A Turbo Engine for Tracing Neurons

Summary: New software can be applied to existing neuron tracing algorithms to handle enormous data sets.

Source: Allen Institute.

Putting a turbo engine into an old car gives it an entirely new life–suddenly it can go further, faster. That same idea is now being applied to neuroscience, with a software wrapper that can be used on existing neuron tracing algorithms to boost their ability to handle not just big, but enormous sets of data. The wrapper, called UltraTracer, is highlighted this month in Nature Methods.

“In trying to uncover the diversity of neuron shapes, scale is a very large and increasingly pressing problem,” says Hanchuan Peng, Ph.D., Associate Investigator at the Allen Institute for Brain Science. “We need to be able to compare tens of thousands of neuron shapes in order to really understand what they look like, and to use that information to parse individual cell ‘types.'”

Peng and his team designed UltraTracer to work with existing neuron tracing algorithms designed by scientists around the world, turbo-charging them to work faster and with larger datasets. In the paper, they describe applying UltraTracer to ten different base tracers and also to any other base tracers in the BigNeuron initiative (bigneuron.org), developed by different people and that used varying techniques to automatically detect the shapes of neurons in three-dimensional image stacks.

The team was able to demonstrate UltraTracer’s unique ability to supercharge existing software. Using the Allen Cell Types Database as a biological reference, the software first learned what neurons “should” look like. UltraTracer then made existing algorithms more efficient to handle bigger data sets, and combined several different algorithms in an organic way that made the most of each tracer’s strengths.

Image shows a mouse neuron traced by ultratracer.
A mouse neuron was reconstructed by UltraTracer.
NeuroscienceNews.com image is credited to Allen Institute.

“With UltraTracer, we are giving new life to neuron tracing algorithms that already exist and making them even more powerful,” says Peng. “We can now test how well these algorithms work at very large scales, and make them work better. This will be a crucial step in addressing fundamental questions about cell types in the brain.”

About this neuroscience research article

Source: Rob Piercy – Allen Institute
Image Source: NeuroscienceNews.com image is credited to Allen Institute.
Original Research: Abstract for “Automatic tracing of ultra-volumes of neuronal images” by Hanchuan Peng, Zhi Zhou, Erik Meijering, Ting Zhao, Giorgio A Ascoli & Michael Hawrylycz in Nature Methods. Published online March 31 2017 doi:10.1038/nmeth.4233

Cite This NeuroscienceNews.com Article

[cbtabs][cbtab title=”MLA”]Allen Institute “A Turbo Engine for Tracing Neurons.” NeuroscienceNews. NeuroscienceNews, 27 April 2017.
<https://neurosciencenews.com/ultra-tracer-neurons-6523/>.[/cbtab][cbtab title=”APA”]Allen Institute (2017, April 27). A Turbo Engine for Tracing Neuronse. NeuroscienceNew. Retrieved April 27, 2017 from https://neurosciencenews.com/ultra-tracer-neurons-6523/[/cbtab][cbtab title=”Chicago”]Allen Institute “A Turbo Engine for Tracing Neurons.” https://neurosciencenews.com/ultra-tracer-neurons-6523/ (accessed April 27, 2017).[/cbtab][/cbtabs]


Abstract

Automatic tracing of ultra-volumes of neuronal images

Despite substantial advancement in the automatic tracing of neuronal morphology in recent years, it is challenging to apply the existing algorithms to large image data sets containing billions or even trillions of voxels. Most neuron-tracing methods published to date were not designed to handle such data.

“Automatic tracing of ultra-volumes of neuronal images” by Hanchuan Peng, Zhi Zhou, Erik Meijering, Ting Zhao, Giorgio A Ascoli & Michael Hawrylycz in Nature Methods. Published online March 31 2017 doi:10.1038/nmeth.4233

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