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Items: 16

1.

Categorical Biases in Human Occipitoparietal Cortex.

Ester EF, Sprague TC, Serences JT.

J Neurosci. 2020 Jan 22;40(4):917-931. doi: 10.1523/JNEUROSCI.2700-19.2019. Epub 2019 Dec 20.

PMID:
31862856
2.

The Importance of Considering Model Choices When Interpreting Results in Computational Neuroimaging.

Sprague TC, Boynton GM, Serences JT.

eNeuro. 2019 Dec 20;6(6). pii: ENEURO.0196-19.2019. doi: 10.1523/ENEURO.0196-19.2019. Print 2019 Nov/Dec.

3.

Value-driven attentional capture enhances distractor representations in early visual cortex.

Itthipuripat S, Vo VA, Sprague TC, Serences JT.

PLoS Biol. 2019 Aug 9;17(8):e3000186. doi: 10.1371/journal.pbio.3000186. eCollection 2019 Aug.

4.

Functional MRI and EEG Index Complementary Attentional Modulations.

Itthipuripat S, Sprague TC, Serences JT.

J Neurosci. 2019 Jul 31;39(31):6162-6179. doi: 10.1523/JNEUROSCI.2519-18.2019. Epub 2019 May 24.

5.

Separating memoranda in depth increases visual working memory performance.

Chunharas C, Rademaker RL, Sprague TC, Brady TF, Serences JT.

J Vis. 2019 Jan 2;19(1):4. doi: 10.1167/19.1.4.

6.

Inverted Encoding Models Assay Population-Level Stimulus Representations, Not Single-Unit Neural Tuning.

Sprague TC, Adam KCS, Foster JJ, Rahmati M, Sutterer DW, Vo VA.

eNeuro. 2018 Jun 5;5(3). pii: ENEURO.0098-18.2018. doi: 10.1523/ENEURO.0098-18.2018. eCollection 2018 May-Jun. No abstract available.

7.

Dissociable signatures of visual salience and behavioral relevance across attentional priority maps in human cortex.

Sprague TC, Itthipuripat S, Vo VA, Serences JT.

J Neurophysiol. 2018 Jun 1;119(6):2153-2165. doi: 10.1152/jn.00059.2018. Epub 2018 Feb 28.

8.

Spatial Tuning Shifts Increase the Discriminability and Fidelity of Population Codes in Visual Cortex.

Vo VA, Sprague TC, Serences JT.

J Neurosci. 2017 Mar 22;37(12):3386-3401. doi: 10.1523/JNEUROSCI.3484-16.2017. Epub 2017 Feb 27.

9.

Restoring Latent Visual Working Memory Representations in Human Cortex.

Sprague TC, Ester EF, Serences JT.

Neuron. 2016 Aug 3;91(3):694-707. doi: 10.1016/j.neuron.2016.07.006.

10.

How Do Visual and Parietal Cortex Contribute to Visual Short-Term Memory?

Ester EF, Rademaker RL, Sprague TC.

eNeuro. 2016 May 3;3(2). pii: ENEURO.0041-16.2016. doi: 10.1523/ENEURO.0041-16.2016. eCollection 2016 Mar-Apr. No abstract available.

11.

Decoding and Reconstructing the Focus of Spatial Attention from the Topography of Alpha-band Oscillations.

Samaha J, Sprague TC, Postle BR.

J Cogn Neurosci. 2016 Aug;28(8):1090-7. doi: 10.1162/jocn_a_00955. Epub 2016 Mar 22.

12.

Parietal and Frontal Cortex Encode Stimulus-Specific Mnemonic Representations during Visual Working Memory.

Ester EF, Sprague TC, Serences JT.

Neuron. 2015 Aug 19;87(4):893-905. doi: 10.1016/j.neuron.2015.07.013. Epub 2015 Aug 6.

13.

Visual attention mitigates information loss in small- and large-scale neural codes.

Sprague TC, Saproo S, Serences JT.

Trends Cogn Sci. 2015 Apr;19(4):215-26. doi: 10.1016/j.tics.2015.02.005. Epub 2015 Mar 11. Review.

14.

Reconstructions of information in visual spatial working memory degrade with memory load.

Sprague TC, Ester EF, Serences JT.

Curr Biol. 2014 Sep 22;24(18):2174-2180. doi: 10.1016/j.cub.2014.07.066. Epub 2014 Sep 4.

15.

Changing the spatial scope of attention alters patterns of neural gain in human cortex.

Itthipuripat S, Garcia JO, Rungratsameetaweemana N, Sprague TC, Serences JT.

J Neurosci. 2014 Jan 1;34(1):112-23. doi: 10.1523/JNEUROSCI.3943-13.2014.

16.

Attention modulates spatial priority maps in the human occipital, parietal and frontal cortices.

Sprague TC, Serences JT.

Nat Neurosci. 2013 Dec;16(12):1879-87. doi: 10.1038/nn.3574. Epub 2013 Nov 10.

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