CAMILA NASCIMENTO MANTELLI
Projetos de Pesquisa
Unidades Organizacionais
LIM/21 - Laboratório de Neuroimagem em Psiquiatria, Hospital das Clínicas, Faculdade de Medicina
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- Three-dimensional and stereological characterization of the human substantia nigra during aging(2016) ALHO, Ana Tereza Di Lorenzo; SUEMOTO, Claudia Kimie; POLICHISO, Livia; TAMPELLINI, Edilaine; OLIVEIRA, Katia Cristina de; MOLINA, Mariana; SANTOS, Glaucia Aparecida Bento; NASCIMENTO, Camila; LEITE, Renata Elaine Paraizo; FERRETI-REBUSTINI, Renata Eloah de Lucena; SILVA, Alexandre Valotta da; NITRINI, Ricardo; PASQUALUCCI, Carlos Augusto; JACOB-FILHO, Wilson; HEINSEN, Helmut; GRINBERG, Lea TenenholzThe human brain undergoes non-uniform changes during aging. The substantia nigra (SN), the source of major dopaminergic pathways in the brain, is particularly vulnerable to changes in the progression of several age-related neurodegenerative diseases. To establish normative data for high-resolution imaging, and to further clinical and anatomical studies we analyzed SNs from 15 subjects aged 50-91 cognitively normal human subjects without signs of parkinsonism. Complete brains or brainstems with substantia nigra were formalin-fixed, celloidin-mounted, serially cut and Nissl-stained. The shapes of all SNs investigated were reconstructed using fast, high-resolution computer-assisted 3D reconstruction software. We found a negative correlation between age and SN volume (p = 0.04, rho = -0.53), with great variability in neuronal numbers and density across participants. The 3D reconstructions revealed SN inter- and intra-individual variability. Furthermore, we observed that human SN is a neuronal reticulum, rather than a group of isolated neuronal islands. Caution is required when using SN volume as a surrogate for SN status in individual subjects. The use of multimodal sequences including those for fiber tracts may enhance the value of imaging as a diagnostic tool to assess SN in vivo. Further studies with a larger sample size are needed for understanding the structure-function interaction of human SN.