Papers
Click to download the article as pdf, for code, for a youtube talk on the specific work; or check my Google Scholar .
Preprints, in review, in preparation
Stein, H., Barbosa, J., Lozano-Soldevilla, D., Rosa-Justicia, M., Morato, A., Galan-Gadea, A., … & Compte, A. Neural signatures of reduced serial dependence in antiNMDAR encephalitis and schizophrenia. PsyArXiv (2024).
Andrianarivelo, A., Stein, H., Gabillet, J., Batifol, C., Jalil, A., Cayco Gajic, N. A., and Graupner, M. Cerebellar interneuron activity is triggered by reach endpoint during learning of a complex locomotor task. BioRxiv (2023).
Stein, H., Andrianarivelo, A., Gabillet, J., Batifol, C., Jalil, A., Graupner, M., Cayco Gajic, N.A. The emergence of fixed points in interlimb coordination underlies the learning of stable gaits in mice, selected talk at COSYNE (2022) and in preparation. (English) (Spanish)
Published research articles
Pellegrino, A.*, Stein, H.*, Cayco Gajic, N.A. Dimensionality reduction beyond neural subspaces with slice tensor component analysis. Nature Neuroscience (2024).
Guasp, M., Rosa-Justicia, M., Munoz-Lopetegi, A., Martinez-Hernandez, E., Armangue, T., Sugranyes, G., Stein, H., … & the Spanish anti-NMDAR Encephalitis Study Group. Clinical characterization of patients in the post-acute stage of antiNMDA receptor encephalitis: a prospective observational cohort study and comparison with patients with schizophrenia spectrum disorders. The Lancet Neurology 21, 899-910 (2022).
Ding, X., Lee, D., Grant, S., Stein, H., McIntosh, L., Maheswaranathan, N., Baccus, S. A. A mechanistically interpretable model of the retinal neural code for natural scenes with multiscale adaptive dynamics. 55th Asilomar Conference on Signals, Systems, and Computers (IEEE), 287-291 (2021).
Stein, H.*, Barbosa, J.*, Rosa-Justicia, M., Prades, L., Morato, A., Galan-Gadea, A., Arino, H., Martinez-Hernandez, E., Castro-Fornieles, J., Dalmau, J. & Compte, A. Reduced serial dependence suggests deficits in synaptic potentiation in antiNMDAR encephalitis and schizophrenia. Nature Communications 11, 4250 (2020).
Barbosa, J.*, Stein, H.*, Martinez, R.L., Galan-Gadea, A., Li, S. Dalmau, J. Adam, K.C.S, Valls-Sole, J., Constantinidis, C. & Compte, A. Interplay between persistent activity and activity-silent dynamics in the prefrontal cortex underlies serial biases in working memory. Nature Neuroscience 23, 1016–1024 (2020).
Review articles
Barbosa, J.*, Stein, H.*, Zorowitz, S., Niv, Y., Summerfield, C., Soto-Faraco, S., & Hyafil, A. A practical guide for studying human behavior in the lab. Behavior Research Methods, 1-19 (2023).
Stein, H. Why does the neocortex need the cerebellum for working memory? The Journal of Neuroscience, 41, 6368-6370 (2021).
Stein, H.*, Barbosa, J.*, & Compte, A. Towards biologically constrained attractor models of schizophrenia. Current Opinion in Neurobiology 70, 163-170 (2021).