Folgen
Kristin Koller
Kristin Koller
Research Associate, Cardiff University Brain Research Imaging Centre
Bestätigte E-Mail-Adresse bei cardiff.ac.uk
Titel
Zitiert von
Zitiert von
Jahr
Connectivity between the superior colliculus and the amygdala in humans and macaque monkeys: virtual dissection with probabilistic DTI tractography
RD Rafal, K Koller, JH Bultitude, P Mullins, R Ward, AS Mitchell, AH Bell
Journal of neurophysiology 114 (3), 1947-1962, 2015
1162015
Orienting toward threat: Contributions of a subcortical pathway transmitting retinal afferents to the amygdala via the superior colliculus and pulvinar
K Koller, RD Rafal, A Platt, ND Mitchell
Neuropsychologia 128, 78-86, 2019
642019
Imaging Microglia and Astrocytes non-invasively using Diffusion MRI
SDS Raquel Garcia-Hernandez, Alejandro Trouve Carpena, Mark Drakesmith ...
bioRxiv, 2020
47*2020
Detecting microstructural deviations in individuals with deep diffusion MRI tractometry
DKJ Maxime Chamberland, Sila Genc, Chantal M.W. Tax, Dmitri Shastin, Kristin ...
MedRxiv https://doi.org/10.1101/2021.02.23.21252, 2021
35*2021
MICRA: Microstructural image compilation with repeated acquisitions
K Koller, U Rudrapatna, M Chamberland, EP Raven, GD Parker, ...
Neuroimage 225, 117406, 2021
222021
Functional mapping of the human auditory cortex: fMRI investigation of a patient with auditory agnosia from trauma to the inferior colliculus
O Poliva, PEG Bestelmeyer, M Hall, JH Bultitude, K Koller, RD Rafal
Cognitive and Behavioral Neurology 28 (3), 160-180, 2015
202015
Surface-based tracking for short association fibre tractography
D Shastin, S Genc, GD Parker, K Koller, CMW Tax, J Evans, K Hamandi, ...
Neuroimage 260, 119423, 2022
192022
Saccade latency bias toward temporal hemifield: Evidence for role of retinotectal tract in mediating reflexive saccades
K Koller, RD Rafal
Neuropsychologia 128, 276-281, 2019
132019
Stria terminalis microstructure in humans predicts variability in orienting towards threat
K Koller, CM Hatton, RD Rogers, RD Rafal
European Journal of Neuroscience 50 (11), 3804-3813, 2019
102019
Circadian circuits in humans: white matter microstructure predicts daytime sleepiness
K Koller, RD Rafal, PG Mullins
Cortex 122, 97-107, 2020
72020
Deafferentation of the superior colliculus abolishes spatial summation of redundant visual signals
M van Koningsbruggen, K Koller, RD Rafal
Frontiers in systems neuroscience 11, 9, 2017
62017
Repeatability of soma and neurite metrics in cortical and subcortical grey matter
S Genc, M Chamberland, K Koller, CMW Tax, H Zhang, M Palombo, ...
Computational Diffusion MRI: International MICCAI Workshop, Lima, Peru …, 2021
42021
Powering up microstructural imaging: Assessing cross-metric and cross-tract statistical power on an ultra-strong gradient MRI system
K Koller, SU Rudrapatna, M Chamberland
Proceedings of the International Society for Magnetic Resonance in Medicine …, 2019
22019
Delineating the grey matterwhite matter interface directly from diffusion mri data
D Shastin, M Chamberland, G Parker, CMW Tax, K Koller, K Hamandi, ...
ISMRM, 4385, 2020
12020
Supplementary Materials for Mapping microglia and astrocyte activation in vivo using diffusion MRI
R García-Hernández, A Cerdán Cerdá, A Trouve Carpena, M Drakesmith, ...
American Association for the Advancement of Science, 2022
2022
ORCA–Online Research@ Cardiff
R Garcia-Hernandez, A Cerdán Cerdá, A Trouve Carpena, M Drakesmith, ...
2022
Virtual dissection of subcortical non-image forming visual pathways in the human brain with DTI tractography
K Koller
PQDT-UK & Ireland, 2016
2016
Unmasking backward masking of emotional faces
CM Hatton, RD Rafal, K Koller, C Hatton, R Rafal
Perception 44 (1), 57-58, 2015
2015
Diffusion Tensor Imaging Tractography Of Circadian Regulating Circuits In The Human Brain
K Koller, P Mullins, R Rafal
Journal of Vision 14 (10), 987-987, 2014
2014
Quantifying the Repeatability of Microstructural Measures Derived from Free Gradient Waveforms
K Koller, CMW Tax, D Sastin, DK Jones
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20