Accurate Bayesian segmentation of thalamic nuclei using diffusion MRI and an improved histological atlas

Tregidgo, Henry F. J.; Soskic, Sonja; Althonayan, Juri; Maffei, Chiara; Leemput, Koen Van; Golland, Polina; Yendiki, Anastasia; Alexander, Daniel C.; Bocchetta, Martina; Rohrer, Jonathan D.; Iglesias, Juan Eugenio

doi:10.1101/2022.09.28.508731

Cited by 5 publications

(10 citation statements)

References 82 publications

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“…Lateralised whole and regional thalamic segmentations were estimated using a Bayesian joint structural and DWI data segmentation method, which combines information from a previous probabilistic atlas incorporating histologically identified nuclei together with likelihood models for both structural and diffusion data (Tregidgo et al, 2023). The algorithm requires the bias field corrected image and whole brain parcellation yielded by the recon-all pipeline, and a diffusion tensor imaging (DTI) model as fitted by TRACULA (Maffei et al, 2021; Yendiki et al, 2011).…”

Section: Mri Data Acquisitionmentioning

confidence: 99%

“…To avoid over-inflation of statistical estimates for smaller subnuclei volumes, the 24 nuclei labels from each hemisphere were merged to create subregions. Label merging decisions were informed by the histological atlas utilised in the development of the segmentation method (Morel et al, 1997; Tregidgo et al, 2023). The thalamic subgroups utilised are also broadly consistent with commonly employed grouping based on anatomical location (Grodd et al, 2020).…”

Section: Mri Data Acquisitionmentioning

confidence: 99%

“…One key limitation of previous thalamic volumetric studies is the treatment of the thalamus as a uniform structure. While there is commonality in cellular properties across the entire thalamus, it is structurally heterogenous, with at least 50 subnuclei identified depending on the degree and method of classification (Tregidgo et al, 2023). These subnuclei contribute variably to function, enabled by differences in connectivity targets, neurochemical receptors and transporters, and aspects of cytoarchitecture (Antonucci et al, 2021; Keun et al, 2021).…”

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confidence: 99%

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Mild traumatic brain injury is associated with increased thalamic subregion volume in the subacute period following injury

Baird,

Beare,

Seal

et al. 2024

Preprint

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Structural vulnerability of the thalamus remains under investigated in mild traumatic brain injury (mTBI), and few studies have addressed its constituent nuclei using robust segmentation methods. This study aimed to investigate thalamic subnuclei volume in the subacute period following mTBI. Trauma control (TC) and mTBI patients aged 18 – 60 years old completed an MRI neuroimaging protocol including both high resolution structural (T1w) and diffusion weighted sequences at 6 – 11 weeks following injury (mean: 57 days; sd 11). Each thalamus was segmented into its constituent subnuclei, which were grouped into eight lateralised subregions. Volumes of the subregions were calculated. Neurite Orientation Dispersion and Density (NODDI) maps with parameters optimised for grey matter were computed for the same subregions. Group differences in subregion volumes and NODDI parameters were investigated using Bayesian linear modelling, with age, sex, and intracranial volume included as covariates. Comparisons of mTBI (n = 39) and TC (n = 28) groups revealed evidence of relatively increased grey matter volume in the mTBI group for the bilateral medial and right intralaminar subregions (BF10> 3). Of the subregions which showed volume differences, there was no evidence for differences in NODDI metrics between groups. This study demonstrates that in the subacute period following mTBI, there is evidence of increased volume in specific thalamic subregions. Putative mechanisms underpinning the increased volume observed here are disordered remyelination, or myelin debris yet to be cleared.Significance statementDespite the prevalence of continued cognitive, somatic, and vestibular symptoms in the subacute period (6 – 12 weeks) following an mTBI, a clear neuropathophysiological profile is yet to be determined. One key vulnerable structure in mTBI could be the thalamus, a subcortical grey matter structure which comprises numerous subregions. The present study investigated whether changes in thalamic subregion volume are evident in the subacute period. For the first time, we show that at approximately 8 weeks following injury, mTBI is associated with increased volume in specific thalamus subregions. This provides an important avenue for continued investigation into the clinical significance of these findings.

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Section: Mri Data Acquisitionmentioning

confidence: 99%

Section: Mri Data Acquisitionmentioning

confidence: 99%

mentioning

confidence: 99%

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Mild traumatic brain injury is associated with increased thalamic subregion volume in the subacute period following injury

Baird,

Beare,

Seal

et al. 2024

Preprint

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“…However, the thalamus is also a complex, multi-faceted area divided into several subnuclei, including the dorsal thalamus, ventral thalamus, and the intralaminar nuclei (Herrero et al, 2002;Tregidgo et al, 2023).…”

Section: Introductionmentioning

confidence: 99%

“…However, the thalamus is also a complex, multi‐faceted area divided into several subnuclei, including the dorsal thalamus, ventral thalamus, and the intralaminar nuclei (Herrero et al, 2002; Tregidgo et al, 2023). Studying the subnuclei of the thalamus is essential for understanding the neural mechanisms underlying several brain functions and how they may relate.…”

Section: Introductionmentioning

confidence: 99%

Thalamic contributions to psychosis susceptibility: Evidence from co‐activation patterns accounting for intra‐seed spatial variability (μCAPs)

Delavari,

Sandini,

Kojovic

et al. 2024

Human Brain Mapping

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The temporal variability of the thalamus in functional networks may provide valuable insights into the pathophysiology of schizophrenia. To address the complexity of the role of the thalamic nuclei in psychosis, we introduced micro‐co‐activation patterns (μCAPs) and employed this method on the human genetic model of schizophrenia 22q11.2 deletion syndrome (22q11.2DS). Participants underwent resting‐state functional MRI and a data‐driven iterative process resulting in the identification of six whole‐brain μCAPs with specific activity patterns within the thalamus. Unlike conventional methods, μCAPs extract dynamic spatial patterns that reveal partially overlapping and non‐mutually exclusive functional subparts. Thus, the μCAPs method detects finer foci of activity within the initial seed region, retaining valuable and clinically relevant temporal and spatial information. We found that a μCAP showing co‐activation of the mediodorsal thalamus with brain‐wide cortical regions was expressed significantly less frequently in patients with 22q11.2DS, and its occurrence negatively correlated with the severity of positive psychotic symptoms. Additionally, activity within the auditory–visual cortex and their respective geniculate nuclei was expressed in two different μCAPs. One of these auditory–visual μCAPs co‐activated with salience areas, while the other co‐activated with the default mode network (DMN). A significant shift of occurrence from the salience+visuo‐auditory‐thalamus to the DMN + visuo‐auditory‐thalamus μCAP was observed in patients with 22q11.2DS. Thus, our findings support existing research on the gatekeeping role of the thalamus for sensory information in the pathophysiology of psychosis and revisit the evidence of geniculate nuclei hyperconnectivity with the audio‐visual cortex in 22q11.2DS in the context of dynamic functional connectivity, seen here as the specific hyper‐occurrence of these circuits with the task‐negative brain networks.

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Thalamic contributions to psychosis susceptibility: Evidence from co-activation patterns accounting for intra-seed spatial variability (μCAPs)

Delavari

Sandini

Kojovic

et al. 2023

Preprint

View full text Add to dashboard Cite

The temporal variability of the thalamus in functional networks may provide valuable insights into the pathophysiology of schizophrenia. To address the complexity of the role of the thalamic nuclei in psychosis, we introduced micro-co-activation patterns (μCAPs) by employing this method on the human genetic model of schizophrenia 22q11.2 deletion syndrome (22q11.2DS). Participants underwent resting-state functional MRI and a data-driven iterative process resulting in the identification of six whole-brain μCAPs with specific activity patterns within the thalamus. Unlike conventional methods, μCAPs extract dynamic spatial patterns that reveal partially overlapping and non-mutually exclusive functional subparts. Thus, the μCAPs method detects finer foci of activity within the initial seed region, retaining valuable and clinically relevant temporal and spatial information. We found that a μCAP showing co-activation of the mediodorsal thalamus with brain-wide cortical regions was significantly less frequent in patients with 22q11.2DS, and its occurrence negatively correlated with the severity of positive psychotic symptoms. Additionally, the activity within the auditory-visual cortex and their respective geniculate nuclei were expressed in two different μCAPs. One of these auditory-visual μCAPs co-activated with salience areas, while the other co-activated with the default mode network (DMN). A significant shift of occurrence from the salience+visuo-auditory-thalamus to the DMN+visuo-auditory-thalamus micro CAP was observed in patients with 22q11.2DS. Thus, our findings support existing research on the gatekeeping role of the thalamus for sensory information in the pathophysiology of psychosis and revisit the evidence of geniculate nuclei hyperconnectivity with the audio-visual cortex in 22q11.2DS in the context of dynamic functional connectivity as specific hyper-occurrence of these circuits with the task negative brain networks.

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Accurate Bayesian segmentation of thalamic nuclei using diffusion MRI and an improved histological atlas

Cited by 5 publications

References 82 publications

Mild traumatic brain injury is associated with increased thalamic subregion volume in the subacute period following injury

Mild traumatic brain injury is associated with increased thalamic subregion volume in the subacute period following injury

Thalamic contributions to psychosis susceptibility: Evidence from co‐activation patterns accounting for intra‐seed spatial variability (μCAPs)

Thalamic contributions to psychosis susceptibility: Evidence from co-activation patterns accounting for intra-seed spatial variability (μCAPs)

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