Superficial white matter fiber systems impede detection of long-range cortical connections in diffusion MR tractography

Reveley, Colin; Seth, Anil K.; Pierpaoli, Carlo; Silva, Afonso C.; Yu, David; Saunders, Richard C.; Leopold, David A.; Ye, Frank Q.

doi:10.1073/pnas.1418198112

Cited by 397 publications

(415 citation statements)

References 57 publications

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“…In addition, tractography may be challenging in the brain regions of high fiber complexity (for a more detailed discussion, see Jbabdi and Johansen-Berg, 2011). For example, it has been suggested that tracking white matter fibers into the cortex to find their exact termination may be further limited by the complexity added by local corticocortical connections passing parallel to the cortex (Reveley et al, 2015). Taking into account these limitations, recent studies have shown that probabilistic tractography, which greatly capitalizes on the quantitative potential of assessing the probability of a connection between the two regions, can be applied successfully in both human and nonhuman primate species to draw conclusions not only about the nonhuman primate brain in a validated model but also the human brain and how it may differ from that of the nonhuman primate.…”

Section: Resultsmentioning

confidence: 99%

Structural Organization of the Laryngeal Motor Cortical Network and Its Implication for Evolution of Speech Production

Kumar¹,

Croxson²,

Simonyan

2016

J. Neurosci.

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The laryngeal motor cortex (LMC) is essential for the production of learned vocal behaviors because bilateral damage to this area renders humans unable to speak but has no apparent effect on innate vocalizations such as human laughing and crying or monkey calls. Several hypotheses have been put forward attempting to explain the evolutionary changes from monkeys to humans that potentially led to enhanced LMC functionality for finer motor control of speech production. These views, however, remain limited to the position of the larynx area within the motor cortex, as well as its connections with the phonatory brainstem regions responsible for the direct control of laryngeal muscles. Using probabilistic diffusion tractography in healthy humans and rhesus monkeys, we show that, whereas the LMC structural network is largely comparable in both species, the LMC establishes nearly 7-fold stronger connectivity with the somatosensory and inferior parietal cortices in humans than in macaques. These findings suggest that important "hard-wired" components of the human LMC network controlling the laryngeal component of speech motor output evolved from an already existing, similar network in nonhuman primates. However, the evolution of enhanced LMC-parietal connections likely allowed for more complex synchrony of higher-order sensorimotor coordination, proprioceptive and tactile feedback, and modulation of learned voice for speech production.

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Section: Resultsmentioning

confidence: 99%

Structural Organization of the Laryngeal Motor Cortical Network and Its Implication for Evolution of Speech Production

Kumar¹,

Croxson²,

Simonyan

2016

J. Neurosci.

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“…S1). The perfusion-fixation protocol, and other preparations for data acquisition and scanning of the ex-vivo brain are described in detail in the previous study (Reveley et al, 2015) Creation of 3D digital atlas template from 2D atlas…”

Section: Creation Of An Ex-vivo Surrogate Anatomical Volumementioning

confidence: 99%

Three-Dimensional Digital Template Atlas of the Macaque Brain

et al. 2016

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“…For example, diffusion MRI provides the means to track white matter pathways (Fig. 4) and has been used to identify white matter connectivity disruptions associated with cognitive disorders such as dyslexia 77 ; however, diffusion imaging has inherent biases that limit its ability to accurately track connections across the entire brain 78,79 . The last decade has seen a proliferation of approaches to model functional connectivity on the basis of functional MRI data, though the dust has yet to settle regarding which methods are most effective (for example, ref.…”

Section: Connectomicsmentioning

confidence: 99%