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1.
Deviance Distraction and Stimulus-Specific Adaptation in the Somatosensory Cortex Reduce with Experience.
J Neurosci
; 43(24): 4418-4433, 2023 06 14.
Article
in English
| MEDLINE | ID: mdl-37169591
2.
Modelling novelty detection in the thalamocortical loop.
PLoS Comput Biol
; 19(5): e1009616, 2023 05.
Article
in English
| MEDLINE | ID: mdl-37186588
3.
Evoked Response Strength in Primary Auditory Cortex Predicts Performance in a Spectro-Spatial Discrimination Task in Rats.
J Neurosci
; 39(31): 6108-6121, 2019 07 31.
Article
in English
| MEDLINE | ID: mdl-31175214
4.
Deviant Processing in the Primary Somatosensory Cortex.
Cereb Cortex
; 27(1): 863-876, 2017 01 01.
Article
in English
| MEDLINE | ID: mdl-26628563
5.
Stimulus-specific adaptation in field potentials and neuronal responses to frequency-modulated tones in the primary auditory cortex.
Brain Topogr
; 27(4): 599-610, 2014 Jul.
Article
in English
| MEDLINE | ID: mdl-24863565
6.
Animal models of subjective tinnitus.
Neural Plast
; 2014: 741452, 2014.
Article
in English
| MEDLINE | ID: mdl-24829805
7.
Months-long tracking of neuronal ensembles spanning multiple brain areas with Ultra-Flexible Tentacle Electrodes.
Nat Commun
; 15(1): 4822, 2024 Jun 06.
Article
in English
| MEDLINE | ID: mdl-38844769
8.
Novel two-alternative forced choice paradigm for bilateral vibrotactile whisker frequency discrimination in head-fixed mice and rats.
J Neurophysiol
; 109(1): 273-84, 2013 Jan.
Article
in English
| MEDLINE | ID: mdl-23054598
9.
Bayesian surprise shapes neural responses in somatosensory cortical circuits.
Cell Rep
; 42(2): 112009, 2023 02 28.
Article
in English
| MEDLINE | ID: mdl-36701237
10.
Stimulus-specific adaptation in the gerbil primary auditory thalamus is the result of a fast frequency-specific habituation and is regulated by the corticofugal system.
J Neurosci
; 31(26): 9708-22, 2011 Jun 29.
Article
in English
| MEDLINE | ID: mdl-21715636
11.
Machine learning reveals interhemispheric somatosensory coherence as indicator of anesthetic depth.
Front Neuroinform
; 16: 971231, 2022.
Article
in English
| MEDLINE | ID: mdl-36172256
12.
Deep-learning based identification, tracking, pose estimation, and behavior classification of interacting primates and mice in complex environments.
Nat Mach Intell
; 4(4): 331-340, 2022 Apr.
Article
in English
| MEDLINE | ID: mdl-35465076
13.
A robust model of Stimulus-Specific Adaptation validated on neuromorphic hardware.
Sci Rep
; 11(1): 17904, 2021 09 09.
Article
in English
| MEDLINE | ID: mdl-34504155
14.
Correlating stimulus-specific adaptation of cortical neurons and local field potentials in the awake rat.
J Neurosci
; 29(44): 13837-49, 2009 Nov 04.
Article
in English
| MEDLINE | ID: mdl-19889995
15.
Non-invasive molecularly-specific millimeter-resolution manipulation of brain circuits by ultrasound-mediated aggregation and uncaging of drug carriers.
Nat Commun
; 11(1): 4929, 2020 10 01.
Article
in English
| MEDLINE | ID: mdl-33004789
16.
Discrimination of direction in fast frequency-modulated tones by rats.
J Assoc Res Otolaryngol
; 7(1): 48-58, 2006 Mar.
Article
in English
| MEDLINE | ID: mdl-16411160
17.
Tactile frequency discrimination is enhanced by circumventing neocortical adaptation.
Nat Neurosci
; 17(11): 1567-73, 2014 Nov.
Article
in English
| MEDLINE | ID: mdl-25242306
18.
Transient calretinin expression defines early postmitotic step of neuronal differentiation in adult hippocampal neurogenesis of mice.
Mol Cell Neurosci
; 24(3): 603-13, 2003 Nov.
Article
in English
| MEDLINE | ID: mdl-14664811
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