2022
DOI: 10.34133/2022/9853606
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Virtual Staining, Segmentation, and Classification of Blood Smears for Label-Free Hematology Analysis

Abstract: Objective and Impact Statement. We present a fully automated hematological analysis framework based on single-channel (single-wavelength), label-free deep-ultraviolet (UV) microscopy that serves as a fast, cost-effective alternative to conventional hematology analyzers. Introduction. Hematological analysis is essential for the diagnosis and monitoring of several diseases but requires complex systems operated by trained personnel, costly chemical reagents, and lengthy protocols. Label-free techniques eliminate … Show more

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Cited by 16 publications
(19 citation statements)
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“…Different types of stains can be simultaneously generated at the same tissue cross-section using a single (or multiple) virtual staining model(s) to provide additional histological information that aids the diagnostic evaluation 21 . This additional histological information was also proven to improve the performance of other downstream machine vision tasks in digital pathology, such as the detection or segmentation of pathological signatures 27,50,53,55,58 and classification of malignancies 32,39,91 . By allowing different stains to be performed on the same tissue section, more tissue will be preserved and be available in diagnostically challenging cases for ancillary tests (e.g., DNA/RNA sequencing) that may be required to reach a diagnosis.…”
Section: Discussion and Future Perspectivesmentioning
confidence: 99%
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“…Different types of stains can be simultaneously generated at the same tissue cross-section using a single (or multiple) virtual staining model(s) to provide additional histological information that aids the diagnostic evaluation 21 . This additional histological information was also proven to improve the performance of other downstream machine vision tasks in digital pathology, such as the detection or segmentation of pathological signatures 27,50,53,55,58 and classification of malignancies 32,39,91 . By allowing different stains to be performed on the same tissue section, more tissue will be preserved and be available in diagnostically challenging cases for ancillary tests (e.g., DNA/RNA sequencing) that may be required to reach a diagnosis.…”
Section: Discussion and Future Perspectivesmentioning
confidence: 99%
“…c Blind inference of a trained virtual staining model. The virtual histology images are rapidly generated from label-free images using a digital computer smears 39 , as well as H&E 40 and IHC 41 staining on prostate tissue sections; photoacoustic microscopy was also demonstrated to achieve virtual H&E staining of mouse brain 42 and frozen sections of bone tissue 43 . As another example, Mayerich.…”
Section: Label-free Virtual Stainingmentioning
confidence: 99%
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“…Multispectral UV microscopy has also been used for label-free prostate tissue characterization 13 . Recently, UV microscopy has been demonstrated for robust hematology analysis including automated classification of various WBC subtypes and pseudo-colorization of blood smear images to mimic hematological staining 11,12,14,15 . While these studies have used static multispectral UV microscopy images, existing setups can operate at speeds exceeding 1kHz, making them a viable tool for multiscale dynamic imaging as well.…”
Section: Introductionmentioning
confidence: 99%