AI-based Software Analyzes Cancer Cells from Digitized Pathology Slides to Improve Diagnoses
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By LabMedica International staff writers Posted on 31 Dec 2019 |
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Researchers from UT Southwestern (Dallas, TX, USA) have developed a software tool that uses artificial intelligence (AI) to recognize cancer cells from digital pathology images, allowing clinicians to predict patient outcomes.
The spatial distribution of different types of cells can reveal a cancer’s growth pattern, its relationship with the surrounding microenvironment, and the body’s immune response. However, the process of manually identifying all the cells in a pathology slide is extremely labor intensive and error-prone. A major technical challenge in systematically studying the tumor microenvironment is how to automatically classify different types of cells and quantify their spatial distributions.
The AI algorithm, called ConvPath, developed by the researchers overcomes these obstacles by using AI to classify cell types from lung cancer pathology images. The ConvPath algorithm can “look” at cells and identify their types based on their appearance in the pathology images using an AI algorithm that learns from human pathologists. The algorithm effectively converts a pathology image into a “map” that displays the spatial distributions and interactions of tumor cells, stromal cells (i.e., the connective tissue cells), and lymphocytes (i.e., the white blood cells) in tumor tissue. Whether tumor cells cluster well together or spread into stromal lymph nodes is a factor revealing the body’s immune response. So knowing that information can help doctors customize treatment plans and pinpoint the right immunotherapy. Ultimately, the algorithm helps pathologists obtain the most accurate cancer cell analysis – in a much faster way.
“As there are usually millions of cells in a tissue sample, a pathologist can only analyze so many slides in a day. To make a diagnosis, pathologists usually only examine several ‘representative’ regions in detail, rather than the whole slide. However, some important details could be missed by this approach,” said Dr. Guanghua “Andy” Xiao, corresponding author of a study published in EBioMedicine and Professor of Population and Data Sciences at UT Southwestern. “It is time-consuming and difficult for pathologists to locate very small tumor regions in tissue images, so this could greatly reduce the time that pathologists need to spend on each image.”
Related Links:
UT Southwestern
The spatial distribution of different types of cells can reveal a cancer’s growth pattern, its relationship with the surrounding microenvironment, and the body’s immune response. However, the process of manually identifying all the cells in a pathology slide is extremely labor intensive and error-prone. A major technical challenge in systematically studying the tumor microenvironment is how to automatically classify different types of cells and quantify their spatial distributions.
The AI algorithm, called ConvPath, developed by the researchers overcomes these obstacles by using AI to classify cell types from lung cancer pathology images. The ConvPath algorithm can “look” at cells and identify their types based on their appearance in the pathology images using an AI algorithm that learns from human pathologists. The algorithm effectively converts a pathology image into a “map” that displays the spatial distributions and interactions of tumor cells, stromal cells (i.e., the connective tissue cells), and lymphocytes (i.e., the white blood cells) in tumor tissue. Whether tumor cells cluster well together or spread into stromal lymph nodes is a factor revealing the body’s immune response. So knowing that information can help doctors customize treatment plans and pinpoint the right immunotherapy. Ultimately, the algorithm helps pathologists obtain the most accurate cancer cell analysis – in a much faster way.
“As there are usually millions of cells in a tissue sample, a pathologist can only analyze so many slides in a day. To make a diagnosis, pathologists usually only examine several ‘representative’ regions in detail, rather than the whole slide. However, some important details could be missed by this approach,” said Dr. Guanghua “Andy” Xiao, corresponding author of a study published in EBioMedicine and Professor of Population and Data Sciences at UT Southwestern. “It is time-consuming and difficult for pathologists to locate very small tumor regions in tissue images, so this could greatly reduce the time that pathologists need to spend on each image.”
Related Links:
UT Southwestern
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