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Orbit Image Analysis: An open-source whole slide image analysis tool

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  • Manuel Stritt
  • Anna K Stalder
  • Enrico Vezzali

Abstract

We describe Orbit Image Analysis, an open-source whole slide image analysis tool. The tool consists of a generic tile-processing engine which allows the execution of various image analysis algorithms provided by either Orbit itself or from other open-source platforms using a tile-based map-reduce execution framework. Orbit Image Analysis is capable of sophisticated whole slide imaging analyses due to several key features. First, Orbit has machine-learning capabilities. This deep learning segmentation can be integrated with complex object detection for analysis of intricate tissues. In addition, Orbit can run locally as standalone or connect to the open-source image server OMERO. Another important characteristic is its scale-out functionality, using the Apache Spark framework for distributed computing. In this paper, we describe the use of Orbit in three different real-world applications: quantification of idiopathic lung fibrosis, nerve fibre density quantification, and glomeruli detection in the kidney.Author summary: Whole slide images (WSI) are digital scans of samples, e.g. tissue sections. It is very convenient to view samples in this digital form, and with the increasing computation power it can also be used for quantification. These images are often too large to be analysed with standard tools. To overcome this issue, we created on open-source tool called Orbit Image Analysis which divides the images into smaller parts and allows the analysis of it with either embedded algorithms or the integration of existing tools. It also provides mechanisms to process huge amounts of images in distributed computing environments, such as clusters or cloud infrastructures. In this paper we describe the Orbit system and demonstrate its application based on three real-word use-cases.

Suggested Citation

  • Manuel Stritt & Anna K Stalder & Enrico Vezzali, 2020. "Orbit Image Analysis: An open-source whole slide image analysis tool," PLOS Computational Biology, Public Library of Science, vol. 16(2), pages 1-19, February.
  • Handle: RePEc:plo:pcbi00:1007313
    DOI: 10.1371/journal.pcbi.1007313
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    1. Wenjie Wu & Zhexian Sun & Hansong Gao & Yuan Nan & Stephanie Pizzella & Haonan Xu & Josephine Lau & Yiqi Lin & Hui Wang & Pamela K. Woodard & Hannah R. Krigman & Qing Wang & Yong Wang, 2024. "Whole cervix imaging of collagen, muscle, and cellularity in term and preterm pregnancy," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    2. Giovanna Maria Dimitri & Paolo Andreini & Simone Bonechi & Monica Bianchini & Alessandro Mecocci & Franco Scarselli & Alberto Zacchi & Guido Garosi & Thomas Marcuzzo & Sergio Antonio Tripodi, 2022. "Deep Learning Approaches for the Segmentation of Glomeruli in Kidney Histopathological Images," Mathematics, MDPI, vol. 10(11), pages 1-10, June.

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