4.6 Article

Lymphocyte Classification from Hoechst Stained Slides with Deep Learning

Journal

CANCERS
Volume 14, Issue 23, Pages -

Publisher

MDPI
DOI: 10.3390/cancers14235957

Keywords

deep learning; computer vision; lymphocyte subsets; image classification; imaging

Categories

Funding

  1. Industrial Centre for AI Research in Digital Diagnostics - Innovate UK on behalf of UK Research and Innovation (UKRI) [104690]

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We presented a study that demonstrates the possibility of identifying immune cell subtypes without the need for immunofluorescence by using deep neural networks and interpretability techniques. This offers a promising new approach to cheaper cancer pathology diagnosis and personalized immunotherapy.
Simple Summary We train a deep neural network model to identify CD3 expressing cells from Hoechst stained slides only, without the need for costly immunofluorescence. Using interpretability techniques to understand what the model has learned, we find that morphological features in the nuclear chromatin are predictive of CD3 expression. Multiplex immunofluorescence and immunohistochemistry benefit patients by allowing cancer pathologists to identify proteins expressed on the surface of cells. This enables cell classification, better understanding of the tumour microenvironment, and more accurate diagnoses, prognoses, and tailored immunotherapy based on the immune status of individual patients. However, these techniques are expensive. They are time consuming processes which require complex staining and imaging techniques by expert technicians. Hoechst staining is far cheaper and easier to perform, but is not typically used as it binds to DNA rather than to the proteins targeted by immunofluorescence techniques. In this work we show that through the use of deep learning it is possible to identify an immune cell subtype without immunofluorescence. We train a deep convolutional neural network to identify cells expressing the T lymphocyte marker CD3 from Hoechst 33342 stained tissue only. CD3 expressing cells are often used in key prognostic metrics such as assessment of immune cell infiltration, and by identifying them without the need for costly immunofluorescence, we present a promising new approach to cheaper prediction and improvement of patient outcomes. We also show that by using deep learning interpretability techniques, we can gain insight into the previously unknown morphological features which make this possible.

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