Role of fronto-striatal tract and frontal aslant tract in movement and speech: an axonal mapping study

Kinoshita, Masashi; Champfleur, Nicolas Menjot de; Deverdun, Jérémy; Moritz‐Gasser, Sylvie; Herbet, Guillaume; Duffau, Hugues

doi:10.1007/s00429-014-0863-0

Cited by 222 publications

(182 citation statements)

References 43 publications

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“…In dominant hemisphere FAT is associated with the initiation of speech and the fluency [9,12]. Speech arrest was observed in frontal lobe tumours infiltrating FAT as well as during its intraoperative electrical stimulation in awake surgeries [11,16]. FAT disconnection is attributed to stuttering, progressive aphasia or the development of Fox-Chavany-Marie syndrome [5,13].…”

Section: Introductionmentioning

confidence: 99%

Frontal aslant tract projections to the inferior frontal gyrus

et al. 2017

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Background: Frontal aslant tract (FAT) is a white matter bundle connecting the pre-supplementary motor area (pre-SMA) and the supplementary motor area (SMA) with the inferior frontal gyrus (IFG). The purpose of the present study was to evaluate the anatomical variability of FAT. Materials and methods: Total number of fibres and the lateralisation index (LI) were calculated. We attempted to find factors contributing to the diversity of FAT regarding IFG terminations to the pars opercularis (IFG-Op) and to the pars triangularis (IFG-Tr). Magnetic resonance imaging of adult patients with diffusion tensor imaging (DTI) with total number of 98 hemispheres composed a cohort. V-shaped operculum was the most common (60.5%). Results: Total number of FAT fibres had widespread and unimodal distribution (6 to 1765; median: 160). Left lateralisation was noted in 64.3% of cases and was positively correlated with total number of FAT fibres and the bundle projecting to IFG-Op (p < 0.01). LI correlated with total number of FAT fibres (r = 0.43, p < 0.01). FAT projected predominantly to IFG-Op (88.9%; 88 of 99). Only in 3 (3.1%) cases more fibres terminated in IFG-Tr than in IFG-Op. Total number of FAT fibres and number of fibres terminating at IFG-Op did not correlate with the ratio of fibre numbers: FAT/IFG-Op, FAT/IFG . The greater total number of fibres to IFG-Tr was, the higher were the ratios of p = 0.04 (Folia Morphol 2017; 76, 4: 574-581)

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Section: Introductionmentioning

confidence: 99%

Frontal aslant tract projections to the inferior frontal gyrus

et al. 2017

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“…This hypothesis is supported by the strong anatomical association between FAT and the frontal-striatal tract (FST) [16], a bundle connecting the SMA and pre-SMA with caudate nucleus [50] and involved in motor control, including manual coordination [16]. In its rostral part (around pre-SMA) the FAT is intermingling and overlapping with FST [16], whereas, caudally, FAT is running in a little more anterolateral side than FST [16]. Moreover, the present findings are supported by recent evidence of the role played by FAT in the visually guided hand movements [51], necessary to perform the grapho-motor task underlying the drawing tests.…”

Section: Discussionmentioning

confidence: 95%

“…We hypothesize that the FAT might also be involved in the planning of the motor engrams needed to execute the grapho-motor movements necessary to produce a drawing, and that the praxis deficits observed in AD are therefore in line with what has been observed in agrammatic-PPA patients. This hypothesis is supported by the strong anatomical association between FAT and the frontal-striatal tract (FST) [16], a bundle connecting the SMA and pre-SMA with caudate nucleus [50] and involved in motor control, including manual coordination [16]. In its rostral part (around pre-SMA) the FAT is intermingling and overlapping with FST [16], whereas, caudally, FAT is running in a little more anterolateral side than FST [16].…”

Section: Discussionmentioning

confidence: 99%

“…It is known that FAT plays a role in normal language development, as previously shown in young healthy individuals [13]. There is also some evidence that FAT is involved in language impairments due to primary progressive aphasia (PPA) [14], brain tumors [15,16,17], and stroke [18]. FAT is considered as a part of a "motor stream" mainly involved in speech production [19] and complementing the dorsal and ventral language streams [20].…”

Section: Introductionmentioning

confidence: 99%

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Damage to the Frontal Aslant Tract Accounts for Visuo-Constructive Deficits in Alzheimer’s Disease

Serra

Gabrielli

Tuzzi

et al. 2017

JAD

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The Frontal Aslant Tract (FAT) has been described as a bundle connecting the Broca's area to the Supplementary Motor Area (SMA) and the pre-SMA in both hemispheres.The functional properties of this tract, and its role in degenerative dementia, such as Alzheimer's disease (AD) still need to be fully clarified. The aim of this study was to explore the microstructural integrity of the FAT in patients with AD and its potential relationship with cognitive functioning. Twenty-three patients with AD and 25 healthy subjects (HS) were enrolled. All subjects underwent cognitive and MRI examination.MRI including diffusion sequences was used for probabilistic tractography analysis. We

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“…46,51 Extensive work on the most studied functions in intraparenchymal function have led to a more and more accurate description of this anatomy. For example, the inferior frontooccipital fasciculus, 3 frontal aslant tract, 54 uncinate fasciculus, 13 inferior longitudinal fasciculus, 3 different portions of the arcuate fasciculus, 13,61 and the way they interconnect with the past classic "eloquent cortical area" of language, are at least as important as the cortical functional anatomy to understand the possibility of recovery after surgery. Following this example, an extensive surgery of the left temporal pole involving the inferior longitudinal fasciculus and uncinate fasciculus (i.e., the core of the "indirect semantic ventral pathway") produces semantic troubles that will recover within a few weeks or months, only if the left inferior frontooccipital fasciculus is preserved (i.e., the core of the "direct semantic ventral pathway").…”

Section: How Hodotopy and Neuroplasticity Have Proved True And Helpfumentioning

confidence: 99%

Neuroplasticity and the brain connectome: what can Jean Talairach’s reflections bring to modern psychosurgery?

Bourdillon

Apra

Lévêque

et al. 2017

Neurosurgical Focus

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Contrary to common psychosurgical practice in the 1950s, Dr. Jean Talairach had the intuition, based on clinical experience, that the brain connectome and neuroplasticity had a role to play in psychosurgery. Due to the remarkable progress of pharmacology at that time and to the technical limits of neurosurgery, these concepts were not put into practice. Currently, these concepts are being confirmed by modern techniques such as neuroimaging and computational neurosciences, and could pave the way for therapeutic innovation in psychiatry.Psychosurgery commonly uses a localizationist approach, based on the idea that a lesion to a specific area is responsible for a deficit opposite to its function. To psychosurgeons such as Walter Freeman, who performed extensive lesions causing apparently inevitable deficit, Talairach answered with clinical data: complex psychic functions cannot be described that simply, because the same lesion does not provoke the same deficit in different patients. Moreover, cognitive impairment did not always follow efficacious psychosurgery. Talairach suggested that selectively destructing part of a network could open the door to a new organization, and that early psychotherapy could encourage this psychoplasticity. Talairach did not have the opportunity to put these concepts into practice in psychiatric diseases because of the sudden availability of neuroleptics, but connectomics and neuroplasticity gave rise to major advances in intraparenchymal neurosurgery, from epilepsy to low-grade glioma. In psychiatry, alongside long-standing theories implicating focal lesions and diffuse pathological processes, neuroimaging techniques are currently being developed. In mentally healthy individuals, combining diffusion tensor imaging with functional MRI, magnetoencephalography, and electroencephalography allows the determination of a comprehensive map of neural connections in the brain on many spatial scales, the so-called connectome. Ultimately, global neurocomputational models could predict physiological activity, behavior, and subjective feeling, and describe neuropsychiatric disorders.Connectomic studies comparing psychiatric patients with controls have already confirmed the early intuitions of Talairach. As a striking example, massive dysconnectivity has been found in schizophrenia, leading some authors to propose a “dysconnection hypothesis.” Alterations of the connectome have also been demonstrated in obsessive-compulsive disorder and depression. Furthermore, normalization of the functional dysconnectivity has been observed following clinical improvement in several therapeutic interventions, from psychotherapy to pharmacological treatments. Provided that mental disorders result from abnormal structural or functional wiring, targeted psychosurgery would require that one be able: 1) to identify the pathological network involved in a given patient; 2) to use neurostimulation to safely create a reversible and durable alteration, mimicking a lesion, in a network compatible with neuroplasticity; and 3) to predict which functional lesion would result in adapted neuronal plasticity and/or to guide neuronal plasticity to promote recovery. All these conditions, already suggested by Talairach, could now be achievable considering modern biomarkers and surgical progress.

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Role of fronto-striatal tract and frontal aslant tract in movement and speech: an axonal mapping study

Cited by 222 publications

References 43 publications

Frontal aslant tract projections to the inferior frontal gyrus

Frontal aslant tract projections to the inferior frontal gyrus

Damage to the Frontal Aslant Tract Accounts for Visuo-Constructive Deficits in Alzheimer’s Disease

Neuroplasticity and the brain connectome: what can Jean Talairach’s reflections bring to modern psychosurgery?

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