| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| J B Whitley, S P Masterson, T Gordon, K L Whyland, P W Campbell, N Zhou, G Govindaiah, W Guido, M E Bickfor. GABAergic projections from the pretectum boost retinogeniculate signal transfer via disinhibition. The Journal of neuroscience : the official journal of the Society for Neuroscience. 2025-04-14. PMID:40228897. |
the transfer of retinal signals from the dorsal lateral geniculate nucleus (dlgn) to the primary visual cortex (v1) is modulated by a variety of extraretinal inputs, including extrinsic connections formed by gabaergic neurons in the pretectum (pt) and visual sector of the thalamic reticular nucleus (vtrn), as well as the intrinsic connections of gabaergic dlgn interneurons. |
2025-04-14 |
2025-04-17 |
Not clear |
| Gabriella E Parrilla, Roshana Vander Wall, Nitin Chitranshi, Devaraj Basavarajappa, Vivek Gupta, Stuart L Graham, Yuyi Yo. RXR agonist, 9-cis-13,14-dihydroretinoic acid (9CDHRA), reduces damage and protects from demyelination in transsynaptic degeneration model. Neuroscience. 2024-08-22. PMID:39173871. |
it was found that 9cdhra treatment effectively delayed glial activation and reduced the presence of apoptosis at the site of injury and further anterogradely in the visual system, including the lateral geniculate nucleus (lgn) and primary visual cortex (v1). |
2024-08-22 |
2024-08-25 |
mouse |
| Caroline Dugan, Basilis Zikopoulos, Arash Yazdanbakhs. A neural modeling approach to study mechanisms underlying the heterogeneity of visual spatial frequency sensitivity in schizophrenia. Schizophrenia (Heidelberg, Germany). vol 10. issue 1. 2024-07-16. PMID:39013944. |
the early visual system, including the first-order lateral geniculate nucleus of the thalamus (lgn) and the primary visual cortex (v1), are key contributors to spatial frequency sensitivity. |
2024-07-16 |
2024-07-19 |
Not clear |
| Nelyane N M Santana, Eryck H A Silva, Sâmarah F Dos Santos, Lyzandro L F Bezerra, Maria M O da Silva, Jeferson S Cavalcante, Felipe P Fiuza, Paulo L A de G Morais, Rovena Clara Engelbert. Neuronal Stability, Volumetric Changes, and Decrease in GFAP Expression of Marmoset (Callithrix jacchus) Subcortical Visual Nuclei During Aging. The Journal of comparative neurology. vol 532. issue 7. 2024-07-05. PMID:38967410. |
among the components of the visual system, the dorsal lateral geniculate nucleus (dlg) and superior colliculus (sc) provide a good model for aging investigations, as these structures constitute the main visual pathways for retinal inputs reaching the visual cortex. |
2024-07-05 |
2024-07-11 |
marmoset |
| Bingao Zhang, Rong Zhang, Jingjin Zhao, Jiarui Yang, Shengyong X. The mechanism of human color vision and potential implanted devices for artificial color vision. Frontiers in neuroscience. vol 18. 2024-07-04. PMID:38962178. |
the neural mechanism of color vision is complicated, involving the co-ordinated functions of a variety of cells, such as retinal cells and lateral geniculate nucleus cells, as well as multiple levels of the visual cortex. |
2024-07-04 |
2024-07-10 |
human |
| Gongchen Yu, Leor N Katz, Christian Quaia, Adam Messinger, Richard J Krauzli. Short-latency preference for faces in primate superior colliculus depends on visual cortex. Neuron. 2024-07-03. PMID:38959893. |
this short-latency face preference in sc depends on signals routed through early visual cortex because inactivating the lateral geniculate nucleus, the key relay from retina to cortex, virtually eliminates visual responses in sc, including face-related activity. |
2024-07-03 |
2024-07-10 |
monkey |
| Carlyn Patterson Gentile, Manuel Spitschan, Huseyin O Taskin, Andrew S Bock, Geoffrey K Aguirr. Temporal sensitivity for achromatic and chromatic flicker across the visual cortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. 2024-04-15. PMID:38621997. |
these measurements were used to create temporal sensitivity functions of primary visual cortex (v1) across eccentricity, and spatially averaged responses from lateral geniculate nucleus (lgn), v2/v3, hv4, and v3a/b. |
2024-04-15 |
2024-04-18 |
human |
| Lukas Mesik, Samuel Parkins, Daniel Severin, Bryce D Grier, Gabrielle Ewall, Sumasri Kotha, Christian Wesselborg, Cristian Moreno, Yanis Jaoui, Adrianna Felder, Brian Huang, Marina B Johnson, Timothy P Harrigan, Anna E Knight, Shane W Lani, Théo Lemaire, Alfredo Kirkwood, Grace M Hwang, Hey-Kyoung Le. Transcranial low-intensity focused ultrasound (LIFU) stimulation of the visual thalamus produces long-term depression of thalamocortical synapses in the adult visual cortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. 2024-02-05. PMID:38316559. |
here we demonstrate that transcranial low-intensity focused ultrasound (lifu) stimulation of the visual thalamus (dorsal lateral geniculate nucleus, dlgn), a deep brain structure, leads to nmda receptor (nmdar)-dependent long-term depression of its synaptic transmission onto layer 4 neurons in the primary visual cortex (v1) of adult mice of both sexes. |
2024-02-05 |
2024-02-09 |
mouse |
| Sigrid Hegna Ingvaldsen, Anna Perregaard Jørgensen, Arnstein Grøtting, Trond Sand, Live Eikenes, Asta K Håberg, Marit S Indredavik, Stian Lydersen, Dordi Austeng, Tora Sund Morken, Kari Anne I Evense. Visual outcomes and their association with grey and white matter microstructure in adults born preterm with very low birth weight. Scientific reports. vol 14. issue 1. 2024-01-31. PMID:38297018. |
mean diffusivity, axial diffusivity, radial diffusivity, and fractional anisotropy was extracted from seven regions of interest in the visual pathway: splenium, genu, and body of corpus callosum, optic radiations, lateral geniculate nucleus, inferior-fronto occipital fasciculus, and primary visual cortex. |
2024-01-31 |
2024-02-03 |
Not clear |
| Caroline Dugan, Basilis Zikopoulos, Arash Yazdanbakhs. A neural modeling approach to study mechanisms underlying the heterogeneity of visual spatial frequency sensitivity in schizophrenia. bioRxiv : the preprint server for biology. 2023-10-31. PMID:37904992. |
the early visual system, including the first-order lateral geniculate nucleus of the thalamus (lgn) and the primary visual cortex (v1), are key contributors to spatial frequency sensitivity. |
2023-10-31 |
2023-11-08 |
Not clear |
| Gongchen Yu, Leor N Katz, Christian Quaia, Adam Messinger, Richard J Krauzli. Short-latency preference for faces in the primate superior colliculus. bioRxiv : the preprint server for biology. 2023-10-27. PMID:37886488. |
this short-latency preference in sc depends on signals routed through early visual cortex, because inactivating the lateral geniculate nucleus, the key relay from retina to cortex, virtually eliminates visual responses in sc, including face-related activity. |
2023-10-27 |
2023-11-08 |
Not clear |
| Elise G Rowe, Yubing Zhang, Marta I Garrid. Evidence for adaptive myelination of subcortical shortcuts for visual motion perception in healthy adults. Human brain mapping. 2023-08-23. PMID:37608684. |
conscious visual motion information follows a cortical pathway from the retina to the lateral geniculate nucleus (lgn) and on to the primary visual cortex (v1) before arriving at the middle temporal visual area (mt/v5). |
2023-08-23 |
2023-09-07 |
human |
| Carlyn Patterson Gentile, Manuel Spitschan, Huseyin O Taskin, Andrew S Bock, Geoffrey K Aguirr. Temporal sensitivity for achromatic and chromatic flicker across the visual cortex. bioRxiv : the preprint server for biology. 2023-08-07. PMID:37546951. |
these measurements were used to create temporal sensitivity functions (tsfs) of primary visual cortex (v1) across eccentricity, and spatially averaged responses from lateral geniculate nucleus (lgn), v2/v3, hv4, and mt. |
2023-08-07 |
2023-08-14 |
human |
| Tony Lindeber. Covariance properties under natural image transformations for the generalised Gaussian derivative model for visual receptive fields. Frontiers in computational neuroscience. vol 17. 2023-07-03. PMID:37398936. |
this paper presents a theory of geometric covariance properties in vision, developed for a generalised gaussian derivative model of receptive fields in the primary visual cortex and the lateral geniculate nucleus, which, in turn, enable geometric invariance properties at higher levels in the visual hierarchy. |
2023-07-03 |
2023-08-14 |
Not clear |
| Masih Rahmati, Clayton E Curtis, Kartik K Sreenivasa. Mnemonic representations in human lateral geniculate nucleus. Frontiers in behavioral neuroscience. vol 17. 2023-05-26. PMID:37234404. |
motivated by findings that internal cognitive state drives activity in feedback layers of primary visual cortex (v1) that target the lateral geniculate nucleus (lgn), we investigated the role of lgn in working memory (wm). |
2023-05-26 |
2023-08-14 |
human |
| Marius Schneider, Athanasia Tzanou, Cem Uran, Martin Vinc. Cell-type-specific propagation of visual flicker. Cell reports. vol 42. issue 5. 2023-05-17. PMID:37195864. |
here, we use neuropixels to record from the lateral geniculate nucleus (lgn), the primary visual cortex (v1), and ca1 in mice while presenting visual flicker stimuli. |
2023-05-17 |
2023-08-14 |
mouse |
| Timothy R Young, Dylan Black, Hannan Mansuri, Toshitaki Oohashi, Hong Zhou, Atomu Sawatari, Catherine A Leame. Ten-m4 plays a unique role in the establishment of binocular visual circuits. Developmental neurobiology. 2023-04-24. PMID:37092850. |
ten-m4 was found to be expressed in the retina, dorsal lateral geniculate nucleus (dlgn), superior colliculus (sc), and primary visual cortex (v1) during development. |
2023-04-24 |
2023-08-14 |
mouse |
| George E C Thomas, Peter Zeidman, Tajwar Sultana, Angeliki Zarkali, Adeel Razi, Rimona S Wei. Changes in both top-down and bottom-up effective connectivity drive visual hallucinations in Parkinson's disease. Brain communications. vol 5. issue 1. 2023-01-05. PMID:36601626. |
we find that visual hallucinators display decreased bottom-up effective connectivity from the lateral geniculate nucleus to primary visual cortex and increased top-down effective connectivity from the left prefrontal cortex to primary visual cortex and the medial thalamus, as compared with non-visual hallucinators. |
2023-01-05 |
2023-08-14 |
Not clear |
| Aybüke Erol, Chagajeg Soloukey, Bastian Generowicz, Nikki van Dorp, Sebastiaan Koekkoek, Pieter Kruizinga, Borbála Hunyad. Deconvolution of the Functional Ultrasound Response in the Mouse Visual Pathway Using Block-Term Decomposition. Neuroinformatics. 2022-11-15. PMID:36378467. |
in the first experiment, we present a single type of visual stimulus to the mouse, and deconvolve the fus signal measured within the mouse brain's lateral geniculate nucleus, superior colliculus and visual cortex. |
2022-11-15 |
2023-08-14 |
mouse |
| Prescott C Alexander, Henry J Alitto, Tucker G Fisher, Daniel L Rathbun, Theodore G Weyand, W Martin Usre. Dynamics of temporal integration in the lateral geniculate nucleus. eNeuro. 2022-08-04. PMID:35927025. |
before visual information from the retina reaches primary visual cortex, it is dynamically filtered by the lateral geniculate nucleus (lgn) of the thalamus, the first location within the visual hierarchy at which non-retinal structures can significantly influence visual processing. |
2022-08-04 |
2023-08-14 |
cat |