Holotomographic microscopy reveals label-free quantitative dynamics of endothelial cells during endothelialization

Holotomographic microscopy reveals label-free quantitative dynamics of endothelial cells during endothelialization

Holotomograhic microscopy (HTM) has emerged as a non-invasive imaging technique that offers high-resolution, quantitative 3D imaging of biological samples. This study explores the application of HTM in examining endothelial cells (ECs). HTM overcomes the limitations of traditional microscopy methods...

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Bibliographic Details
Main Authors: William D. Leineweber, Gabriela Acevedo Munares, Christian Leycam, Raul Michael, Juliette Noyer, Patrick Jurney
Format: Article
Language:English
Published: Elsevier 2025-06-01
Series:European Journal of Cell Biology
Subjects:
Holotomographic microscopy
Label-free imaging
Endothelialization
Endothelial cells
Refractive index
Cell motility
Online Access:http://www.sciencedirect.com/science/article/pii/S0171933525000172
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Summary:Holotomograhic microscopy (HTM) has emerged as a non-invasive imaging technique that offers high-resolution, quantitative 3D imaging of biological samples. This study explores the application of HTM in examining endothelial cells (ECs). HTM overcomes the limitations of traditional microscopy methods in capturing the real-time dynamics of ECs by leveraging the refractive index (RI) to map 3D distributions label-free. This work demonstrates the utility of HTM in visualizing key cellular processes during endothelialization, wherein ECs anchor, adhere, migrate, and proliferate. Leveraging the high resolution and quantitative power of HTM, we show that lipid droplets and mitochondria are readily visualized, enabling more comprehensive studies on their respective roles during endothelialization. The study highlights how HTM on a commercial instrument can uncover novel insights into HUVEC cell behavior, offering potential applications in medical diagnostics and research, particularly in developing treatments for cardiovascular diseases. This advanced imaging technique not only enhances our understanding of EC biology but also presents a significant step forward in the study of cardiovascular diseases, providing a robust platform for future research and therapeutic development.
ISSN:0171-9335

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