Neural Graph Refinement for Robust Recognition of Nuclei Communities in Histopathological Landscape

Taimur Hassan, Zhu Li, Sajid Javed, Jorge Dias, Naoufel Werghi

Research output: Contribution to journalArticlepeer-review

1 Scopus citations

Abstract

Accurate classification of nuclei communities is an important step towards timely treating the cancer spread. Graph theory provides an elegant way to represent and analyze nuclei communities within the histopathological landscape in order to perform tissue phenotyping and tumor profiling tasks. Many researchers have worked on recognizing nuclei regions within the histology images in order to grade cancerous progression. However, due to the high structural similarities between nuclei communities, defining a model that can accurately differentiate between nuclei pathological patterns still needs to be solved. To surmount this challenge, we present a novel approach, dubbed neural graph refinement, that enhances the capabilities of existing models to perform nuclei recognition tasks by employing graph representational learning and broadcasting processes. Based on the physical interaction of the nuclei, we first construct a fully connected graph in which nodes represent nuclei and adjacent nodes are connected to each other via an undirected edge. For each edge and node pair, appearance and geometric features are computed and are then utilized for generating the neural graph embeddings. These embeddings are used for diffusing contextual information to the neighboring nodes, all along a path traversing the whole graph to infer global information over an entire nuclei network and predict pathologically meaningful communities. Through rigorous evaluation of the proposed scheme across four public datasets, we showcase that learning such communities through neural graph refinement produces better results that outperform state-of-the-art methods.

Original languageBritish English
Pages (from-to)241-256
Number of pages16
JournalIEEE Transactions on Image Processing
Volume33
DOIs
StatePublished - 2024

Keywords

  • colorectal cancer
  • graph representational learning
  • histology images
  • Nuclei communities

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