Cytoarchitecture, intersubject variability, and 3D mapping of four new areas of the human anterior prefrontal cortex

Bruno, Ariane; Bludau, Sebastian; Mohlberg, Hartmut; Amunts, Katrin

doi:10.3389/fnana.2022.915877

Cited by 8 publications

(16 citation statements)

References 106 publications

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“…In the anterior parts of the DLPFC, newly delineated areas share borders with previously mapped areas, like SFS1 and SFS2 (Bruno et al, 2022 ). Compared to area SFG4, area SFS1 showed a homogenous appearance as the layers were composed of equally sized cells without larger pyramidal neurons in layers III or V ( Figure 5F ).…”

Section: Resultsmentioning

confidence: 57%

“…Hierarchical cluster analysis was performed to detect similarities between the new DLPFC areas and the neighboring frontal pole areas (Fp1, Fp2) (Bludau et al, 2014 ), anterior DLPFC areas (Bruno et al, 2022 ), areas 44 and 45 of Broca's region (Amunts et al, 1999 ), subdivisions of areas 8 [8d1, 8d2, 8v1, and 8v2 (Amunts et al, 2021 )] and areas of the motoric region, like 6d1, 6d2, and 6d3 (Amunts et al, 2021 ), and 4a, and 4p (Geyer et al, 1996 ). Three sections with an average of 15–20 profiles per hemisphere were extracted for each area and brain, i.e., approximately 45 profiles per hemisphere (900 profiles total).…”

Section: Methodsmentioning

confidence: 99%

“…At the macroscopic level, refined parcellations of the human cortex from MRI-based studies (Goulas et al, 2012 ; Cieslik et al, 2013 ; Sallet et al, 2013 ; Glasser et al, 2016 ; Donahue et al, 2018 ) were published. However, segmentation of human DLPFC is challenging due to the interindividual variation in sulcus patterns (Vogt and Vogt, 1926 ; Ono et al, 1990 ; Huttner, 2004 ; Miller et al, 2021 ; Bruno et al, 2022 ; Willbrand et al, 2023 ). At the microscopic level, there is a lack of information in three-dimensional (3D) space, which does not allow a direct superimposition of previous maps with datasets from functional imaging studies (Zilles and Amunts, 2010 ).…”

Section: Introductionmentioning

confidence: 99%

“…Starting from this work, the present study aimed to analyze remaining parts of the DLPFC to understand the DLPFC better and provide a microstructural reference for functional studies. These mainly include regions on the sfg and mfg as well as the adjoining sulci bordering already delineated areas such as frontal pole area Fp1 (Bludau et al, 2014 ), the premotor area 6d3 (Sigl, 2018 ), subdivision of area 8 (8d1, 8d2, 8v1, and 8v2) (Amunts et al, 2021 ), anterior DLPFC areas (SFS1, SFS2, MFG1, and MFG2) (Bruno et al, 2022 ), areas of the Broca region (44 and 45) of the ventral lateral prefrontal cortex (VLPFC) (Amunts et al, 1999 ), and areas ifs1 and ifs3 in the inferior frontal sulcus ( ifs ) (Ruland et al, 2022 ). To address the interindividual variability of the DLPFC, probabilistic maps will be generated for each identified area in two common stereotaxic spaces (Amunts et al, 2020 ) to provide a reference system for future complementary functional and multimodal approaches.…”

Section: Introductionmentioning

confidence: 99%

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New organizational principles and 3D cytoarchitectonic maps of the dorsolateral prefrontal cortex in the human brain

Bruno,

Lothmann,

Bludau

et al. 2024

Front. Neuroimaging

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Areas of the dorsolateral prefrontal cortex (DLPFC) are part of the frontoparietal control, default mode, salience, and ventral attention networks. The DLPFC is involved in executive functions, like working memory, value encoding, attention, decision-making, and behavioral control. This functional heterogeneity is not reflected in existing neuroanatomical maps. For example, previous cytoarchitectonic studies have divided the DLPFC into two or four areas. Macroanatomical parcellations of this region rely on gyri and sulci, which are not congruent with cytoarchitectonic parcellations. Therefore, this study aimed to provide a microstructural analysis of the human DLPFC and 3D maps of cytoarchitectonic areas to help address the observed functional variability in studies of the DLPFC. We analyzed ten human post-mortem brains in serial cell-body stained brain sections and mapped areal boundaries using a statistical image analysis approach. Five new areas (i.e., SFG2, SFG3, SFG4, MFG4, and MFG5) were identified on the superior and middle frontal gyrus, i.e., regions corresponding to parts of Brodmann areas 9 and 46. Gray level index profiles were used to determine interregional cytoarchitectural differences. The five new areas were reconstructed in 3D, and probability maps were generated in commonly used reference spaces, considering the variability of areas in stereotaxic space. Hierarchical cluster analysis revealed a high degree of similarity within the identified DLPFC areas while neighboring areas (frontal pole, Broca's region, area 8, and motoric areas) were separable. Comparisons with functional imaging studies revealed specific functional profiles of the DLPFC areas. Our results indicate that the new areas do not follow a simple organizational gradient assumption in the DLPFC. Instead, they are more similar to those of the ventrolateral prefrontal cortex (Broca's areas 44, 45) and frontopolar areas (Fp1, Fp2) than to the more posterior areas. Within the DLPFC, the cytoarchitectonic similarities between areas do not seem to follow a simple anterior-to-posterior gradient either, but cluster along other principles. The new maps are part of the publicly available Julich Brain Atlas and provide a microstructural reference for existing and future imaging studies. Thus, our study represents a further step toward deciphering the structural-functional organization of the human prefrontal cortex.

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Section: Resultsmentioning

confidence: 57%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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New organizational principles and 3D cytoarchitectonic maps of the dorsolateral prefrontal cortex in the human brain

Bruno,

Lothmann,

Bludau

et al. 2024

Front. Neuroimaging

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“…Given our prior work revealing better reasoning performance overall among participants with a left, but not right, pimfs-v (Willbrand, Jackson, et al, 2023;, future work should assess whether the incidence of this sulcal component relates to activation of RLPFC-and whether this mediates the behavioral difference seen between individuals who do or do not possess a left pimfs-v component. Further, once improved cytoarchitectural definitions fully characterize the aMFG (Amunts et al, 2020;Bludau et al, 2014;Bruno et al, 2022;Wojtasik et al, 2020), future investigations could relate the presence/absence of the pimfs components to shifts in cytoarchitectonic regions (Figure 5D), given previous findings for sulcal variations in medial PFC (Amiez et al, 2021).…”

Section: A6mentioning

confidence: 86%

Neuroanatomical and functional dissociations between variably present anterior lateral prefrontal sulci

Willbrand

Bunge

Weiner

2023

Preprint

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The lateral prefrontal cortex (LPFC) is an evolutionarily expanded region in humans that is critical for numerous complex functions, many of which are largely hominoid-specific. While recent work shows that the presence or absence of specific sulci in anterior LPFC is associated with cognitive performance across age groups, it is unknown whether the presence of these structures relates to individual differences in the functional organization of LPFC. To fill this gap in knowledge, we leveraged multimodal neuroimaging data from 72 young adult humans aged 22-36 and show that dorsal and ventral components of the paraintermediate frontal sulcus (pimfs) present distinct morphological (surface area), architectural (thickness and myelination), and functional (resting-state connectivity networks) properties. We further contextualize the pimfs components within classic and modern cortical parcellations. Taken together, the dorsal and ventral pimfs components mark transitions in anatomy and function in LPFC, across metrics and parcellations. These results emphasize that the pimfs is a critical structure to consider when examining individual differences in the anatomical and functional organization of LPFC and highlight the importance of considering individual anatomy when investigating structural and functional features of the cortex.

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Assessment of the Depiction of Superficial White Matter Using Ultra‐High‐Resolution Diffusion MRI

Zhang,

Chen,

Ning

et al. 2024

Human Brain Mapping

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The superficial white matter (SWM) consists of numerous short‐range association fibers connecting adjacent and nearby gyri and plays an important role in brain function, development, aging, and various neurological disorders. Diffusion MRI (dMRI) tractography is an advanced imaging technique that enables in vivo mapping of the SWM. However, detailed imaging of the small, highly‐curved fibers of the SWM is a challenge for current clinical and research dMRI acquisitions. This work investigates the efficacy of mapping the SWM using in vivo ultra‐high‐resolution dMRI data. We compare the SWM mapping performance from two dMRI acquisitions: a high‐resolution 0.76‐mm isotropic acquisition using the generalized slice‐dithered enhanced resolution (gSlider) protocol and a lower resolution 1.25‐mm isotropic acquisition obtained from the Human Connectome Project Young Adult (HCP‐YA) database. Our results demonstrate significant differences in the cortico‐cortical anatomical connectivity that is depicted by these two acquisitions. We perform a detailed assessment of the anatomical plausibility of these results with respect to the nonhuman primate (macaque) tract‐tracing literature. We find that the high‐resolution gSlider dataset is more successful at depicting a large number of true positive anatomical connections in the SWM. An additional cortical coverage analysis demonstrates significantly higher cortical coverage in the gSlider dataset for SWM streamlines under 40 mm in length. Overall, we conclude that the spatial resolution of the dMRI data is one important factor that can significantly affect the mapping of SWM. Considering the relatively long acquisition time, the application of dMRI tractography for SWM mapping in future work should consider the balance of data acquisition efforts and the efficacy of SWM depiction.

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Cytoarchitecture, intersubject variability, and 3D mapping of four new areas of the human anterior prefrontal cortex

Cited by 8 publications

References 106 publications

New organizational principles and 3D cytoarchitectonic maps of the dorsolateral prefrontal cortex in the human brain

New organizational principles and 3D cytoarchitectonic maps of the dorsolateral prefrontal cortex in the human brain

Neuroanatomical and functional dissociations between variably present anterior lateral prefrontal sulci

Assessment of the Depiction of Superficial White Matter Using Ultra‐High‐Resolution Diffusion MRI

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