Engineering the future of 3D pathology

Jonathan T.C. Liu; Sarah S.L. Chow; Richard Colling; Michelle R. Downes; Xavier Farré; Peter Humphrey; Andrew Janowczyk; Tuomas Mirtti; Clare Verrill; Inti Zlobec; Lawrence D. True

doi:10.1002/cjp2.347

Engineering the future of 3D pathology

Jonathan T.C. Liu^*, Sarah S.L. Chow, Richard Colling, Michelle R. Downes, Xavier Farré, Peter Humphrey, Andrew Janowczyk, Tuomas Mirtti, Clare Verrill, Inti Zlobec, Lawrence D. True

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

In recent years, technological advances in tissue preparation, high-throughput volumetric microscopy, and computational infrastructure have enabled rapid developments in nondestructive 3D pathology, in which high-resolution histologic datasets are obtained from thick tissue specimens, such as whole biopsies, without the need for physical sectioning onto glass slides. While 3D pathology generates massive datasets that are attractive for automated computational analysis, there is also a desire to use 3D pathology to improve the visual assessment of tissue histology. In this perspective, we discuss and provide examples of potential advantages of 3D pathology for the visual assessment of clinical specimens and the challenges of dealing with large 3D datasets (of individual or multiple specimens) that pathologists have not been trained to interpret. We discuss the need for artificial intelligence triaging algorithms and explainable analysis methods to assist pathologists or other domain experts in the interpretation of these novel, often complex, large datasets.

Original language	English
Article number	e347
Journal	Journal of Pathology: Clinical Research
Volume	10
Issue number	1
DOIs	https://doi.org/10.1002/cjp2.347
Publication status	Published - Jan 2024
Externally published	Yes

ASJC Scopus subject areas

Pathology and Forensic Medicine

Keywords

digital pathology
light-sheet microscopy
nondestructive 3D pathology
prognosis
prostate cancer

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/cjp2.347

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title = "Engineering the future of 3D pathology",

abstract = "In recent years, technological advances in tissue preparation, high-throughput volumetric microscopy, and computational infrastructure have enabled rapid developments in nondestructive 3D pathology, in which high-resolution histologic datasets are obtained from thick tissue specimens, such as whole biopsies, without the need for physical sectioning onto glass slides. While 3D pathology generates massive datasets that are attractive for automated computational analysis, there is also a desire to use 3D pathology to improve the visual assessment of tissue histology. In this perspective, we discuss and provide examples of potential advantages of 3D pathology for the visual assessment of clinical specimens and the challenges of dealing with large 3D datasets (of individual or multiple specimens) that pathologists have not been trained to interpret. We discuss the need for artificial intelligence triaging algorithms and explainable analysis methods to assist pathologists or other domain experts in the interpretation of these novel, often complex, large datasets.",

keywords = "digital pathology, light-sheet microscopy, nondestructive 3D pathology, prognosis, prostate cancer",

author = "Liu, {Jonathan T.C.} and Chow, {Sarah S.L.} and Richard Colling and Downes, {Michelle R.} and Xavier Farr{\'e} and Peter Humphrey and Andrew Janowczyk and Tuomas Mirtti and Clare Verrill and Inti Zlobec and True, {Lawrence D.}",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors. The Journal of Pathology: Clinical Research published by The Pathological Society of Great Britain and Ireland and John Wiley & Sons Ltd.",

year = "2024",

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doi = "10.1002/cjp2.347",

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AU - Liu, Jonathan T.C.

AU - Chow, Sarah S.L.

AU - Colling, Richard

AU - Downes, Michelle R.

AU - Farré, Xavier

AU - Humphrey, Peter

AU - Janowczyk, Andrew

AU - Mirtti, Tuomas

AU - Verrill, Clare

AU - Zlobec, Inti

AU - True, Lawrence D.

PY - 2024/1

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N2 - In recent years, technological advances in tissue preparation, high-throughput volumetric microscopy, and computational infrastructure have enabled rapid developments in nondestructive 3D pathology, in which high-resolution histologic datasets are obtained from thick tissue specimens, such as whole biopsies, without the need for physical sectioning onto glass slides. While 3D pathology generates massive datasets that are attractive for automated computational analysis, there is also a desire to use 3D pathology to improve the visual assessment of tissue histology. In this perspective, we discuss and provide examples of potential advantages of 3D pathology for the visual assessment of clinical specimens and the challenges of dealing with large 3D datasets (of individual or multiple specimens) that pathologists have not been trained to interpret. We discuss the need for artificial intelligence triaging algorithms and explainable analysis methods to assist pathologists or other domain experts in the interpretation of these novel, often complex, large datasets.

AB - In recent years, technological advances in tissue preparation, high-throughput volumetric microscopy, and computational infrastructure have enabled rapid developments in nondestructive 3D pathology, in which high-resolution histologic datasets are obtained from thick tissue specimens, such as whole biopsies, without the need for physical sectioning onto glass slides. While 3D pathology generates massive datasets that are attractive for automated computational analysis, there is also a desire to use 3D pathology to improve the visual assessment of tissue histology. In this perspective, we discuss and provide examples of potential advantages of 3D pathology for the visual assessment of clinical specimens and the challenges of dealing with large 3D datasets (of individual or multiple specimens) that pathologists have not been trained to interpret. We discuss the need for artificial intelligence triaging algorithms and explainable analysis methods to assist pathologists or other domain experts in the interpretation of these novel, often complex, large datasets.

KW - digital pathology

KW - light-sheet microscopy

KW - nondestructive 3D pathology

KW - prognosis

KW - prostate cancer

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Engineering the future of 3D pathology

Abstract

ASJC Scopus subject areas

Keywords

UN SDGs

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