Reprints
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Azevedo et al. (2009) Journal of Comparative Neurology 513, 532-541
(1.2M)Equal numbers of neuronal and non-neuronal cells make the human brain an isometrically scaled-up primate brain -
Bandeira et al. (2009) PNAS 106, 14108-14113
(561K)Changing numbers of neuronal and non-neuronal cells underlie brain growth in the rat -
Herculano-Houzel (2007) Anat Record 290, 1280-1287
(403K)Encephalization, neuronal excess and neuronal index in rodents. -
Herculano-Houzel S (2009)
(65K)Brain development: the generation of large brains. In Squire L (org), The New Encyclopedia of Neuroscience, Elsevier, Oxford. -
Herculano-Houzel S, Lent R (2005) J Neurosci 25, 2518-2521
(182K)Isotropic fractionator: a simple, rapid method for the quantification of total cell and neuron numbers in the brain. -
Herculano-Houzel S, Mota B, Lent R (2007)
(609K)How to build a bigger brain: Cellular scaling rules in rodent brains. In Kaas J (org), Evolution of Nervous Systems: A Comprehensive Reference, vol. 4, Elsevier, Oxford. -
Herculano-Houzel et al. (2006) PNAS 103, 12138-12143
(838K)Cellular scaling rules for rodent brains. -
Herculano-Houzel et al. (2007) PNAS 104, 3562-3567
(903K)Cellular scaling rules for primate brains. -
Herculano-Houzel et al. (2008) PNAS 105, 12593-12598
(846K)The basic non-uniformity of the cerebral cortex. -
HerculanoHouzel et al. (2010) PNAS 107, 19008-19013
(700K)Connectivity-driven white matter scaling and folding in primate cerebral cortex