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Updated: Jun 23, 2025

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Deep learning-based localization algorithms on fluorescence human brain 3D reconstruction: a comparative study using

Curzio Checcucci1, Bridget Wicinski2, Giacomo Mazzamuto3,4,5

  • 1Department of Information Engineering, University of Florence, 50100, Firenze, FI, Italy. curzio.checcucci@unifi.it.

Scientific Reports
|June 25, 2024
PubMed
Summary
This summary is machine-generated.

Deep learning methods accurately quantify neurons in high-resolution human brain data. These tools offer efficient cell counting and localization, aiding neuroscience research.

Keywords:
3D reconstructionBroca’s areaCell detectionDeep-learningFluorescence microscopyHuman brainStereology

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Area of Science:

  • Neuroscience
  • Computational Biology
  • Medical Imaging

Background:

  • Advancements in tissue clearing and fluorescence microscopy enable high-resolution 3D human brain reconstruction.
  • Analyzing large-scale brain data necessitates automated, accurate cell counting and localization methods.
  • Deep learning (DL) offers powerful cell segmentation tools, but human brain data presents unique quantification challenges.

Purpose of the Study:

  • To empirically evaluate three DL techniques (StarDist, CellPose, BCFind-v2) for human neuron quantification.
  • To compare DL methods against a 3D stereological design for large-scale brain analysis.
  • To guide researchers in selecting optimal DL tools based on specific research needs.

Main Methods:

  • Evaluation of StarDist, CellPose, and BCFind-v2 on 3D human brain data.
  • Utilized a 3D stereological design as a reference standard for accuracy.
  • Compared methods based on density/localization accuracy, computational efficiency, and annotation effort.

Main Results:

  • DL approaches demonstrated high effectiveness in neuron quantification.
  • Methods provided high-throughput 3D cell localization.
  • Results showed accuracy comparable to established stereological methods.

Conclusions:

  • Deep learning techniques are highly effective for analyzing large-scale 3D human brain datasets.
  • These automated methods significantly improve efficiency and accuracy in neuron counting and localization.
  • The study provides valuable insights for selecting appropriate DL tools for diverse neuroscience research objectives.