Abstract
Full-field optical coherence microscopy (FF-OCM) is ideally suited to study living cells as it provides high-resolution cross-section images with no need for fluorescent labelling [1,2]. The OCM signal is proportional both to the scattering potential of the sample, providing structural information, and to the motion amplitude of the inter-cellular structures. Thus, the metabolic activity information can be extracted from the spatiotemporal analysis of the OCM images. This technique is particularly appealing for embryology to noninvasively assess the development potential of living cells, e.g., oocytes [3].
© 2023 IEEE
PDF ArticleMore Like This
Yuwei Liu, Shupei Yu, Yuanwei Zhang, and Xuan Liu
AW3K.5 CLEO: Applications and Technology (CLEO:A&T) 2023
Stefan E. Schausberger, Bettina Heise, and David Stifter
88020A European Conference on Biomedical Optics (ECBO) 2013
Rishyashring R. Iyer, Mantas Zurauskas, Qi Cui, Liang Gao, R. Theodore Smith, and Stephen A. Boppart
FW4E.7 Frontiers in Optics (FiO) 2020