2018
DOI: 10.1101/357475
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Mapping Mouse Brain Slice Sequence to a Reference Brain Without 3D Reconstruction

Abstract: Histological brain slices are widely used in neuroscience to study anatomical organization of neural circuits. Since data from many brains are collected, mapping the slices to a reference atlas is often the first step in interpreting results. Most existing methods rely on an initial reconstruction of the volume before registering it to a reference atlas. Because these slices are prone to distortion during sectioning process and often sectioned with nonstandard angles, reconstruction is challenging and often in… Show more

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Cited by 4 publications
(7 citation statements)
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“…To systematically and quantitatively visualize the organization of these output-defined serotonin neurons, we developed an image registration algorithm that allowed us to register all DR-containing histological sections to the Allen Institute reference brain ( Figure 1A, right panels; STAR Methods; Xiong et al, 2018). We then created clusters using the combined data from four brains with the same injection sites ( Figure 1B, right insets).…”
Section: Ren Et Almentioning
confidence: 99%
See 2 more Smart Citations
“…To systematically and quantitatively visualize the organization of these output-defined serotonin neurons, we developed an image registration algorithm that allowed us to register all DR-containing histological sections to the Allen Institute reference brain ( Figure 1A, right panels; STAR Methods; Xiong et al, 2018). We then created clusters using the combined data from four brains with the same injection sites ( Figure 1B, right insets).…”
Section: Ren Et Almentioning
confidence: 99%
“…We further made improvement based on the data-specific properties of our experimental dataset including segmenting the aqueduct with a convolutional neural network and local warping them with thin plate spline (TPS). For a more detailed description of this procedure see Xiong et al (2018).…”
Section: D Registrationmentioning
confidence: 99%
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“…We recommend prioritizing that the transform is accurate nearby the region of interest. An alternative approach could incorporate non-rigid transformations as in Fürth et al, 2018, Song et al, 2018, and Xiong et al, 2018 One feature generally lacking in electrodelocalization toolkits is the use of brain regions' distinct electrophysiological signatures. A future Figure 4.…”
Section: Discussionmentioning
confidence: 99%
“…Fürth et al, 2018 addresses the latter two problems with automated nonlinear slice registration and visualization tools but expects unangled coronal slices and a manual estimation of the anterior-posterior location. Song et al, 2018 andXiong et al, 2018 demonstrate automated registration of angled slices but do not yet provide an interface for registration and manual fine-tuning. Methods that produce volumetric images of the brain, such as serial-section two-photon imaging and light-sheet imaging of cleared brains, can resolve all three problems (Mayerich et al, 2008, Ragan et al, 2012, Renier et al, 2014, Niedworok et al, 2016, Vandenberghe et al, 2016 but can be impractical due to the extensive setup and expensive equipment required.…”
Section: Introductionmentioning
confidence: 99%