Topic overview



Reviews


General visual system

Visual cortex in humans.
Wandell BA, Dumoulin SO, Brewer AA. (2009) In: Squire LR (ed.)
Encyclopedia of Neuroscience. Volume 10: pp. 251-257. Oxford: Academic Press. [html].

Van neuron tot cortex: de structuur van het brein. [From neuron to cortex: the structure of the brain]
Van Wezel RJA, Dumoulin SO. (2001) In: F Wijnen & FAJ Verstraten (eds)
Het brein te kijk: een verkenning van de cognitieve neurowetenschap. Lisse: Zwets & Zeitlinger, pp. 25-38.

Visual function and organisation

The role of neural tuning in quantity perception.
Tsouli A, Harvey BM, Hofstetter S, van der Smagt MJ, te Pas S, Dumoulin SO. (2022)
Trends in Cognitive Sciences. 26: 11-24.

Functional MRI of the visual system.
Dumoulin SO. (2015)
In: Uludag K, Ugurbil K, Berliner L. (Eds.)
fMRI: from nuclear spins to brain functions. New York: Springer. Chapter 15: 429-471.

Contour integration: psychophysical, neurophysiological and computational perspectives.
Hess RF, May KA, Dumoulin SO. (2015)
In: Wagemans J (Ed.)
The Oxford handbook of perceptual organization. Oxford: Oxford University Press. Chapter 10: 189-206.

Visual field maps in human cortex.
Wandell BA, Dumoulin SO, Brewer AA. (2007)
Neuron. 56(2): 366-383.

Computational neuroimaging: color signals in the visual pathways.
Wandell BA, Dumoulin SO, Brewer AA. (2006)
Neuro-Ophthalmology Japan. 23: 324-343.

Visual system disorders, plasticity and stability

How visual cortical organization is altered by ophthalmologic and neurologic disorders.
Dumoulin SO, Knapen T. (2018)
Annual Review of Vision Science. 4: 7.1-7.23.

Congenital visual pathway abnormalities: a window onto cortical stability and plasticity.
Hoffmann MB, Dumoulin SO. (2014)
Trends in Neurosciences. 38: 55-65.
Voted one of the best publications of 2014 by the European Vision Community, vision-research.eu.

Methods

The power of ultra-high field for cognitive neuroscience: Gray-matter optimized fMRI
Dumoulin SO, Knapen T. (2023)
Advances in Magnetic Resonance Technology and Applications. 10, 407-418.

A vision of 14T MR for fundamental and clinical science.
Bates S, Dumoulin SO, Folkers PJM, Formisano E, Goebel R, Haghnejad A, Helmich RC, Klomp D, van der Kolk AG, Li Y, Nederveen A, Norris DG, Petridou N, Roell S, Scheenen TWJ, Schoonheim MM, Voogt I, Webb A. (2023)
Magnetic Resonance Materials in Physics, Biology and Medicine. 36: 211-225.

Ultra-high field MRI: advancing systems neuroscience towards mesoscopic human brain function.
Dumoulin SO, Fracasso A, Van der Zwaag W, Siero JCW, Petridou N. (2018)
Neuroimage. 168: 345-357.

Layers of neuroscience.
Dumoulin SO. (2017) Neuron. 96: 1205-1206. (preview)

Reconstructing human population receptive field properties.
Dumoulin SO (2011)
Vision: the journal of the vision society of Japan. 23: 41-45.



Methods


Population receptive field (pRF) modeling

Divisive normalization unifies disparate response signatures throughout the human visual hierarchy.
Aqil M, Knapen T, Dumoulin SO. (2021)
Proceedings of the National Academy of Sciences. 118: 26.
Commentary by JJ Foster and S Ling.

A population receptive field model of the magnetoencephalography response.
Kupers ER, Edadan A, Benson NC, de Jong MC, Dumoulin SO, Winawer J. (2021)
Neuroimage. 244: 118554.

Artificial scotoma estimation based on population receptive field mapping.
Hummer A, Ritter M, Woletz M, Ledolter AA, Tik M, Dumoulin SO, Holder GE, Schmidt-Erfurth U, Windischberger C. (2018)
Neuroimage. 169: 342-251.

Image identification from brain activity using the population receptive field model.
Zuiderbaan W, Harvey BM, Dumoulin SO. (2017) PLoS One. 12: e0183295.

Eyetracker-based gaze correction for robust mapping of population receptive fields.
Hummer A, Ritter M, Tik M, Ledolter A, Dumoulin SO, Schmidt-Erfurth U, Windischberger C. (2016)
NeuroImage. 142: 211-224.

Cortical connective field estimates from resting state fMRI activity.
Gravel N, Harvey B, Nordhjem B, Haak KV, Dumoulin SO, Renken R, Curcic-Blake B, Cornelissen FW. (2014)
Frontiers in Neuroscience. 8:339.

Measurement of population receptive fields in human early visual cortex using back-projection tomography.
Greene CA, Dumoulin SO, Harvey BM, Ress D. (2014)
Journal of Vision. 14(1): 17.

Connective field modeling.
Haak KV, Winawer J, Harvey BM, Renken R, Dumoulin SO, Wandell BA, Cornelissen FW. (2013)
NeuroImage. 66: 376-384.

Modeling center-surround configurations in population receptive fields using fMRI.
Zuiderbaan W, Harvey BM, Dumoulin SO. (2012)
Journal of Vision. 12(3): 10.

NeuroImage cover page Population receptive field estimates in human visual cortex.
Dumoulin SO, Wandell BA. (2008)
NeuroImage. 39(2): 647-660. (see cover image on the right)
Recommended (Faculty of 1000 evaluations) by A Hyvärinen (2007) and J Trachtenberg (2008).

Automatic volumetric segmentation of human visual retinotopic cortex.
Dumoulin SO, Hoge RD, Baker Jr CL, Hess RF, Achtman RL, Evans AC. (2003)
NeuroImage. 18: 576-587.

Magnetic resonance imaging (MRI)

A selection and targeting framework of cortical locations for line-scanning fMRI.
Heij J, Raimondo L, Siero JCW, Dumoulin SO, van der Zwaag W, Knapen T. (2023)
Human Brain Mapping.

High-Resolution Motion-corrected 7.0-T MRI to Derive Morphologic Measures from the Human Cerebellum in Vivo.
Priovoulos N, Andersen M, Dumoulin SO, Boer VO, van der Zwaag W. (2023)
Radiology. 307: e220989.
Commentary by O Dietrich.

Towards functional spin-echo BOLD line-scanning in humans at 7T.
Raimondo L, Heij J, Knapen T, Dumoulin SO, van der Zwaag W, Siero JCW. (2023)
Magnetic Resonance Materials in Physics, Biology and Medicine. 36: 317-327.

Improved selectivity in 7T digit mapping using VASO-CBV.
de Oliveira ÍAF, Siero JCW, Dumoulin SO, van der Zwaag W. (2023)
Brain Topogr. 36: 23-31

Robust high spatio-temporal line-scanning fMRI in humans at 7T using multi-echo readouts, denoising and prospective motion correction.
Raimondo L, Priovoulos N, Passarinho C, Heij J, Knapen T, Dumoulin SO, Siero JCW, van der Zwaag W. (2023)
J Neurosci Methods. 384: 109746.

Comparing BOLD and VASO-CBV population receptive field estimates in human visual cortex.
Oliveira IAF, Cai Y, Hofstetter S, Siero JCW, van der Zwaag W, Dumoulin SO. (2022)
Neuroimage. 248: 118868.

FMRI and intra-cranial electrocorticography recordings in the same human subjects reveals negative BOLD signal coupled with silenced neuronal activity.
Fracasso A, Gaglianese A, Vansteensel MJ, Aarnoutse EJ, Ramsey NF, Dumoulin SO, Petridou N. (2022)
Brain Structure and Function. 227:1371-1384.

A line through the brain: implementation of human line-scanning at 7T for ultra-high spatiotemporal resolution fMRI.
Raimondo L, Knapen T, Oliviera IAF, Dumoulin SO, van der Zwaag W, Siero JCW.
Journal of Cerebral Blood Flow and Metabolism. 41: 2831-2843.
(see video made by Luisa Raimondo)

Comparing BOLD and VASO-CBV population receptive field estimates in human visual cortex.
Oliviera IAF, Cai Y, Hofstetter S, Siero JCW, van der Zwaag W, Dumoulin SO. (2021)
Neuroimage. 248: 118868.

Can 7T MPRAGE match MP2RAGE for gray-white matter contrast?
Oliveira IA, Roos T, Dumoulin SO, Siero JC, van der Zwaag W. (2021)
Neuroimage. 240: 118384.

Individualized cognitive neuroscience needs 7T: Comparing numerosity maps at 3T and 7T MRI.
Cai Y, Hofstetter S, van der Zwaag W, Zuiderbaan W, Dumoulin SO. (2021)
Neuroimage. 237:118184.

Point-spread function of the BOLD response across columns and cortical depth in human extra-striate cortex.
Fracasso A, Dumoulin SO, Petridou N. (2021)
Progress in Neurobiology. 102034.

Comparing hand movement rate dependence of cerebral blood volume and BOLD responses at 7T
Oliveira IAF, van der Zwaag W, Raimondo L, Dumoulin SO, Siero JCW. (2021)
Neuroimage. 226, 117623.

Validating linear systems analysis for laminar fMRI: temporal additivity for stimulus duration manipulations.
van Dijk JA, Fracasso A, Petridou N, Dumoulin SO. (2021)
Brain topography. 34: 88-101

Linear systems analysis for laminar fMRI: evaluating BOLD amplitude scaling for luminance contrast manipulations.
van Dijk JA, Fracasso A, Petridou N, Dumoulin SO. (2020)
Scientific Reports. 10:5462.

MP2RAGEME: T1, T2*, and QSM mapping in one sequence at 7 tesla
Caan MW, Bazin PL, Marques JP, de Hollander G, Dumoulin SO, van der Zwaag W. (2019)
Human Brain Mapping.

Laminar imaging of positive and negative BOLD in human visual cortex at 7T
Fracasso A, Luijten PR, Dumoulin SO, Petridou N. (2018)
Neuroimage. 164: 100-111.

Correspondence between fMRI and electrophysiology during visual motion processing in human MT+
Gaglianese A, Vansteensel MJ, Harvey BM, Dumoulin SO, Petridou N, Ramsey NF. (2017)
NeuroImage 155: 480-489.

Full-brain coverage and high-resolution imaging capabilities of passband b-SSFP fMRI at 3T.
Lee JH, Dumoulin SO, Saritas EU, Glover GH, Wandell BA, Nishimura DG, Pauly JM. (2008)
Magnetic Resonance in Medicine. 59(5): 1099-1110.



Organization


How ocular dominance and binocularity are reflected by the population receptive field properties.
de Best PB, Raz N, Dumoulin SO, Levin N. (2018)
Invest Ophthalmol Vis Sci. 59:5301-5311.

Phase-synchronization-based parcellation of resting state fMRI signals reveals topographically organized clusters in early visual cortex.
Gravel N, Harvey BM, Renken RJ, Dumoulin SO, Cornelissen FW. (2018)
Neuroimage. 170: 424-433.

Radial asymmetries in population receptive field size and cortical magnification factor in early visual cortex.
Silva MF, Brascamp JW, Ferreira S, Castelo-Branco M, Dumoulin SO, Harvey BM. (2018)
Neuroimage. 167:41-52.

In vivo evidence of functional and anatomical stripe-based subdivisions in human V2 and V3.
Dumoulin SO, Harvey BM, Fracasso A, Zuiderbaan W, Luijten PR, Wandell BA, Petridou N. (2017)
Scientific Reports 7: 733.

Systematic variation of population receptive field properties across cortical depth in human visual cortex.
Fracasso A, Petridou N, Dumoulin SO. (2016)
NeuroImage. 139: 427-438.

NeuroImage cover page Lines of Baillarger in vivo and ex vivo: Myelin contrast across lamina at 7T MRI and histology.
Fracasso A, van Veluw SJ, Visser F, Luijten PR, Spliet W, Zwanenburg JJM, Dumoulin SO, Petridou N. (2016)
NeuroImage. 133: 163-175. (see cover image on the right)

Transformation from a retinal to a cyclopean representation in human visual cortex.
Barendregt M, Harvey BM, Rokers B, Dumoulin SO. (2015)
Current Biology. 25: 1982-1987.
Commentary by AT Smith.
Press coverage: PsyPost, Kennislink, Utrecht Nieuws, New Scientist, De Kennis van Nu (Dutch radio show).

Frequency-specific spatial interactions in human electrocorticography: V1 alpha oscillations reflect surround suppression.
Harvey BM, Vansteensel MJ, Ferrier CH, Petridou N, Zuiderbaan W, Aarnoutse EJ, Bleichner MG, Dijkerman HC, van Zandvoort MJE, Leijten FSS, Ramsey NF, Dumoulin SO. (2012)
NeuroImage. 65: 424-432.
Editor's Choice Award (2013) NeuroImage, Section Systems Neuroscience.

The relationship between cortical magnification factor and population receptive field size in human visual cortex: constancies in cortical architecture.
Harvey BM, Dumoulin SO. (2011)
Journal of Neuroscience. 31: 13604-12612.

Visual field maps, population receptive field sizes, and visual field coverage in the human MT+ complex.
Amano K, Wandell BA, Dumoulin SO. (2009)
Journal of Neurophysiology. 102: 2704-2718.

A new anatomical landmark for reliable identification of human area V5/MT: A quantitative analysis of sulcal patterning.
Dumoulin SO, Bittar RG, Kabani NJ, Baker CL Jr, Le Goualher G, Pike GB, Evans AC. (2000)
Cerebral Cortex. 10: 454-463.



Function


Numerical cognition

Nonsymbolic Numerosity Maps at the Occipitotemporal Cortex Respond to Symbolic Numbers.
Cai Y, Hofstetter S, Dumoulin SO. (2023)
Journal of Neuroscience. 43: 2950-2959.

Intracranial recordings show evidence of numerosity tuning in human parietal cortex.
van Dijk JA, de Jong MC, Piantoni G, Fracasso A, Vansteensel MJ, Groen IIA, Petridou N, Dumoulin SO. (2022)
PloS one. 17(8).

Assessing the ecological validity of numerosity- selective neuronal populations with real-world natural scenes.
Hofstetter S., Dumoulin SO. (2022)
iScience. 25: 105267.

Attention drives human numerosity-selective responses.
Cai Y, Hofstetter S, Harvey BM, Dumoulin SO. (2022)
Cell Reports. 39(13), 111005.

Topographic numerosity maps cover subitizing and estimation ranges.
Cai Y, Hofstetter S, van Dijk J, Zuiderbaan W, van der Zwaag W, Harvey BM, Dumoulin SO. (2021)
Nature communications. 12: 1-10.

Laminar processing of numerosity supports a canonical cortical microcircuit in human parietal cortex.
van Dijk JA, Fracasso A., Petridou N, Dumoulin SO. (2021)
Current Biology. 31(20): 4635-4640.

Tuned neural responses to haptic numerosity in the putamen.
Hofstetter S, Dumoulin SO. (2021)
Neuroimage. 238: 118178.

Individualized cognitive neuroscience needs 7T: Comparing numerosity maps at 3T and 7T MRI.
Cai Y, Hofstetter S, van der Zwaag W, Zuiderbaan W, Dumoulin SO. (2021)
Neuroimage. 237:118184.

Size constancy affects the perception and parietal neural representation of object size.
Kristensen S, Fracasso A, Dumoulin SO, Almeida J, Harvey BM. (2021)
Neuroimage. 232: 117909.

Adaptation to visual numerosity changes neural numerosity selectivity.
Tsouli A, Cai Y, van Ackooij M, Hofstetter S, Harvey BM, Te Pas SF, van der Smagt MJ, Dumoulin SO. (2021)
Neuroimage. 229: 117794.

Topographic maps representing haptic numerosity reveals distinct sensory representations in supramodal networks.
Hofstetter S, Cai Y, Harvey BM, Dumoulin SO. (2021)
Nature communications. 12: 1-13.

A network of topographic maps in human association cortex hierarchically transforms visual timing-selective responses.
Harvey BM, Dumoulin SO, Fracasso A, Paul JM. (2020)
Current Biology. 30, 1424-1434.

Distinct temporal mechanisms modulate numerosity perception
Tsouli A, van der Smagt MJ, Dumoulin SO, te Pas SF. (2019)
Journal of Vision. 19:19.

Adaptation reveals unbalanced interaction between numerosity and time.
Tsouli A, Dumoulin SO, Te Pas SF, van der Smagt MJ. (2019)
Cortex. 114:5-16.

Can responses to basic non-numerical visual features explain neural numerosity responses?
Harvey BM, Dumoulin SO. (2017)
NeuroImage 129: 200-209.

A network of topographic numerosity maps in human association cortex.
Harvey BM, Dumoulin SO. (2017)
Nature Human Behaviour. 1: 36.

Topographic representations of object size and relationships with numerosity reveal generalized quantity processing in human parietal cortex.
Harvey BM, Fracasso A, Petridou N, Dumoulin SO. (2015)
PNAS. 112: 13525-13530.

Topographic representation of numerosity in the human parietal cortex.
Harvey BM, Klein BP, Petridou N, Dumoulin SO. (2013)
Science. 341: 1123-1126.
Commentary by T Gebuis, W Gevers, R Cohen Kadosh.
Press coverage: LiveScience, ScienceDaily, Discover, The Independent, NPR, The Guardian, TopNews Arab Emirates, Pentagon Post, IOL Lifestyle, EOS Wetenschap, Headlines and Global News, Ansa.it, LeScienze.it, KpopStarz.com, Design & Trend, Nature World News, Science World Report, Zee News India, Business Standard, TechnoScience.net, French Tribune, BB Magazine, Sudan Vision, Indian Express, Vanity Fair, MedicalFacts.nl, Fox News, The Guardian Express, Highlight Press, DUB News, TMCnet, University Herald, Le Monde, Math in the News, Volkskrant.

Attention

Cortical depth dependent population receptive field attraction by spatial attention in human V1.
Klein BP, Fracasso A, van Dijk JA, Paffen CLE, Te Pas SF, Dumoulin SO. (2018)
Neuroimage. 176: 301-312.

Predicting bias in perceived position using attention field models.
Klein BP, Paffen CLE, te Pas SF, Dumoulin SO. (2016)
Journal of Vision. 16: 15.

Attraction of position preference by spatial attention throughout human visual cortex.
Klein BP, Harvey BM, Dumoulin SO. (2014)
Neuron. 84: 227-237.
(See video by Barrie Klein)

Motion vision

Mechanisms of speed encoding in the human middle temporal cortex measured by 7T fMRI.
Gaglianese A, Fracasso A, Fernandes FG, Harvey B, Dumoulin SO, Petridou N. (2023)
Human Brain Mapping. 44: 2050-2061.

Impaired velocity processing reveals an agnosia for motion in depth.
Barendregt M, Dumoulin SO, Rokers B. (2016)
Psychological Science. 27:1474-1485.

Separate spatial and temporal frequency tuning to visual motion in human MT+ measured with ECoG.
Gaglianese A, Harvey BM, Vansteensel MJ, Dumoulin SO, Ramsey NF, Petridou N. (2016)
Human Brain Mapping. 38: 293-307.

Visual motion transforms visual space representations similarly throughout the human visual hierarchy.
Harvey BM, Dumoulin SO. (2016)
NeuroImage. 127: 173-185.

Stereomotion scotomas occur after binocular combination.
Barendregt M, Dumoulin SO, Rokers B. (2014)
Vision Research. 105: 92-99.

Neuropsychological evidence for three distinct motion mechanisms.
Vaina LM, Dumoulin SO. (2011)
Neuroscience Letters. 495: 102-106.

Cortical specialization for processing first- and second-order motion.
Dumoulin SO, Baker Jr CL, Hess RF, Evans AC. (2003)
Cerebral Cortex. 13: 1375-1385.

Centrifugal bias for second-order but not first-order motion.
Dumoulin SO, Baker CL Jr, Hess RF. (2001)
J Opt Soc Am A. 18: 2179-2189.


Spatial vision

Intracranial recordings reveal unique shape and timing of responses in human visual cortex during illusory visual events.
de Jong MC, Vansteensel MJ, van Ee R, Leijten FSS, Ramsey NF, Dijkerman HC, Dumoulin SO, Knapen T. (2020)
Current Biology. 30, 1-12.
Commentary by A Maier.
(see video made by Maartje de Jong)

Change blindness is influenced by both contrast energy and subjective importance within local regions of the image.
Zuiderbaan W, van Leeuwen J, Dumoulin SO. (2017)
Frontiers in Psychology. 8: 1718.

Contour extracting networks in early extrastriate cortex.
Dumoulin SO, Hess RF, May KA, Harvey BM, Rokers B, Barendregt M. (2014)
Journal of Vision. 14(5): 18.

Sparsely distributed contours dominate extra-striate responses to complex scenes.
Dumoulin SO, Dakin SC, Hess RF. (2008)
NeuroImage. 42(2): 890-901.

Vision Research cover page Cortical specialization for concentric shape processing.
Dumoulin SO, Hess RF. (2007)
Vision Research. 47(12): 1608-1613. (see cover image on the right)

Modulation of V1 activity by shape: image-statistics or shape-based perception?
Dumoulin SO, Hess RF. (2006)
J Neurophysiol. 95: 3654-3664.

What image properties regulate eye growth?
Hess RF, Schmid K, Dumoulin SO, Field DJ, Brinkworth DR. (2006)
Current Biology. 16: 687-691.
Commentary by F Schaeffel and a news article by H Hardman.

How many positions can we perceptually encode: one or many?
Hess RF, Barnes G, Dumoulin SO, Dakin SC. (2003)
Vision Research. 43: 1575-1587.


Color vision

Color responses of the human LGN: Selective amplification of the S-cone color signal between the LGN and primary visual cortex measured with high-field fMRI.
Mullen KT, Dumoulin SO, Hess RF. (2008)
Eur J Neuroscience. 28(9): 1911-1923.

Selectivity of human retinotopic visual cortex to S cone opponent, L/M opponent and achromatic stimulation.
Mullen KT, Dumoulin SO, McMahon KL, De Zubicaray GI, Hess RF. (2007)
Eur J Neuroscience. 25: 491-502.


Other

Action preparation shapes processing in early visual cortex.
TP Gutteling, N Petridou, SO Dumoulin, BM Harvey, EJ Aarnoutse, JL Kenemans, SFW Neggers. (2015)
Journal of Neuroscience. 35: 6472-6480.

Role of the parahippocampal cortex in memory for the configuration but not the identity of objects: converging evidence from patients with selective thermal lesions and fMRI.
Bohbot VD, Allen JJB, Dagher A, Dumoulin SO, Evans A, Petrides M, Kalina M, Stepankova K, Nadel L. (2015)
Frontiers in Human Neuroscience. 9:431.



Visual system disorders, plasticity and stability


Neuro-ophthalmology

Triple visual hemifield maps in a case of optic chiasm hypoplasia.
Ahmadi K, Fracasso A, Puzniak RJ, Gouws AD, Yakupov R, Speck O, Kaufmann J, Pestilli F, Dumoulin SO, Morland AB, Hoffmann MB. (2020)
NeuroImage. 215: 116822.

Altered organization of the visual cortex in FHONDA syndrome.
Ahmadi K, Fracasso A, van Dijk JA, Kruijt C, van Genderen M, Dumoulin SO, Hoffmann MB. (2019)
NeuroImage. 190: 224-231.

Gaze-contingent flicker pupil perimetry detects scotomas in patients with cerebral visual impairments or glaucoma.
Naber M, Roelofzen C, Fracasso A, Bergsma DP, van Genderen M, Porro GL, Dumoulin SO. (2018)
Frontiers in Neurology. 9: 558.

Bilateral population receptive fields in congenital hemihydranencephaly.
Fracasso A, Koenraads Y, Porro GL, Dumoulin SO. (2016)
Ophthalmic and Physiological Optics. 36: 324-334.

Imaging the visual system: from the eye to the brain. (Editorial)
Thompson B, Read SA, Dumoulin SO, Elsner AE, Porter J, Roorda A. (2016)
Ophthalmic and Physiological Optics. 36: 213-217.

Plasticity and stability of the visual system in human achiasma.
Hoffmann MB, Kaule FR, Levin N, Masuda Y, Kumar A, Gottlob I, Horiguchi H, Dougherty RF, Stadler J, Wolynski B, Speck O, Kanowski M, Liao YJ, Wandell BA, Dumoulin SO. (2012)
Neuron. 75: 393-401.
Preview by P Sinha and M Meng, and Recommended "Must Read" (Faculty of 1000 evaluation) by A Chedotal (2012), P Bovolenta (2012), C Baker (2012), and J Barton (2012).

Congenital achiasma and infantile see-saw nystagmus in a patient with VACTERL.
Prakash S, Dumoulin SO, Fischbein N, Wandell BA, Liao YP. (2010)
Journal of Neuro-Ophthalmology. 30(1): 45-48.

Cortical maps and white matter tracts following long period of visual deprivation and retinal image restoration.
Levin N, Dumoulin SO, Winawer J, Dougherty RF, Wandell BA. (2010)
Neuron. 65: 21-31.
News article by A Gorlick.

Retinal degeneration

Decreased fixation stability of the preferred retinal location in juvenile macular degeneration.
Bethlehem RAI, Dumoulin SO, Dalmaijer ES, Smit M, Berendschot TTJM, Nijboer TCW, Van der Stigchel S. (2014)
PLoS ONE. 9(6): e100171.

Macular degeneration affects eye movement behaviour during visual search.
Van der Stigchel S, Bethlehem RAI, Klein BP, Berendschot TTJM, Nijboer T, Dumoulin SO. (2013)
Frontiers in Psychology. 4: 579.

./PDFs/Dumoulin-CC-2003.pdfi S, Wandell BA. (2010)
Investigative Ophthalmology and Visual Science 51(10): 5356-5364.
Recommended (Faculty of 1000 evaluation) by W Wittich and O Overbury (2011).

V1 projection zone signals in human macular degeneration depend on task, not stimulus.
Masuda Y, Dumoulin SO, Nakadomari S, Wandell BA. (2008)
Cerebral Cortex. 18(11): 2483-2493.


Amblyopia

Is the cortical deficit in amblyopia due to reduced cortical magnification, loss of neural resolution, or neural disorganization?
Clavagnier S, Dumoulin SO, Hess RF. (2015)
Journal of Neuroscience. 35: 14740-14755.

Decreased grey matter density in the lateral geniculate nuclei of human amblyopes.
Barnes GR, Li X, Thompson BS, Singh KD, Dumoulin SO, Hess RF. (2010)
Investigative Ophthalmology and Visual Science. 51: 1432-1438.

The fidelity of the cortical retinotopic map in human amblyopia.
Li X, Dumoulin SO, Mansouri B, Hess RF. (2007)
Eur J Neuroscience. 25(5): 1265-1277.

Cortical deficits in human amblyopia: their regional distribution and their relationship to the contrast detection deficit.
Li X, Dumoulin SO, Mansouri B, Hess RF. (2007)
Investigative Ophthalmology and Visual Science. 48: 1575-1591.

The cortical deficit in strabismic amblyopia.
Barnes GR, Hess RF, Dumoulin SO, Achtman RL, Pike GB. (2001)
J Physiology. 533: 281-297.


Neurology

Role of population receptive field size in complex visual dysfunctions: A posterior cortical atrophy model.
de Best PB, Raz N, Guy N, Ben-Hur T, Dumoulin SO, Pertzov Y, Levin N. (2019)
JAMA Neurology. 76: 1391-1396.

Functional organization of human visual cortex in occipital polymicrogyria.
Dumoulin SO, Jirsch JD, Bernasconi A. (2007)
Human Brain Mapping. 28(12): 1302-1312.

Reorganisation of the visual cortex in callosal agenesis and colpocephaly.
Bittar RG, Ptito A, Dumoulin SO, Andermann F, Reutens DC. (2000)
J Clin Neurosci. 7: 13-15.

Activation of the remaining hemisphere following stimulation of the blind hemifield in hemispherectomized subjects.
Bittar RG, Ptito M, Faubert J, Dumoulin SO, Ptito A. (1999)
NeuroImage. 10(3): 339-346.

Interictal spikes increase cerebral glucose metabolism and blood flow: a PET study.
Bittar RG, Andermann F, Olivier A, Dubeau F, Dumoulin SO, Pike GB, Dureza RC, Reutens DC. (1999)
Epilepsia. 40(2): 170-178.


Other

Topographic maps and neural tuning for sensory substitution dimensions learned in adulthood in a congenital blind subject.
Hofstetter S, Zuiderbaan W, Heimler B, Dumoulin SO, Amedi A. (2021)
Neuroimage. 118029.



PhD Theses


Stay tuned for more (or less). Neural selectivity and perception numerosity and other quantities.
Tsouli A (2022)
PhD Thesis. Department of Experimental Psychology, Utrecht University, Utrecht, Netherlands.

Advancing ultra-high field MRI functional and structural applications.
Oliveira IAF (2022)
PhD Thesis. Spinoza Centre for Neuroimaging & Department of Experimental and Applied Psychology, Vrije University Amsterdam, Amsterdam, Netherlands.

The beauty of numbers. From neurons to perception.
Cai Y (2022)
PhD Thesis. Spinoza Centre for Neuroimaging & Department of Experimental and Applied Psychology, Vrije University Amsterdam, Amsterdam, Netherlands.

Expanding the field of view from classical to extra-classical receptive fields, neurons to populations, and voxels to sensors.
Edadan A (2020)
PhD Thesis. Department of Experimental Psychology, Utrecht University, Utrecht, Netherlands.

Going into (cortical) depth. Laminar imaging and applications for cognitive neuroscience.
van Dijk JA (2020)
PhD Thesis. Department of Experimental Psychology, Utrecht University, Utrecht, Netherlands.

Zooming in with attention. Neural and perceptual consequences of attention.
Klein BP (2018)
PhD Thesis. Department of Experimental Psychology, Utrecht University, Utrecht, Netherlands.

Vision in context. From behavior to neurons.
Zuiderbaan W (2017)
PhD Thesis. Department of Experimental Psychology, Utrecht University, Utrecht, Netherlands.

Two eyes, one vision. Binocular motion perception in human visual cortex.
Barendregt M (2016)
PhD Thesis. Department of Experimental Psychology, Utrecht University, Utrecht, Netherlands.

Motion mechanisms and cortical areas in human vision: psychophysics and fMRI.
Dumoulin SO. (2003)
PhD Thesis. Department of Neurology and Neurosurgery, McGill University, Montréal, Canada.



Last modified: 2023