Spaniol, M.M., Magalhães, J., Mevorach, C., Shalev, L., Teixeira, M.C.T.V., Lowenthal, R., & de Paula, C.S. (2021). Association between attention, nonverbal intelligence and school performance of school-age children with Autism Spectrum Disorder from a public health context in Brazil. Research in Developmental Disabilities; Volume 116. https://doi.org/10.1016/j.ridd.2021.104041
Meconi, C., Hodsoll, J., Smullen, D., Degano, G., Di Lello, N., Miniussi, C., Avenanti, A., & Mevorach, C. (2021). Remember as we empathize. Do brain mechanisms engaged in autobiographical memory retrieval causally affect empathy awareness? A combined TMS and EEG registered report (stage 1). Journal of Neuroscience Research; https://doi.org/10.1002/jnr.24906
Spaniol, M. M., Mevorach, C., Shalev, L., Teixeira, M.C., Lowenthal, R., de Paula, C.S. (2021). Attention training in children with autism spectrum disorder improves academic performance: A double-blind pilot application of the computerized progressive attentional training program. Autism Research;1–8. https://doi.org/10.1002/aur.2566
Baisa, A., Mevorach, C. & Shalev, L. (2021). Hierarchical processing in ASD is driven by exaggerated salience effects, not local bias. Journal of Autism and Developmental Disorders. J Autism Dev Disord 51, 666–676. https://doi.org/10.1007/s10803-020-04578-1
Ashinoff BK, Mayhew SD, Mevorach C. (2020). The same, but different: Preserved distractor suppression in old age is implemented through an age-specific reactive ventral fronto-parietal network. Hum Brain Mapp. ;1–18. https://doi.org/10.1002/hbm.25097
Kolodny, T., Mevorach, C., Stern, P., Biderman, N., Ankaoua, M., Tsfrir, S & Shalev, L. (2020). Fronto-parietal engagement in response inhibition is inversely scaled with attention-deficit/hyperactivity disorder symptom severity. NeuroImage: Clinical, volume 25. https://doi.org/10.1016/j.nicl.2019.102119
Spaniol, M.M, Shalev, L., & Mevorach, C. (2018). Reduced distractor interference in neurotypical adults with high expression of autistic traits irrespective of stimulus type. Autism Research, 11: 1345–1355.
Abu-Akel, A., Apperly, I., Sapniol, M.M., Geng, J.J., & Mevorach, C. (2018). Diametric effects of autism tendencies and psychosis proneness on attention control irrespective of task demands. Scientific Reports, 8, Article Number 8478.
Sui, J., Liu, M., Mevorach, C., & Humphreys, G.W., (2015). The salient self: The left intra-parietal sulcus responds to social as well as perceptual-salience after self-association. Cerebral Cortex, 25(4), 1060-1068.
Braithwaite, J., Mevorach, C., & Takahashi, C. (2015). Stimulating the aberrant brain: Evidence for increased cortical hyperexcitability from a transcranial direct current stimulation (tDCS) study of individuals predisposed to anomalous perceptions. Cortex, 69, 1-13.
Mevorach, C., Tsal, Y., & Humphreys, G. W. (2013). Low level perceptual, not attentional, processes modulate distractor interference in high perceptual Load displays: evidence from neglect/extinction. Frontiers in Cognition, 4, 966.
Soto, D., Rotshtein, P., Hodsoll, J., Mevorach, C., and Humphreys, G. W., (2012). Common and distinct neural regions for the guidance of selection by visuoverbal information held in memory: Converging evidence from fMRI and rTMS. Human Brain Mapping, 33:1, 105–120
Shalev, L., Ben-Simon, A., Mevorach, C., Cohen, Y., and Tsal, Y. (2011). Conjunctive Continuous Performance Task (CCPT)-A pure measure of sustained attention. Neuropsychologia, 49:9, 2584-2591.
Mevorach, C., Humphreys, G. W., & Shalev, L. (2006). Opposite biases in salience-based selection for the left and right posterior parietal cortex. Nature Neuroscience, 9, 740-742.
Mevorach, C., Humphreys, G. W., & Shalev, L. (2006). Effects of saliency, not global dominance, in patients with left parietal damage. Neuropsychologia, 44, 307-319.
Tsal, Y., Shalev, L., & Mevorach, C. (2005). The diversity of attention deficits in Attention Deficit Hyperactivity Disorder: The prevalence of four cognitive factors in ADHD vs. Controls. Journal of Learning Disabilities, 38, 142-157.