BEL contributed to paper in "Nature Neuroscience"

BEL high-density microelectrode array technology was used to investigate retina-dependent and independent visual motion computations in the mouse cortex, as published recently in Nature Neuroscience.

In vivo imaging of ganglion cell axon terminals in the lateral geniculate nucleus (LGN).b
In vivo imaging of ganglion cell axon terminals in the lateral geniculate nucleus (LGN).

Michele Fiscella contributed through high-density microelectrode array measurements to investigating retina-dependent and independent visual motion computations in the mouse cortex. The work was done in collaboration with the groups of Botond Roska at FMI and Balazs Rozsa at the Hungarian Academy of Sciences in Budapest. The corresponding research article entitled "Causal evidence for retina dependent and independent visual motion computations in mouse cortex" was published in Nature Neuroscience (2017, DOI:10.1038/nn.4566). The research was funded by the ERC and the Swiss NSF.

external pageNature Neuroscience is is a multidisciplinary journal that publishes papers in all areas of neuroscience, although priority is given to studies that provide fundamental insights into the functioning of the nervous system.

external pageNature Neuroscience article

external pageFMI press release

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