Abstract
The tumor immune microenvironment (TIME) encompasses many heterogeneous cell types that engage in extensive crosstalk among the cancer, immune, and stromal components. The spatial organization of these different cell types in TIME could be used as biomarkers for predicting drug responses, prognosis and metastasis. Recently, deep learning approaches have been widely used for digital histopathology images for cancer diagnoses and prognoses. Furthermore, some recent approaches have attempted to integrate spatial and molecular omics data to better characterize the TIME. In this review we focus on machine learning-based digital histopathology image analysis methods for characterizing tumor ecosystem. In this review, we will consider three different scales of histopathological analyses that machine learning can operate within: whole slide image (WSI)-level, region of interest (ROI)-level, and cell-level. We will systematically review the various machine learning methods in these three scales with a focus on cell-level analysis. We will provide a perspective of workflow on generating cell-level training data sets using immunohistochemistry markers to “weakly-label” the cell types. We will describe some common steps in the workflow of preparing the data, as well as some limitations of this approach. Finally, we will discuss future opportunities of integrating molecular omics data with digital histopathology images for characterizing tumor ecosystem.
Highlights
In clinical settings, histopathology images are a critical source of primary data for pathologists to perform cancer diagnostic
Machine learning can be utilized for various image analysis tasks that are routinely performed during histological analyses including detection, segmentation, and classification
It is impractical to manually curate and annotate these individual cell types for training the model. To address this knowledge gap, we will discuss the basics of applying machine learning models for histopathological analysis within a cancer pathology setting, review currently published models and applications in the three different scales of histopathology analyses, and provide a simplified framework for the development of a cell-type classifier using weakly labeled datasets generated from immunolabeled slides
Summary
The tumor immune microenvironment (TIME) encompasses many heterogeneous cell types that engage in extensive crosstalk among the cancer, immune, and stromal components. Deep learning approaches have been widely used for digital histopathology images for cancer diagnoses and prognoses. Some recent approaches have attempted to integrate spatial and molecular omics data to better characterize the TIME. In this review we focus on machine learning-based digital histopathology image analysis methods for characterizing tumor ecosystem. We will consider three different scales of histopathological analyses that machine learning can operate within: whole slide image (WSI)-level, region of interest (ROI)-level, and cell-level. We will systematically review the various machine learning methods in these three scales with a focus on cell-level analysis. We will discuss future opportunities of integrating molecular omics data with digital histopathology images for characterizing tumor ecosystem
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