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008 991125s1985 mx 000 0 spa u
035 _aUPN01000202832
049 _aART
100 1 _aBianchi, Serena
100 1 _usbianchi@gwmail.gwu.edu
100 1 _aStimpson, Cheryl D
100 1 _aLarsen, Michael D
100 1 _aSherwood, Chet C
100 1 _usherwood@gwu.edu
222 0 _aLUDUS VITALIS : REVISTA DE FILOSOFIA DE LAS CIENCIAS DE LA VIDA
245 0 0 _aSinaptogénesis y desarrollo de la morfología dendrítica de neuronas piramidales en la neocorteza del chimpancé parecidos a los de los humanos
260 _aMéxico
300 _a177-197
362 0 _a2013 Volumen 21, número 40
520 _aNeocortical development In humans is characterized by an extended period of synaptic proliferation that peaks in mid-childhood, with subsequent pruning through early adulthood, as well as relatively delayed maturation of neuronal arborization In the prefrontal cortex compared with sensorimotor areas. In macaque monkeys, cortical synaptogenesis peaks during early infancy and developmental changes in synapse density and dendritic spines occur synchronously across cortical regions. Thus, relatively prolonged synapse and neuronal maturation in humans might contribute to enhance­ment of social learning during development and transmission of cultural practices, including language. However, because macaques, which share a last common ancestor with humans ~25 million years ago, have served as the predominant comparative primate model in neurodevelopmental research, the paucity of data from more closely related great apes leaves unresolved when these evolutionary changes in the timing of cortical development became established in the human lineage. To address this question, we used immunohistochemistry, electron microscopy, and Golgi staining to characterize synaptic density and dendritic morphology of pyramidal neurons in primary somato­sensory (area 3b), primary motor (area 4), prestriate visual (area 18), and prefrontal (area 10) cortices of developing chimpanzees (/Pan troglodytes/). We found that synaptogene- sis occurs synchronously across cortical areas, with a peak of synapse density during the juvenile period (3-5 y). Moreover, similar to findings in humans, dendrites of prefrontal pyramidal neurons developed later than sensorimotor areas. These results suggest that evolutionary changes to neocortical development promoting greater neuronal plasticity early in postnatal life preceded the divergence of the human and chimpanzee lineages
653 0 _aDESARROLLO HUMANO
653 0 _aONTOGENIA NEURONAL
653 0 _aEVOLUCION
856 4 _uhttp://www.centrolombardo.edu.mx/ludus-vitalis/la-maquinaria-mental-humana-num-40-2013/sinaptogenesis-y-desarrollo-de-la-morfologia-dendritica-de-neuronas-piramidales-en-la-neocorteza-del-chimpance-parecidos-los-de-los-humanos/
905 _aArticulo
999 _c174933
_d174933