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Summary

This study introduces the Atlas Assembly Tool, a web application for creating custom 3D anatomical atlases. This open-source tool enhances medical education accessibility globally, supporting quality education and good health.

Keywords:
3D visualizationAfricaINTERREG MACbioIDi projectanatomy atlasesopen-source softwaresegmentationthree-dimensional anatomythree-dimensional models

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Area of Science:

  • Medical Education Technology
  • Open-Source Software Development
  • 3D Anatomical Atlases

Background:

  • Traditional anatomy education faces limitations like high costs and resource scarcity.
  • Existing methods inadequately serve global populations, hindering access to quality education and healthcare.
  • Open-source initiatives are crucial for addressing these educational and health disparities.

Purpose of the Study:

  • To present a methodology and tools for creating custom 3D anatomical atlases.
  • To develop a web application, the Atlas Assembly Tool, for open dissemination of anatomical atlases.
  • To complement existing open-source medical projects and establish a data-to-atlas pipeline.

Main Methods:

  • Development of a web application, the Atlas Assembly Tool.
  • Integration with existing open-source platforms like 3D Slicer and Open Anatomy Browser.
  • Focus on a pipeline from medical image data to web-browsable atlases.

Main Results:

  • A functional web application for assembling custom 3D anatomical atlases.
  • A pipeline enabling the creation of web-browsable atlases from medical image data.
  • The tool complements existing open-source medical software.

Conclusions:

  • The Atlas Assembly Tool facilitates the creation and open dissemination of 3D anatomical atlases.
  • This technology-based approach supports sustainable development goals in education and global health.
  • The project fosters international collaboration for accessible medical training.