Publications
Preprints
Peer-reviewed
14. Hanning, N.M., Himmelberg, M.M. & Carrasco, M. (2023). Presaccadic attention depends on eye movement
direction and is related to V1 cortical magnification. Journal of Neuroscience, In Press. DOI:10.1101/2022.12.15.520489.
13. Himmelberg, M.M., Winawer, J. & Carrasco, M. (2023). Polar angle asymmetries in visual perception
and neural architecture. Trends in Neurosciences, 46(4). DOI:10.1016/j.tins.2023.03.006.
12. Himmelberg, M.M., Tünçok, E., Gomez, J., Grill-Spector, K., Carrasco, M.* & Winawer, J.* (2023).
Comparing retinotopic maps of children and adults reveals a late-stage change in how V1 samples the visual field.
Nature Communications, 14:1561. DOI:10.1038/s41467-023-37280-8.
Data available via OpenNeuro.
11. Jigo, M., Tavdy, D., Himmelberg, M.M. & Carrasco, M. (2023). Cortical magnification eliminates differences
in contrast sensitivity across but not around the visual field. eLife, 12:e84205. DOI:10.7554/eLife.84205.
10. Himmelberg, M.M., Gardner, J.L. & Winawer, J. (2022). What has vision science taught us about functional MRI?
NeuroImage, 261, 119536. DOI:10.1016/j.neuroimage.2022.119536
9. Himmelberg, M.M., Winawer, J.* & Carrasco, M.* (2022). Linking individual differences in human primary
visual cortex to contrast sensitivity around the visual field. Nature Communications, 13:3309.
DOI:10.1038/s41467-022-31041-9
Data available via OSF.
8. Hanning, N.M., Himmelberg, M.M. & Carrasco, M. (2022). Presaccadic attention enhances contrast
sensitivity, but not at the upper vertical meridian. iScience, 25(2), 103851. DOI:10.1016/j.isci.2022.103851
Data available for download via OSF.
7. Himmelberg, M.M.*, Kurzawski, J.W.*, Benson, N.C., Pelli, D.G., Carrasco, M. & Winawer, J. (2021).
Cross-dataset reproducibility of human retinotopic maps. NeuroImage, 244, 118609. DOI:10.1016/j.neuroimage.2021.118609
Data available via OSF and OpenNeuro
6. Himmelberg, M.M.*, Segala, F.G.*, Maloney, R.T., Harris, J.M. & Wade, A.R. (2020). Decoding neural responses
to motion-in-depth using EEG. Front. Neurosci., 14, 581706. DOI:10.3389/fnins.2020.581706
Data available via OSF.
5. Himmelberg, M.M., Winawer, J. & Carrasco, M. (2020). Stimulus-dependent contrast sensitivity asymmetries
around the visual field. Journal of Vision, 20(18), 1-19. DOI:10.1167/jov.20.9.18
4. Østergaard, F.G., Himmelberg, M.M., Lauresen, B., Siebner, H.R., Wade, A.R. & Christensen, K.V. (2020).
Classification of α-synuclein-induced changes in the AAV α-synuclein rat model of Parkinson’s disease using
electrophysiological measurements of visual processing. Scientific Reports, 10, 11869. DOI:10.1038/s41598-020-68808-3
3. Himmelberg, M.M. & Wade, A.R. (2019). Eccentricity-dependent temporal contrast tuning in human
visual cortex measured with fMRI. NeuroImage, 184, 462-472. DOI:10.1016/j.neuroimage.2018.09.049
2. Himmelberg, M.M., West, R.J.H, Elliott, C.J.H. & Wade, A.R. (2018). Abnormal visual gain control and excitotoxicity
in early-onset Parksinon's disease Drosophila models. Journal of Neurophysiology, 199, 957-970. DOI:10.1152/jn.00681.2017
1. Himmelberg, M.M., West, R.J.H., Wade, A.R. & Elliott, C.J.H. (2017). A perceptive plus in Parkinson's disease.
Movement Disorders, 33(2), 248. DOI:10.1002/mds.27240
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