effects of aversive odour presentation on inhibitory control in the Stroop colour-word interference task.Multisensory integration of emotionally valenced olfactory-visual information in patients with schizophrenia and healthy controls.Neural Correlates of Unsuccessful Memory Performance in MCI.The scent of salience--is there olfactory-trigeminal conditioning in humans?Who is to blame? Neural correlates of causal attribution in social situations.The effects of a DTNBP1 gene variant on attention networks: an fMRI studyBrain circuitries involved in semantic interference by demands of emotional and non-emotional distractorsAnger under control: neural correlates of frustration as a function of trait aggressionNeural correlates of social approach and withdrawal in patients with major depression.Neural responses to dynamic multimodal stimuli and pathology-specific impairments of social cognition in schizophrenia and depression.Incidental Memory Encoding Assessed with Signal Detection Theory and Functional Magnetic Resonance Imaging (fMRI).Disorder-specific characteristics of borderline personality disorder with co-occurring depression and its comparison with major depression: An fMRI study with emotional interference taskConflict adaptation in emotional task underlies the amplification of target.Brain circuitries involved in emotional interference task in major depression disorder.The influence of positive and negative emotional associations on semantic processing in depression: an fMRI study.(Don't) panic in the scanner! How panic patients with agoraphobia experience a functional magnetic resonance imaging session.Task-irrelevant fear enhances amygdala-FFG inhibition and decreases subsequent face processing.On utilizing uncertainty information in template-based EEG-fMRI ballistocardiogram artifact removal.Decreasing predictability of visual motion enhances feed-forward processing in visual cortex when stimuli are behaviorally relevant.Altered motor network activation and functional connectivity in adult Tourette's syndrome.Muscarinic antagonist effects on executive control of attention.Nicotinic antagonist effects on functional attention networks.Effect of cognitive-behavioral therapy on neural correlates of fear conditioning in panic disorder.Effects of a CACNA1C genotype on attention networks in healthy individuals.Multidimensional assessment of empathic abilities: neural correlates and gender differences.Latencies in BOLD response during visual attention processes.Processing of disgusted faces is facilitated by odor primes: a functional MRI study.Neuronal correlates of facial emotion discrimination in early onset schizophrenia.Estradiol modulates functional brain organization during the menstrual cycle: an analysis of interhemispheric inhibition.Differential brain activation during facial emotion discrimination in first-episode schizophrenia.Neural correlates of the core facets of empathy in schizophrenia.Neural correlates of the attention network test in schizophrenia.Differential brain activation according to chronic social reward frustration.Follow your nose: Implicit spatial processing within the chemosensory systems.
P50
Q30394884-7F418621-1F7D-42A8-A1DB-A2854E715C40Q30459822-E5BCE38C-32CB-4E92-9A3F-13AEE490A21FQ30557072-57ADB82B-BF41-412A-BF1A-2B429B426B19Q30579387-06CD3E86-98C3-4639-835C-F47E889984BDQ30987855-961A593B-9492-41A7-8872-6F881A085B74Q33537294-84EF8BC5-E4D0-465D-8872-9FE85510B07EQ33721385-4937B754-8C60-4176-B136-EABBAF9AE066Q33816555-D6EDC688-1925-49C4-88F7-064FB1891CA9Q34038444-79594BB5-F884-45D5-A798-9F80ED0F56C2Q34045069-D7540B69-1E15-4C57-92F6-65796542F2F6Q34099284-F07694BA-68EC-4F57-805D-42EF3EC89256Q34173810-2A8F1CA3-621B-4AED-B10C-3B1BF7FA7F0AQ34292855-4BA49636-2F6D-429C-83F9-F75896DF8D71Q35036481-22082C41-12F9-40A9-A508-D273753C7776Q35464768-0FDF10FD-4C8A-4115-BE83-EF997A652995Q35540700-37B7B58D-57E5-4A0D-8DD8-FC74C01773ECQ36290214-8305CD7F-00CA-443B-A3F2-AC290932E09BQ37270862-900F59BE-FBC7-4A49-B5BE-7F82535356B3Q38438366-A8A4AC49-46C3-41E1-94F2-0FFB186CAE8DQ38456344-D07AA6DC-9612-4B7F-B61E-017830B73462Q38463299-8CCE2454-1982-4257-B820-A50F74FB725FQ39789539-EFC7992A-B63B-466C-ACBD-0D0B2A69941BQ41043579-84EA1574-AFD9-41A2-AE1E-257F244C66D7Q41483224-9F4BE5EA-58D9-4DAF-82A2-39054A6D3D0CQ42318756-F3D36C97-A170-48CE-849D-F5621B452FA9Q42687298-9128BC5B-B714-465C-80FF-6CB3F6C08EB6Q43269051-82475E7E-3E98-406B-AB94-BB826B75C962Q43279623-482BCBB4-32B7-4497-8C0D-1993582459CEQ43586716-4C773333-5C75-464C-9801-90655CCED0F8Q44490894-6F75A306-0821-42E3-9AAE-65D2B31A88DCQ45138995-FF2DB865-AAF4-4D03-BACE-F58AFA16226CQ45223407-0CE905AD-192D-43FC-8AE4-047FFC0C2D10Q45388452-D5B576FE-0300-4D0A-9640-E0D9249B62F0Q45984641-04800ADF-BC1D-40ED-BABF-A10CE9D01AFCQ46202634-6C1A15FD-4093-40D6-BA93-B817F4320E47Q46214382-F087800B-D415-470F-886A-A3468CB7CD46Q46312209-C4CBB90A-822D-477B-AC30-EE7A24123D8CQ46575862-75EBDA52-21FA-4743-9D36-E80F93F688B2Q46792996-EABDB09C-58B1-4B7C-B026-D63E4879A7D5Q47900362-D9F76CDD-D4C7-43C6-B7E9-1B2EC5CDF9D8
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Thilo Kellermann
@ast
Thilo Kellermann
@en
Thilo Kellermann
@es
Thilo Kellermann
@nl
Thilo Kellermann
@sl
type
label
Thilo Kellermann
@ast
Thilo Kellermann
@en
Thilo Kellermann
@es
Thilo Kellermann
@nl
Thilo Kellermann
@sl
prefLabel
Thilo Kellermann
@ast
Thilo Kellermann
@en
Thilo Kellermann
@es
Thilo Kellermann
@nl
Thilo Kellermann
@sl
P106
P21
P2456
P31
P496
0000-0003-4081-5581
P569
2000-01-01T00:00:00Z