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Mostrando ítems 1-10 de 1915
Shilajit: A natural phytocomplex with potential procognitive activity
(2012)
Shilajit is a natural substance found mainly in the Himalayas, formed for centuries by the gradual decomposition of certain plants by the action of microorganisms. It is a potent and very safe dietary supplement, restoring ...
Cellular and subcellular localization of Marlin-1 in the brain
(2009)
Background: Marlin-1 is a microtubule binding protein that associates specifically with the GABAB1 subunit in neurons and with members of the Janus kinase family in lymphoid cells. In addition, it binds the molecular motor ...
Neuroscience and education: prime time to build the bridge
(Nature Publishing Group, 2014-04)
As neuroscience gains social traction and entices media attention, the notion that education has much to benefit from brain research becomes increasingly popular. However, it has been argued that the fundamental bridge ...
Psychoanalysis and neurosciences: fuzzy outlines? Notes on the notion of cerebral plasticity
(Fundação Oswaldo Cruz, 2017-11)
“Psychoanalysis versus psychiatry” and “unconscious versus brain” are classic oppositions between different perspectives on the human being and mental suffering. This article draws on certain elements of this discussion ...
Autoradiographic study of development of the cerebral cortex in the rabbit
(1974)
The histogenetic development of the archi, paleo and neocortex of the rabbit was studied using autoradiographic techniques. The analysis is based upon a series of 54 embryos and newborn rabbits, whose mothers were injected ...
Challenging paradigms through ecological neuroscience: lessons from visual models
(Frontiers Media, 2021)
A Monist View of Quantum Theory and Neuroscience
(2019-06-15)
In this commentary to Henry Stapp’s target paper, I defend a view alternative to both von Neumann’s methodological Dualism, and Stapp’s choice of Idealist metaphysics. I argue for a Monist metaphysical thesis, claiming ...
Iron homeostasis in neuronal cells: A role for IREG1
(2005)
Background: Iron is necessary for neuronal function but in excess generates neurodegeneration. Although most of the components of the iron homeostasis machinery have been described in neurons, little is known about the ...