Brian Cheng scite author profile

Brian Cheng

3Publications

6Citation Statements Received

124Citation Statements Given

How they've been cited

How they cite others

124

Affiliations

Emory University, Georgia Institute of Technology, The Wallace H. Coulter Department of Biomedical Engineering

Publications

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Deep UV Microscopy Identifies Prostatic Basal Cells: An Important Biomarker for Prostate Cancer Diagnostics

et al. 2022

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Objective and Impact Statement. Identifying benign mimics of prostatic adenocarcinoma remains a significant diagnostic challenge. In this work, we developed an approach based on label-free, high-resolution molecular imaging with multispectral deep ultraviolet (UV) microscopy which identifies important prostate tissue components, including basal cells. This work has significant implications towards improving the pathologic assessment and diagnosis of prostate cancer. Introduction. One of the most important indicators of prostate cancer is the absence of basal cells in glands and ducts. However, identifying basal cells using hematoxylin and eosin (H&E) stains, which is the standard of care, can be difficult in a subset of cases. In such situations, pathologists often resort to immunohistochemical (IHC) stains for a definitive diagnosis. However, IHC is expensive and time-consuming and requires more tissue sections which may not be available. In addition, IHC is subject to false-negative or false-positive stains which can potentially lead to an incorrect diagnosis. Methods. We leverage the rich molecular information of label-free multispectral deep UV microscopy to uniquely identify basal cells, luminal cells, and inflammatory cells. The method applies an unsupervised geometrical representation of principal component analysis to separate the various components of prostate tissue leading to multiple image representations of the molecular information. Results. Our results show that this method accurately and efficiently identifies benign and malignant glands with high fidelity, free of any staining procedures, based on the presence or absence of basal cells. We further use the molecular information to directly generate a high-resolution virtual IHC stain that clearly identifies basal cells, even in cases where IHC stains fail. Conclusion. Our simple, low-cost, and label-free deep UV method has the potential to improve and facilitate prostate cancer diagnosis by enabling robust identification of basal cells and other important prostate tissue components.

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Tracking early tuberous sclerosis complex diseased organoid development with quantitative oblique back-illumination microscopy

Filan

Charles

Costa

et al. 2023

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Quantitative oblique back-illumination microscopy (qOBM) is a label-free imaging technique that enables tomographic phase imaging of thick scattering samples with epi-illumination. Here, we apply qOBM to image three-dimensional brain organoid cell cultures of tuberous sclerosis complex (TSC) disease. We identify quantitative differences that occur between the TSC organoids and a control cell line, and discuss the implications of these differences on our understanding the development of TSC organoid cultures. These differences include disruptions in the tubular processes in the organoid, a higher degree of folding and non-spherical cell growth, and differences in the proliferating cell structures between the two groups.

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Label-Free Deep UV Microscopy Identifies Basal Cells in Prostate Gland: A Powerful Endogenous Negative Biomarker of Carcinoma

Soltani

Cheng

Osunkoya

et al. 2022

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Brian Cheng

Deep UV Microscopy Identifies Prostatic Basal Cells: An Important Biomarker for Prostate Cancer Diagnostics

Tracking early tuberous sclerosis complex diseased organoid development with quantitative oblique back-illumination microscopy

Label-Free Deep UV Microscopy Identifies Basal Cells in Prostate Gland: A Powerful Endogenous Negative Biomarker of Carcinoma

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