10.25493/2RAV-WSZ
Richter, M.
Amunts, K.
Mohlberg, H.
Bludau, S.
Eickhoff, S. B.
Zilles, K.
Caspers, S.
Interpolated 3D map of Area hIP6 (IPS) in the BigBrain
Human Brain Project Neuroinformatics Platform
2019
Neuroscience
Amunts, Katrin
2019-06-05
Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International
This dataset contains cytoarchitectonic maps of Area hIP6 (IPS) in the Big Brain dataset [Amunts et al. 2013]. The mappings were created using the semi-automatic method presented in Schleicher et al. 1999, based on coronal histological sections on 1 micron resolution. Mappings are available on approximately every 15-60th section of this region. They were then aligned to the corresponding sections of the 3D reconstructed Big Brain space, using the transformations used in Amunts et al. 2013, kindly provided by Claude Lepage (McGill University).
From these delineations, a preliminary 3D map of Area hIP6 (IPS) has been created by simple interpolation of the coronal contours in the 3D anatomical space of the Big Brain. This map gives a first impression of the location of this area in the Big Brain, and can be viewed in the atlas viewer using the URL below.
A full mapping of this area in every histological section using a Deep Learning approach is in progress.
**Additional information:**
The reference delineations used for this map are part of the work for the corresponding probabilistic map of Area hIP6 (IPS) of the JuBrain Cytoarchitectonic Atlas, published in:
Richter et al. (2019) [Data set, v7.0] [DOI: 10.25493/SVEY-ZBS](https://doi.org/10.25493%2FSVEY-ZBS)
Richter et al. (2019) [Data set, v7.1] [DOI: 10.25493/AFQR-50Q](https://doi.org/10.25493%2FAFQR-50Q)
In addition, the dataset of the probabilistic cytoarchitectonic map of Area hIP6 (IPS) is part of the following research publication:
Richter, M., Amunts, K., Mohlberg, H., Bludau, S., Eickhoff, S. B., Zilles, K., Caspers, S. (2018). Cytoarchitectonic segregation of human posterior intraparietal and adjacent parieto-occipital sulcus and its relation to visuomotor and cognitive functions. Cerebral Cortex, 29(3), 1305-1327 [DOI: 10.1093/cercor/bhy245](https://doi.org/10.1093%2Fcercor%2Fbhy245%20)