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“Neural consequences of symptomatic convergence insufficiency: A small sample study.” Zeng, Y., Oechslin, T. S., Widmer, D. E., Kulp, M. T., Fogt, N., Toole, A., Manning, S., Osher D.E. (2024). Ophthalmic & Physiological Optics, (ePub ahead of print) doi: 10.1111/opo.13303.
“Predicting high-level visual areas in the absence of task fMRI.” Molloy M.F., Saygin Z.M, Osher D.E. (2024). Scientific Reports, 14(1).
“A personalized cortical atlas for functional regions of interest.” Molloy M.F., Osher D.E. (2023). Journal of Neurophysiology, 130(5), 1067-1080.
“Effect of extremely preterm birth on adolescent brain network organization.” Molloy M.F., Yu E.J., Mattson W.I., Hoskinson K.R., Taylor H.G., Osher D.E., Nelson E.E., Saygin Z.M. (2023). Brain Connectivity, 13(7), 394-409.
“The intrinsic neonatal hippocampal network: rsfMRI findings.” Howell A.L., Osher D.E., Li J., Saygin Z.M. (2020). Journal of Neurophysiology, 124(5), 1458-1468.
“Innate connectivity patterns drive the development of the visual word form area.” Li J., Osher D.E., Hansen H.A., Saygin Z.M. (2020). Scientific Reports, 10(1), 1-12.
“Predicting an individual's Dorsal Attention Network from functional connectivity fingerprints.” Osher D.E., Brissenden J.A., Somers D.C. (2019). Journal of Neurophysiology, 122(1), 232-240.
“Topographic cortico-cerebellar networks revealed by visual attention and working memory.” Brissenden J.A., Tobyne S.M., Osher D.E., Levin E.J., Halko M.A., Somers D.C. (2018). Current Biology, 28(21). 3364-3372.e5.
“Prediction of individualized task activation in sensory modality-selective frontal cortex with connectome fingerprinting.” Tobyne S.M, Somers D.C., Brissenden J.A., Michalka S.W., Noyce A.L., Osher D.E. (2018). NeuroImage, 183, 173–185.
“Sensory-biased attention networks in human lateral frontal cortex revealed by intrinsic functional connectivity.” *Tobyne S.M., *Osher D.E., Michalka S.W., Somers D.C. (2017). NeuroImage, 162. 362-372. *these authors contributed equally to this work.
“Connectivity precedes function in the development of the visual word form area.” Saygin Z.M., Osher D.E., Norton E. S., Youssoufian D.A., Beach S.D., Feather J., Gaab, N., Gabrieli, J.D., Kanwisher N. (2016). Nature Neuroscience, 19(9), 1250-5.
“Functional evidence for a cerebellar node of the Dorsal Attention Network.” Brissenden J.A., Levin E.J., Osher D.E., Halko M.A., Somers D.C. Journal of Neuroscience, 36(22), 6083-6096.
“Structural connectivity of the developing human amygdala.” Saygin Z.M. , Osher D., Koldewyn K., Martin R., Finn A., Saxe R., Gabrieli J., Sheridan M. (2015). PLOS ONE, 10(4): e0125170. doi:10.1371/journal.pone.0125170
“Structural connectivity fingerprints predict cortical selectivity for multiple visual categories across cortex.” Osher D.E., Saxe R., Koldewyn K., Gabrieli J.D.E., Kanwisher N., Saygin Z.M. (2016, ePub 2015). Cerebral Cortex, 26(4), 1668-83.
“Tracking the roots of reading ability: White matter volume and integrity correlate with phonological awareness in prereading and early-reading kindergarten children.” Saygin Z.M., Norton E.S., Osher D.E., Beach S. B., Cyr A.B., Ozranov-Palchik O., Yendiki A., Fischl B., Gaab N., Gabrieli J.D.E. (2013). Journal of Neuroscience, 33(33), 13251–13258.
“Anatomical connectivity patterns predict face-selectivity in the fusiform gyrus.” *Saygin Z.M., *Osher D.E., Koldewyn K., Reynolds G., Gabrieli J.D.E., Saxe R.R. (2012). Nature Neuroscience, 15(2), 321-327. Supplementary information here. *these authors contributed equally to this work.
“Connectivity-based segmentation of human amygdala nuclei using probabilistic tractography.” *Saygin Z.M., *Osher D.E., Augustinack J., Fischl B., Gabrieli J.D.E. (2011). NeuroImage, 56(3), 1353-1361. *these authors contributed equally to this work.
“Predicting functional activity from structural connectivity.” Osher D.E., Saygin Z.M., Gabrieli J.D.E. (2011). Frontiers in Neuroinformatics. doi: 10.3389/conf.fninf.2011.08.00010.
“Predicting high-level visual areas in the absence of task fMRI.” Molloy M.F., Saygin Z.M, Osher D.E. (2024). Scientific Reports, 14(1).
“A personalized cortical atlas for functional regions of interest.” Molloy M.F., Osher D.E. (2023). Journal of Neurophysiology, 130(5), 1067-1080.
“Effect of extremely preterm birth on adolescent brain network organization.” Molloy M.F., Yu E.J., Mattson W.I., Hoskinson K.R., Taylor H.G., Osher D.E., Nelson E.E., Saygin Z.M. (2023). Brain Connectivity, 13(7), 394-409.
“The intrinsic neonatal hippocampal network: rsfMRI findings.” Howell A.L., Osher D.E., Li J., Saygin Z.M. (2020). Journal of Neurophysiology, 124(5), 1458-1468.
“Innate connectivity patterns drive the development of the visual word form area.” Li J., Osher D.E., Hansen H.A., Saygin Z.M. (2020). Scientific Reports, 10(1), 1-12.
“Predicting an individual's Dorsal Attention Network from functional connectivity fingerprints.” Osher D.E., Brissenden J.A., Somers D.C. (2019). Journal of Neurophysiology, 122(1), 232-240.
“Topographic cortico-cerebellar networks revealed by visual attention and working memory.” Brissenden J.A., Tobyne S.M., Osher D.E., Levin E.J., Halko M.A., Somers D.C. (2018). Current Biology, 28(21). 3364-3372.e5.
“Prediction of individualized task activation in sensory modality-selective frontal cortex with connectome fingerprinting.” Tobyne S.M, Somers D.C., Brissenden J.A., Michalka S.W., Noyce A.L., Osher D.E. (2018). NeuroImage, 183, 173–185.
“Sensory-biased attention networks in human lateral frontal cortex revealed by intrinsic functional connectivity.” *Tobyne S.M., *Osher D.E., Michalka S.W., Somers D.C. (2017). NeuroImage, 162. 362-372. *these authors contributed equally to this work.
“Connectivity precedes function in the development of the visual word form area.” Saygin Z.M., Osher D.E., Norton E. S., Youssoufian D.A., Beach S.D., Feather J., Gaab, N., Gabrieli, J.D., Kanwisher N. (2016). Nature Neuroscience, 19(9), 1250-5.
“Functional evidence for a cerebellar node of the Dorsal Attention Network.” Brissenden J.A., Levin E.J., Osher D.E., Halko M.A., Somers D.C. Journal of Neuroscience, 36(22), 6083-6096.
“Structural connectivity of the developing human amygdala.” Saygin Z.M. , Osher D., Koldewyn K., Martin R., Finn A., Saxe R., Gabrieli J., Sheridan M. (2015). PLOS ONE, 10(4): e0125170. doi:10.1371/journal.pone.0125170
“Structural connectivity fingerprints predict cortical selectivity for multiple visual categories across cortex.” Osher D.E., Saxe R., Koldewyn K., Gabrieli J.D.E., Kanwisher N., Saygin Z.M. (2016, ePub 2015). Cerebral Cortex, 26(4), 1668-83.
“Tracking the roots of reading ability: White matter volume and integrity correlate with phonological awareness in prereading and early-reading kindergarten children.” Saygin Z.M., Norton E.S., Osher D.E., Beach S. B., Cyr A.B., Ozranov-Palchik O., Yendiki A., Fischl B., Gaab N., Gabrieli J.D.E. (2013). Journal of Neuroscience, 33(33), 13251–13258.
“Anatomical connectivity patterns predict face-selectivity in the fusiform gyrus.” *Saygin Z.M., *Osher D.E., Koldewyn K., Reynolds G., Gabrieli J.D.E., Saxe R.R. (2012). Nature Neuroscience, 15(2), 321-327. Supplementary information here. *these authors contributed equally to this work.
“Connectivity-based segmentation of human amygdala nuclei using probabilistic tractography.” *Saygin Z.M., *Osher D.E., Augustinack J., Fischl B., Gabrieli J.D.E. (2011). NeuroImage, 56(3), 1353-1361. *these authors contributed equally to this work.
“Predicting functional activity from structural connectivity.” Osher D.E., Saygin Z.M., Gabrieli J.D.E. (2011). Frontiers in Neuroinformatics. doi: 10.3389/conf.fninf.2011.08.00010.