2020
DOI: 10.1002/ajpa.24053
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Is the middle cranial fossa a reliable predictor of temporal lobe volume in extant and fossil anthropoids?

Abstract: ObjectivesWe investigate the suitability of middle cranial fossa (MCF) size as a proxy for temporal lobe volume (TLV), examining the strength of the association between TLV and MCF metrics and assess the reliability predicting TLV in fossil anthropoids. The temporal lobe of the primate brain is a multimodal association cortex involved in long‐term memory, auditory, and visual processing with unique specializations in modern humans for language comprehension. The MCF is the bony counterpart for the temporal lob… Show more

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Cited by 7 publications
(3 citation statements)
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“…In particular, the superior temporal gyrus has high values for most of the centrality measures, evidencing that it is embedded in a complex morphological frame. The temporal cortex is supposed to have many derived features in humans (Bastir et al, 2008; Bryant & Preuss, 2018; Pearson et al, 2020), but its topological condition suggests caution when making inference on its macroscopic anatomical variations. Also the supramarginal gyrus and the pericentral regions are susceptible of indirect spatial influences, and variations of their morphology should be considered within a more general topological view.…”
Section: Discussionmentioning
confidence: 99%
“…In particular, the superior temporal gyrus has high values for most of the centrality measures, evidencing that it is embedded in a complex morphological frame. The temporal cortex is supposed to have many derived features in humans (Bastir et al, 2008; Bryant & Preuss, 2018; Pearson et al, 2020), but its topological condition suggests caution when making inference on its macroscopic anatomical variations. Also the supramarginal gyrus and the pericentral regions are susceptible of indirect spatial influences, and variations of their morphology should be considered within a more general topological view.…”
Section: Discussionmentioning
confidence: 99%
“…The Pearson Sample used voxel‐based volumetric calculation directly from the MRI without interpolation estimation conducted in Brainsuite 17a (Shattuck & Leahy, 2002) following automatic segmentation for H. sapiens (Figure 1) and manual segmentation for non‐human anthropoids as per Pearson et al (2020). In the Pearson sample, intraobserver error was estimated an analysis of variance (ANOVA) as the proportion of the mean‐squared differences between replicates relative to the total between‐group variation (Bailey & Byrnes, 1990).…”
Section: Methodsmentioning
confidence: 99%
“…The extrapolation of MCF shape changes in fossil Homo were used to infer key evolutionary changes to the temporal lobe shape (Bastir et al, 2008; Bastir et al, 2011) and sulcal pattern evolution (Rosas et al, 2014). However, the temporal lobe and MCF estimates were not statistically assessed until recently when Pearson et al (2020) proposed a predictive equation for temporal lobe volume (TLV) from the MCF in fossil and living anthropoids including fossil hominins.…”
Section: Introductionmentioning
confidence: 99%