Subcortical Atlas of the Rhesus Macaque (SARM) for Magnetic Resonance Imaging

Hartig, Renée; Glen, Daniel R.; Jung, Benjamin; Logothetis, NK; Paxinos, George; Garza‐Villarreal, Eduardo A.; Messinger, Adam; Evrard, HC

doi:10.1101/2020.09.16.300053

Cited by 4 publications

(4 citation statements)

References 49 publications

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“…Note that dPul(a) label in each animal does not imply that these sites were in the anterior (sometimes called oral) pulvinar, which is located further anterior than the majority of our dPul(a) sites, as can be seen in the NMT v2 SARM atlas space ( Figure S2 ). In monkey B, however, both dPul(a) and dPul stimulation sites were by ∼1.5-2 mm more anterior than in monkey C in the normalized atlas space, and extended into anterior pulvinar according to the SARM atlas (Hartig et al, 2020).…”

Section: Methodsmentioning

confidence: 96%

“…The coronal template outlines were adapted from http://braininfo.rprc.washington.edu/PrimateBrainMaps/atlas/Mapindex.html, also available at https://scalablebrainatlas.incf.org/macaque/DB09 (Wu et al, 2000). For all analyses we utilized the recent SARM atlas in NMT v2 template space that uses anterior, medial, lateral and inferior delineation (APul, MPul, LPul, IPul) (Hartig et al, 2020; Jung et al, 2021). Since various atlases and research papers adopt different pulvinar nomenclature and abbreviations (e.g.…”

Section: Methodsmentioning

confidence: 99%

“…To facilitate the comparability between the results in two individual animals, and to promote standardization for data sharing, we utilized recently published NMT v2 template and associated hierarchical cortical CHARM and subcortical SARM atlases (Hartig et al, 2020; Jung et al, 2021; Seidlitz et al, 2018). As compared to the AC-PC space with the anterior commissure (AC) as an origin, NMT v2 is in a stereotaxic space, with the origin at the intersection of the midsagittal plane and the interaural line.…”

Section: Methodsmentioning

confidence: 99%

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Effective connectivity and spatial selectivity-dependent fMRI changes elicited by microstimulation of pulvinar and LIP

Kagan

Gibson

Spanou

et al. 2020

Preprint

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The thalamic pulvinar and the lateral intraparietal area (LIP) share reciprocal anatomical connections and are part of an extensive cortical and subcortical network involved in spatial attention and oculomotor processing. The goal of this study was to compare the effective connectivity of dorsal pulvinar (dPul) and LIP and to probe the dependency of microstimulation effects on task demands and spatial tuning properties of a given brain region. To this end, we applied unilateral electrical microstimulation in the dPul and LIP in combination with event-related BOLD fMRI in monkeys performing fixation and memory-guided saccade tasks. Microstimulation in both dPul and LIP enhanced task-related activity in monosynaptically-connected prefrontal cortex and along the superior temporal sulcus (STS) as well as in extrastriate cortex. Both dPul and LIP stimulation also elicited activity in several cortical areas in the opposite hemisphere, implying polysynaptic propagation of excitation. LIP microstimulation elicited strong activity in the opposite homotopic LIP while no homotopic activation was found during dPul stimulation. Despite extensive activation along the intraparietal sulcus evoked by LIP stimulation, there was a difference in frontal and occipital connectivity elicited by posterior and anterior LIP stimulation sites. Comparison of dPul stimulation with the adjacent but functionally distinct ventral pulvinar also showed distinct connectivity. On the level of single trial timecourses within a region, most microstimulation regions did not show task-dependence of stimulation-elicited response modulation. Across regions, however, there was an interaction between the task and the stimulation, and task-specific correlations between the initial spatial selectivity and the magnitude of stimulation effect were observed. Consequently, stimulation-elicited modulation of task-related activity was best fitted by an additive model scaled down by the initial response amplitude. In summary, we identified overlapping and distinct patterns of thalamocortical and corticocortical connectivity of the two key visuospatial areas, highlighting the dorsal bank and fundus of STS as a prominent node of shared circuitry. Spatial task-specific and partly polysynaptic modulations of cue and saccade planning delay period activity in both hemispheres exerted by unilateral pulvinar and parietal stimulation provide insight into the distributed interhemispheric processing underlying spatial behavior.HighlightsElectrical stimulation of pulvinar and LIP was used to study fMRI effective connectivityBoth regions activated prefrontal cortex and the dorsal bank of superior temporal sulcusActivations within and across hemispheres suggest polysynaptic propagationStimulation effects show interactions between task- and spatial selectivityStimulation effects are best fitted by an additive model scaled by the initial response

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Section: Methodsmentioning

confidence: 96%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Effective connectivity and spatial selectivity-dependent fMRI changes elicited by microstimulation of pulvinar and LIP

Kagan

Gibson

Spanou

et al. 2020

Preprint

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“…All structural and functional images were co-registered to the digital version of rhesus monkey atlas with AFNI command 3dAllineate and 3dNwarpApply. We used D99 digital atlas (version 1.2b) (Reveley et al, 2016) for cortical segmentation, and SARM digital atlas (Hartig et al, 2020) for subcortical segmentation. The alignment was then manually examined according to an MR-histology atlas (Saleem and Logothetis, 2012), as well as www.brainmaps.org for subcortical and brainstem sites, annotations of brain regions were then assigned to all voxels in the brain.…”

Section: Image Alignmentmentioning

confidence: 99%

Brainwide mesoscale functional networks revealed by focal infrared neural stimulation of the amygdala

Ping,

Wang,

García-Cabezas

et al. 2024

Preprint

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The primate amygdala serves to evaluate emotional content of sensory inputs and modulate emotional and social behaviors; prefrontal, multisensory and autonomic aspects of these circuits are mediated predominantly via the basal (BA), lateral (LA), and central (CeA) nuclei, respectively. Based on recent electrophysiological evidence suggesting mesoscale (millimeters-scale) nature of intra-amygdala functional organization, we have investigated the connectivity of these nuclei using infrared neural stimulation (INS) of single mesoscale sites coupled with mapping in ultrahigh field 7T functional magnetic resonance imaging (fMRI), namely INS-fMRI. Following stimulation of multiple sites within amygdala of single individuals, a 'mesoscale functional connectome' of amygdala connectivity (of BA, LA, and CeA) was obtained. This revealed the mesoscale nature of connected sites, the spatial patterns of functional connectivity, and the topographic relationships (parallel, sequential, or interdigitating) of nucleus-specific connections. These findings provide novel perspectives on the brainwide circuits modulated by the amygdala.

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