Prominent Changes in Cerebro-Cerebellar Functional Connectivity During Continuous Cognitive Processing

Castellazzi, Gloria; Bruno, Stefania; Toosy, Ahmed; Casiraghi, Letizia; Palesi, Fulvia; Savini, Giovanni; D’Angelo, Egidio; Wheeler-Kingshott, C

doi:10.3389/fncel.2018.00331

Cited by 31 publications

(38 citation statements)

References 75 publications

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“…Recently, using advanced tractography, it has been possible to reconstruct the tracts wiring the cerebral cortex and the cerebellum demonstrating the existence of cerebro-cerebellar loops involving the associative areas ( Palesi et al, 2015 , 2017b ). Moreover, resting-state fMRI (rs-fMRI) has demonstrated that the cerebellum is entrained into large-scale coherent oscillations together with cerebral cortical regions to form several resting-state networks, including the default-mode network, salience network and attention network in addition to the sensorimotor network ( Buckner, 2013 ; Castellazzi et al, 2018 ). Finally, task-dependent fMRI has shown cerebellar activation, together with several cerebral cortical areas, during the execution of motor and cognitive tasks ( Casiraghi et al, 2019 ).…”

Section: Introductionmentioning

confidence: 99%

The Importance of Cerebellar Connectivity on Simulated Brain Dynamics

Palesi

Lorenzi

Casellato

et al. 2020

Front. Cell. Neurosci.

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Section: Introductionmentioning

confidence: 99%

The Importance of Cerebellar Connectivity on Simulated Brain Dynamics

Palesi

Lorenzi

Casellato

et al. 2020

Front. Cell. Neurosci.

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“…The fact that there was a significant involvement of the cerebellar Crus I/II (bilaterally) in FTLD compared to ALS, could partially explain the cognitive impairment of these patients given the role of this region in memory and language processing 27 as well in continuous cognitive processing tasks. 17 Furthermore, our study shows a statistically significant involvement of the posterior cerebellum in FTLD compared to ALS, which could point to a greater disruption of the cerebro-cerebellar circuit in FTLD. This is further supported by the atrophy found in the ATR, which is known to be part of the efferent pathway from the superior cerebellar peduncle.…”

Section: All the Above Was Discussed In Terms Of Comparison Between Pmentioning

confidence: 54%

“…This result is consistent with recent literature showing more and more often that the cerebellum has a key role in cognition and in supporting advanced functions. 31,32,17 Furthermore, recent studies have reported the presence of a high proportion of cerebellar connections with the frontal and prefrontal cortex 29 consistent with the fact that the FAB is thought to require predominantly frontal and prefrontal cortex and more generally high-level functions. Indeed, Crus I is known to be involved in cognition, whereas lobule VII has recently been shown to have a role in cognitive and social behavior, with particular focus on persisting behavior and novelty seeking.…”

Section: All the Above Was Discussed In Terms Of Comparison Between Pmentioning

confidence: 66%

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Frontal and cerebellar atrophy supports FTSD-ALS clinical continuum

Pizzarotti¹,

Palesi

Vitali

et al. 2019

Preprint

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Background: Frontotemporal Spectrum Disorder (FTSD) and Amyotrophic Lateral Sclerosis (ALS) are neurodegenerative diseases often considered as a continuum from clinical, epidemiologic and genetic perspectives. We used localized brain volume alterations to evaluate common and specific features of FTSD, FTSD-ALS and ALS patients to further understand this clinical continuum. Methods: We used voxel-based morphometry on structural MRI images to localize volume alterations in group comparisons: patients (20 FTSD, seven FTSD-ALS, 18 ALS) versus healthy controls (39 CTR), and patient groups between themselves. We used mean whole-brain cortical thickness (CT) to assess whether its correlations with local brain volume could propose mechanistic explanations of the heterogeneous clinical presentations. We also assessed whether volume reduction can explain cognitive impairment, measured with frontal assessment battery, verbal fluency and semantic fluency. Results: Common (mainly frontal) and specific areas with reduced volume were detected between FTSD, FTSD-ALS and ALS patients, confirming suggestions of a clinical continuum, while at the same time defining morphological specificities for each clinical group (e.g. a difference of cerebral and cerebellar involvement between FTSD and ALS). CT values suggested extensive network disruption in the pathological process, with indications of a correlation between cerebral and cerebellar volumes and CT in ALS. The analysis of the neuropsychological scores indeed pointed towards an important role for the cerebellum, along with fronto-temporal areas, in explaining impairment of executive and linguistic functions. Conclusions: We identified common elements that explain the FTSD-ALS clinical continuum, while also identifying specificities of each group, partially explained by different cerebral and cerebellar involvement.

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“…In brief, they proposed that “the primary purpose for which the phonological loop evolved was to store unfamiliar sound patterns while more permanent memory records are being constructed” (abstract). Following the findings of Ashida, Cerminara, Edwards, Apps and Brooks [33] , Castellazzi, Bruno, Toosy, Casiragi, Palesi, Savini et al [39] , Crespi, Read & Hurd [34] and Saeki, Baddeley, Hitch and Saito [40] , it is reasonable to suggest that new, repetitious words would be error-corrected and modeled in the cerebellum in relation to existing phonological working memory. These findings provide a direct neurological parallel to Baddeley, Gathercole and Papagno's description of the purpose and operation of the phonological loop for acquisition of new word forms, a scenario that within Vandervert's [23] , [41] proposals places the evolutionary origin of the phonological loop as a concomitant to new, fast-paced cerebellar attention shifting [42] among and internal modeling of new, repetitious movement requirements and counterpart inner vocalizations across the evolution of stone-tool making.…”

Section: Introductionmentioning

confidence: 80%

The prominent role of the cerebellum in the social learning of the phonological loop in working memory: How language was adaptively built from cerebellar inner speech required during stone-tool making

Vandervert¹

2020

AIMS Neuroscience

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Based on advances in cerebellum research as to its cognitive, social, and language contributions to working memory, the purpose of this article is to describe new support for the prominent involvement of cerebellar internal models in the adaptive selection of language. Within this context it has been proposed that (1) cerebellar internal models of inner speech during stone-tool making accelerated the adaptive evolution of new cause-and-effect sequences of precision stone-tool knapping requirements, and (2) that these evolving cerebellar internal models coded (i.e., learned in corticonuclear microcomplexes) such cause-and-effect sequences as phonological counterparts and, these, when sent to the cerebral cortex, became new phonological working memory. This article describes newer supportive research findings on (1) the cerebellum's role in silent speech in working memory, and (2) recent findings on genetic aspects (FOXP2) of the role of silent speech in language evolution. It is concluded that within overall cerebro-cerebellar evolution, without the evolution of cerebellar coding of stone-tool making sequences of primitive working memory (beginning approximately 1.7 million years ago) language would not have evolved in the subsequent evolution of Homo sapiens .

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Prominent Changes in Cerebro-Cerebellar Functional Connectivity During Continuous Cognitive Processing

Cited by 31 publications

References 75 publications

The Importance of Cerebellar Connectivity on Simulated Brain Dynamics

The Importance of Cerebellar Connectivity on Simulated Brain Dynamics

Frontal and cerebellar atrophy supports FTSD-ALS clinical continuum

The prominent role of the cerebellum in the social learning of the phonological loop in working memory: How language was adaptively built from cerebellar inner speech required during stone-tool making

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