Top

Published in:

01-07-2019 | Original Article

A network approach to brain form, cortical topology and human evolution

Authors: Emiliano Bruner, Borja Esteve-Altava, Diego Rasskin-Gutman

Published in: Brain Structure and Function | Issue 6/2019

Abstract

Network analysis provides a quantitative tool to investigate the topological properties of a system. In anatomy, it can be employed to investigate the spatial organization of body parts according to their contiguity and patterns of physical contact. In this study, we build a model representing the spatial adjacency of the major regions of the human brain often considered in evolutionary neuroanatomy, to analyse its topological features. Results suggest that the frontal lobe is topologically independent of the posterior regions of the brain, which in turn are more integrated and influenced by reciprocal constraints. The precentral gyrus represents a hinge between the anterior and posterior blocks. The lateral temporal cortex is particularly influenced by the neighbouring regions, while the parietal cortex is minimally constrained by the overall brain organization. Beyond the reciprocal spatial influences among cortical areas, brain form is further constrained by spatial and mechanical influence of the braincase, including bone and connective elements. The anterior fossa and the parietal bones are the elements more sensitive to the brain–braincase spatial organization. These topological properties must be properly considered when making inferences on evolutionary variations and macroscopic differences of the human brain morphology.

Available only for authorised users

Allen JS, Damasio H, Grabowski TJ (2002) Normal neuroanatomical variation in the human brain: an MRI-volumetric study. Am J Phys Anthropol 118:341–358CrossRefPubMed

Ardesch DJ, Scholtens LH, Li L, Preuss TM, Rilling JK, van den Heuvel MP (2019) Evolutionary expansion of connectivity between multimodal association areas in the human brain compared with chimpanzees. Proc Natl Acad Sci USA 116:7101–7106CrossRefPubMed

Bastian M, Heymann S, Jacomy M (2009) Gephi: an open source software for exploring and manipulating networks. International AAAI Conference on Weblogs and Social Media

Bastir M, Rosas A (2005) Hierarchical nature of morphological integration and modularity in the human posterior face. Am J Phys Anthropol 128:26–34CrossRefPubMed

Bastir M, Rosas A, Kuroe K (2004) Petrosal orientation and mandibular ramus breadth: evidence for an integrated petroso-mandibular developmental unit. Am J Phys Anthropol 123:340–350CrossRefPubMed

Bastir M, Rosas A, O’Higgins P (2006) Craniofacial levels and the morphological maturation of the human skull: spatiotemporal pattern of cranial ontogeny. J Anat 209:637–654CrossRefPubMedPubMedCentral

Bastir M, Rosas A, Lieberman DE, O’Higgins P (2008) Middle cranial fossa and the origin of modern humans. Anat Rec 291:130–140CrossRef

Bastir M, Rosas A, Gunz P, Peña-Melian A, Manzi G, Harvati K, Kruszynski R, Stringer C, Hublin JJ (2011) Evolution of the base of the brain in highly encephalized human species. Nat Commun 2:588CrossRefPubMed

Bayly PV, Taber LA, Kroenke CD (2014) Mechanical forces in cerebral cortical folding: a review of measurements and models. J Mech Behav Biomed Mater 29:568–581CrossRefPubMed

Bonacich P (1987) Power and centrality: a family of measures. Am J Sociol 92:1170–1182CrossRef

Bonacich P, Lloyd P (2001) Eigenvector-like measures of centrality for asymmetric relations. Soc Netw 23:191–201CrossRef

Bruner E (2004) Geometric morphometrics and paleoneurology: brain shape evolution in the genus Homo. J Hum Evol 47:279–303CrossRefPubMed

Bruner E (2014) Functional craniology, human evolution, and anatomical constraints in the Neanderthal braincase. In: Akazawa T, Ogihara N, Tanabe HC, Terashima H (eds) Dynamics of learning in Neanderthals and modern humans, vol 2. Springer, Tokyo, pp 121–129CrossRef

Bruner E (2015) Functional craniology and brain evolution. In: Bruner E (ed) Human Paleoneurology. Springer, Cham, pp 57–94

Bruner E (2017a) The fossil evidence of human brain evolution. In: Kaas J (ed) Evolution of nervous systems 2e, vol 4. Elsevier, Oxford, pp 63–92CrossRef

Bruner E (2017b) Language, paleoneurology, and the fronto-parietal system. Front Hum Neurosci 11:349CrossRefPubMedPubMedCentral

Bruner E (2018a) Human paleoneurology and the evolution of the parietal cortex. Brain Behav Evol 91:136–147CrossRefPubMed

Bruner E (2018b) The brain, the braincase, and the morphospace. In: Bruner E, Ogihara N, Tanabe HC (eds) Digital endocasts. From skulls to brains. Springer, Tokyo, pp 93–114CrossRef

Bruner E (2019) Human paleoneurology: shaping cortical evolution in fossil hominids. J Comp Neurol. https://doi.org/10.1002/cne.24591 CrossRefPubMed

Bruner E, Holloway R (2010) Bivariate approach to the widening of the frontal lobes in the genus Homo. J Hum Evol 58:138–146CrossRefPubMed

Bruner E, De la Cuétara JM, Masters M, Amano H, Ogihara N (2014) Functional craniology and brain evolution: from paleontology to biomedicine. Front Neuroanat 8:19CrossRefPubMedPubMedCentral

Bruner E, Amano H, de la Cuétara JM, Ogihara N (2015) The brain and the braincase: a spatial analysis on the midsagittal profile in adult humans. J Anat 227:268–276CrossRefPubMedPubMedCentral

Bruner E, Pereira-Pedro AS, Chen X, Rilling JK (2017a) Precuneus proportions and cortical folding: a morphometric evaluation on a racially diverse human sample. Ann Anat 211:120–128CrossRefPubMed

Bruner E, Pereira-Pedro AS, Bastir M (2017b) Patterns of morphological integration between parietal and temporal areas in the human skull. J Morphol 278:1312–1320CrossRefPubMed

Bruner E, Esteve-Altava B, Rasskin-Gutman D (2018) Networking brains: modeling spatial relationships of the cerebral cortex. In: Bruner E, Ogihara N, Tanabe HC (eds) Digital endocasts. From skulls to brains. Springer, Tokyo, pp 191–204CrossRef

Buckner RL, Andrews-Hanna JR, Schacter DL (2008) The brain’s default network. Anatomy, function, and relevance to disease. Ann N Y Acad Sci 1124:1–38CrossRefPubMed

Bullmore E, Sporns O (2009) Complex brain networks: graph theoretical analysis of structural and functional systems. Nat Rev Neurosci 10:186–198CrossRefPubMed

Bullmore E, Sporns O (2012) The economy of brain network organization. Nat Rev Neurosci 13:336–349CrossRefPubMed

Butts CT (2009) Revisiting the foundations of network analysis. Science 325:414–416CrossRefPubMed

Caminiti R, Innocenti GM, Battaglia-Mayer A (2015) Organization and evolution of parieto-frontal processing streams in macaque monkeys and humans. Neurosci Biobehav Rev 56:73–96CrossRefPubMed

Cavanna AE, Trimble MR (2006) The precuneus: a review of its functional anatomy and behavioural correlates. Brain 129:564–583CrossRef

Chen CH, Gutierrez ED, Thompson W, Panizzon MS, Jernigan TL, Eyler LT, Fennema-Notestine C, Jak AJ, Neale MC, Franz CE, Lyons MJ, Grant MD, Fischl B, Seidman LJ, Tsuang MT, Kremen WS, Dale AM (2012) Hierarchical genetic organization of human cortical surface area. Science 335:1634–1636CrossRefPubMedPubMedCentral

Croxson PL, Forkel SJ, Cerliani L, Thiebaut de Schotten M (2018) Structural variability across the primate brain: a cross-species comparison. Cereb Cortex 28:3829–3841CrossRefPubMed

Csardi G, Nepusz T (2006) The igraph software package for complex network research. Int J Complex Syst 1695:1–9

Damasio H (2005) Human brain anatomy in computerized images. Oxford University Press, OxfordCrossRef

Dos Santos DA, Fratani J, Ponssa ML, Abdala V (2017) Network architecture associated with the highly specialized hindlimb of frogs. PLoS One 12:e0177819CrossRefPubMedPubMedCentral

Esteve-Altava B (2017a) Challenges in identifying and interpreting organizational modules in morphology. J Morphol 278:960–974CrossRefPubMed

Esteve-Altava B (2017b) In search of morphological modules: a systematic review. Biol Rev 92:1332–1347CrossRefPubMed

Esteve-Altava B, Rasskin-Gutman D (2014) Beyond the functional matrix hypothesis: a network null model of human skull growth for the formation of bone articulations. J Anat 225:306–316CrossRefPubMedPubMedCentral

Esteve-Altava B, Rasskin-Gutman D (2018) Anatomical network analysis in evo-devo. In: Nuño de la Rosa L, Müller GB (eds) Evolutionary developmental biology. Springer, Cham

Esteve-Altava B, Marugán-Lobón J, Botella H, Rasskin-Gutman D (2011) Network models in anatomical systems. J Anthropol Sci 89:175–184PubMed

Esteve-Altava B, Marugán-Lobón J, Botella H, Bastir M, Rasskin-Gutman D (2013) Grist for Riedl’s Mill: a network model perspective on the integration and modularity of the human skull. J Exp Zool 320:489–500CrossRef

Freeman L (1977) A set of measures of centrality based on betweenness. Sociometry 40:35–41CrossRef

Garcia KE, Kroenke CD, Bayly PV (2019) Mechanics of cortical folding: stress, growth and stability. Phil Trans R Soc B 373:20170321CrossRef

Ghosh R, Lerman K (2011) A parametrized centrality metric for network analysis. Phys Rev 83:066118

Ghosh R, Lerman K (2014) Rethinking centrality: the role of dynamical processes in social network analysis. Disc Cont Dyn Syst 19:1355–1372CrossRef

Giedd JN, Blumenthal J, Jeffries NO, Castellanos FX, Liu H, Zijdenbos A, Paus T, Evans AC, Rapoport JL (1999) Brain development during childhood and adolescence: a longitudinal MRI study. Nat Neurosci 2:861–863CrossRefPubMed

Gómez-Robles A, Hopkins WD, Schapiro SJ, Sherwood CC (2015) Relaxed genetic control of cortical organization in human brains compared with chimpanzees. Proc Natl Acad Sci USA 112:14799–14804CrossRefPubMed

Goriely A, Geers MGD, Holzapfel GA, Jayamohan J, Jérusalem A, Sivaloganathan S, Squier W, Van Dommelen JAW, Waters S, Kuhl E (2015) Mechanics of the brains: perspectives, challenges, and opportunities. Biomech Model Mechanobiol 14:931–965CrossRefPubMedPubMedCentral

Gunz P, Harvati K (2007) The Neanderthal “chignon”: variation, integration, and homology. J Hum Evol 52:262–274CrossRefPubMed

Gunz P, Tilot AK, Wittfeld K, Teumer A, Shapland CY, van Erp TGM, Dannemann M, Vernot B, Neubauer S, Guadalupe T, Fernández G, Brunner HG, Enard W, Fallon J, Hosten N, Völker U, Profico A, Di Vincenzo F, Manzi G, Kelso J, St Pourcain B, Hublin JJ, Franke B, Pääbo S, Macciardi F, Grabe HJ, Fisher SE (2019) Neandertal introgression sheds light on modern human endocranial globularity. Curr Biol 29:120–127CrossRefPubMed

Hagmann P, Cammoun L, Gigandet X, Meuli R, Honey CJ, Wedeen VJ, Sporns O (2008) Mapping the structural core of human cerebral cortex. PLoS Biol 6:e159CrossRefPubMedPubMedCentral

Hansen TF, Solvin TM, Pavlicev M (2019) Predicting evolutionary potential: a numerical test of evolvability measures. Evolution 73:689–703CrossRefPubMed

Hilgetag CC, Barbas H (2005) Developmental mechanics of the primate cerebral cortex. Anat Embryol 210:411–417CrossRefPubMed

Hilgetag CC, Barbas H (2006) Role of mechanical factors in the morphology of the primate cerebral cortex. PLoS Comput Biol 2:e22CrossRefPubMedPubMedCentral

Hofman MA (2012) Design principles of the human brain: an evolutionary perspective. Progr Brain Res 195:373–390CrossRef

Holloway RL, Broadfield DC, Yuan MS (2004) Brain endocasts: the paleoneurological evidence. Wiley, HobokenCrossRef

Huntenburg JM, Bazin PL, Margulies DS (2017) Large-scale gradients in human cortical organization. Trends Cogn Sci 22:21–31CrossRefPubMed

Kerkman JN, Daffertshofer A, Gollo LL, Breakspear M, Boonstra TW (2018) Network structure of the human musculoskeletal system shapes neural interactions on multiple time scales. Sci Adv 4:eaat0497CrossRefPubMedPubMedCentral

Knight CG, Pinney JW (2009) Making the right connections: biological networks in the light of evolution. BioEssays 31:1080–1090CrossRefPubMedPubMedCentral

Lancichinetti A, Radicchi F, Ramasco JJ, Fortunato S (2011) Finding statistically significant communities in networks. PLoS One 6:e18961CrossRefPubMedPubMedCentral

Landherr A, Friedl B, Heidemann J (2010) A critical review of centrality measures in social networks. Bus Inf Syst Eng 6:371–385CrossRef

Langer N, Pedroni A, Gianotti LRR, Hänggi J, Knoch D, Jäncke L (2012) Functional brain network efficiency predicts intelligence. Hum Brain Mapp 33:1393–1406CrossRefPubMed

Lieberman DE, Ross CF, Ravosa MJ (2000) The primate cranial base: ontogeny, function, and integration. Yrb Phys Anthropol 43:117–169CrossRef

McCarthy RC (2001) Anthropoid cranial base architecture and scaling relationships. J Hum Evol 40:41–66CrossRefPubMed

Meunier D, Lambiotte R, Formito A, Ersche KD, Bullmore ET (2009) Hierarchical modularità in human brain functional networks. Front Neuroinformatics 3:37CrossRefPubMedCentral

Meunier D, Lambiotte R, Bullmore ET (2010) Modular and hierarchically modular organization of brain networks. Front Neurosci 4:200CrossRefPubMedPubMedCentral

Moss ML, Young RW (1960) A functional approach to craniology. Am J Phys Anthropol 18:281–292CrossRefPubMed

Murphy AC, Muldoon SF, Baker D, Lastowka A, Bennett B, Yang M, Bassett DS (2018) Structure, function, and control of the human musculoskeletal network. PLoS Biol 16:e2002811CrossRefPubMedPubMedCentral

Newman MEJ (2005) A measure of betweenness centrality based on random walks. Soc Netw 27:39–54CrossRef

Newman MEL (2018) Networks. Oxford University Press, OxfordCrossRef

Newman MEJ, Girvan M (2004) Finding and evaluating community structure in networks. Phys Rev 69:026113

Pearce E, Stringer C, Dunbar RIM (2013) New insights into differences in brain organization between Neanderthals and anatomically modern humans. Proc R Soc B 280:20130168CrossRefPubMed

Pearson A, Bruner E (2018) A preliminary survey on temporal lobes and cranial morphometrics in extant haplorrhines. Folia Primatol 89:207

Pereira-Pedro AS, Masters M, Bruner E (2017) Shape analysis of spatial relationships between orbito-ocular and endocranial structures in modern humans and fossil hominids. J Anat 231:947–960CrossRefPubMed

Proulx SR, Promislow DEL, Phillips PC (2005) Network thinking in ecology and evolution. Trends Ecol Evol 20:345–353CrossRefPubMed

R Core Team (2013) R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. http://www.R-project.org/

Radinsky L (1974) The fossil evidence of anthropoid brain evolution. Am J Phys Anthropol 41:15–27CrossRef

Rasskin-Gutman D, Esteve-Altava B (2014) Connecting the dots: anatomical network analysis in morphological EvoDevo. Biol Theor 9:178–193CrossRef

Rasskin-Gutman D, Esteve-Altava B (2018) Concept of burden in evo-devo. In: Nuño de la Rosa L, Müller GB (eds) Evolutionary developmental biology. Springer, Cham

Ribas GC, Yasuda A, Ribas EC, Nishikuni K, Rodrigues AJ Jr (2006) Surgical anatomy of microneurosurgical sulcal key points. Neurosurgery 59:177–210

Richtsmeier JT, Flaherty K (2013) Hand in glove: brain and skull in development and dysmorphogenesis. Acta Neuropathol 125:469–489CrossRefPubMedPubMedCentral

Richtsmeier JT, Aldridge K, de Leon VB, Panchal J, Kane AA, Marsh JL, Yan P, Cole TM (2006) Phenotypic integration of neurocranium and brain. J Exp Zool 306B:360–378CrossRef

Rohen JW, Yokochi C, Lutjen-Drecoll E (2006) Color atlas of anatomy: a photographic study of the human body. Lippincott Williams & Wilkins, Philadelphia

Rosas A, Peña-Melián A, Garcia-Tabernero A, Bastir M, De La Rasilla M (2014) Temporal lobe sulcal pattern and the bony impressions in the middle cranial fossa: the case of the El Sidrón (Spain) Neandertal sample. Anat Rec 297:2331–2341CrossRef

Semendeferi K, Damasio H (2000) The brain and its main anatomical subdivisions in living hominoids using magnetic resonance imaging. J Hum Evol 38:317–332CrossRefPubMed

Sherwood CC, Gómez-Robles A (2017) Brain plasticity and human evolution. Ann Rev Anthropol 46:399–419CrossRef

Simon HA (1962) The architecture of complexity. Proc Am Philos Soc 106:467–482

Smaers JB, Gómez-Robles A, Parks AN, Sherwood CC (2017) Exceptional evolutionary expansion of prefrontal cortex in great apes and humans. Curr Biol 27:714–720CrossRefPubMed

Sotero RC, Iturria-Medina Y (2011) From blood oxygenation level dependent (BOLD) signals to brain temperature maps. Bull Math Biol 73:2731–2747CrossRefPubMed

Sporns O, Chialvo DR, Kaiser M, Hilgetag CC (2004) Organization, development and functions of complex brain networks. Trend Cogn Sci 8:418–425CrossRef

Tallinen T, Chung JY, Rousseau F, Girard N, Lefèvre J, Mahadevan L (2016) On the growth and form of cortical convolutions. Nat Phys 12:588–593CrossRef

Toro R (2012) On the possible shapes of the brain. Evol Biol 39:600–612CrossRef

Toro R, Burnod Y (2005) A morphogenetic model for the development of cortical convolutions. Cereb Cortex 15:1900–1913CrossRefPubMed

Van den Heuvel MP, Mandl RCW, Stam CJ, Kahn RS, Hulshoff Pol HE (2010) Aberrant frontal and temporal complex network structure in schizophrenia: a graph theoretical analysis. J Neurosci 30:15915–15926CrossRefPubMedPubMedCentral

Van Essen DC (1997) A tension-based theory of morphogenesis and compact wiring in the central nervous system. Nature 385:313–318CrossRef

Van Essen DC, Dierker DL (2007) Surface-based and probabilistic atlases of primate cerebral cortex. Neuron 56:209–225CrossRefPubMed

Van Essen DC, Donahue CJ, Glasser MF (2018) Development and evolution of cerebral and cerebellar cortex. Brain Behav Evol 91:158–169CrossRefPubMedPubMedCentral

Wagner GP, Altenberg L (1996) Complex adaptations and the evolution of evolvability. Evolution 50:967–976CrossRefPubMed

Watts DJ, Strogatz SH (1998) Collective dynamics of ‘small-world’ networks. Nature 393:440–442CrossRef

White TD, Folkens PA (2000) Human osteology. Academic Press, London

Zilles K, Armstrong E, Schleicher A, Kretschmann HJ (1988) The human pattern of gyrification in the cerebral cortex. Anat Embryol 179:173–179CrossRefPubMed

Zilles K, Armstrong E, Moser KH, Schleicher A, Stephan H (1989) Gyrificationin the cerebral cortex of primates. Brain Behav Evol 34:143–150CrossRefPubMed

Title: A network approach to brain form, cortical topology and human evolution
Authors: Emiliano Bruner
Borja Esteve-Altava
Diego Rasskin-Gutman
Publication date: 01-07-2019
Publisher: Springer Berlin Heidelberg
Published in: Brain Structure and Function / Issue 6/2019
Print ISSN: 1863-2653
Electronic ISSN: 1863-2661
DOI: https://doi.org/10.1007/s00429-019-01900-1

Keynote webinar | Spotlight on medication adherence

Springer Medicine

A network approach to brain form, cortical topology and human evolution

Abstract

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 6/2019

On the existence of mechanoreceptors within the neurovascular unit of the mammalian brain

Merlin modulates process outgrowth and synaptogenesis in the cerebellum

Substance P appears to affect growth via growth hormone-releasing hormone (GHRH) neurons in the human hypothalamus

Phonological picture–word interference in language mapping with transcranial magnetic stimulation: an objective approach for functional parcellation of Broca’s region

Connexin-36 distribution and layer-specific topography in the cat retina

Role of the insula in top–down processing: an intracranial EEG study using a visual oddball detection paradigm