Changes for page 2. Example of use

Last modified by puchades on 2020/10/06 13:18
From version 36.1
edited by puchades
on 2020/10/01 10:04
Change comment: There is no comment for this version
To version 30.1
edited by puchades
on 2020/10/01 09:44
Change comment: Uploaded new attachment "QNII_neuron_recons.png", version {1}

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1 1  == (% style="color:#c0392b" %)How can I identify brain regions in my images?(%%) ==
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3 3  (% class="wikigeneratedid" %)
4 -By using QuickNII, you will be able to register this image series to the mouse reference atlas version of your choice and obtain adapted atlas maps and coordinates. Further, in-plane non-linear adjustments can be made with VisuAlign in order to obtain a more precise registration. The regions shown in the example below are color coded and correspond to Mouse CCFv3_2017 atlas^^1^^ .
4 +By using QuickNII, you will be able to register this image series to the mouse reference atlas version of your choice and obtain adapted atlas maps and coordinates. Further, in-plane non-linear adjustments can be made with VisuAlign in order to obtain a more precise registration. The regions shown in the example below are color coded and correspond to Mouse CCFv3_2017 atlas ( Oh et al. 2014).
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6 6  (% class="wikigeneratedid" id="H" %)
7 7  (% style="color:#c0392b" %)[[image:Doublet_illust_NOP_tta.png]]
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9 -Histological data available on EBRAINS: [[DOI 10.25493/AYBB-BXV>>https://kg.ebrains.eu/search/?facet_type[0]=Dataset&q=neuropsin#Dataset/d56b1fe14bb84987a3a2340e21652b2d]]
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11 11  == (% style="color:#c0392b" %)How can I map the position of my reconstructed neuron?(%%) ==
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13 -After in-vivo electrophysiology experiments, the recorded neurons are filled with neurobiotin making them visible on histological images. These images are registered to the Mouse atlas CCFv3_2017^^1^^. The extracted coordinates of the neuron soma and the coordinates of the neuronal arbor, could then be mapped in the 3D reference space.
12 +After in-vivo electrophysiology experiments, the recorded neurons are filled with neurobiotin making them visible on histological images. These images are registered to the Mouse atlas CCFv3_2017 ( Oh et al. 2014). The extracted coordinates of the neuron soma and the coordinates of the neuronal arbor, could then be mapped in the 3D reference space.
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18 -[[image:QNII_neuron_recons.png||height="600" width="565"]]
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21 -Image from Bjerke et al. 2018. //Front. Neuroinform.// 12:82. [[doi:10.3389/fnana.2018.00082 >>https://www.frontiersin.org/articles/10.3389/fnana.2018.00082/full]]
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24 -Electrophysiological data available on EBRAINS: DOI: [[10.25493/ADRK-VJP>>https://kg.ebrains.eu/search/?facet_type[0]=Dataset&q=grillner#Dataset/749eab9b-3159-4eb8-a36b-85757208e3c1]]
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26 26  == (% style="color:#c0392b" %)How can I count my labelled cells?(%%) ==
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36 36  == (% style="color:#c0392b" %)How can I map the position of my electrode?(%%) ==
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41 -~1. (Oh et al. 2014)
QNII_neuron_recons.png
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