Ibrahim El-Sadek scite author profile

Ibrahim El-Sadek

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A theoretical model for en face optical coherence tomography imaging and its application to volumetric differential contrast imaging

Tomita¹,

Makita²,

Fukutake³

et al. 2023

Preprint

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A new formulation of lateral optical coherence tomography (OCT) imaging process and a new differential contrast method designed by using this formulation are presented. The formulation is based on a mathematical sample model called the dispersed scatterer model (DSM), in which the sample is represented as a material with a spatially slowly varying refractive index and randomly distributed scatterers embedded in the material. It is shown that the formulation represents a meaningful OCT image and speckle as two independent mathematical quantities. The new differential contrast method is based on complex signal processing of OCT images, and the physical and numerical imaging processes of this method are jointly formulated using the same theoretical strategy as in the case of OCT. The formula shows that the method provides a spatially differential image of the sample structure. This differential imaging method is validated by measuring in vivo and in vitro samples.

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Label-free intratissue activity imaging of alveolar organoids with dynamic optical coherence tomography

Morishita¹,

Mukherjee²,

El-Sadek³

et al. 2023

Preprint

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An organoid is a three-dimensional (3D) in vitro cell culture emulating human organs. We applied 3D dynamic optical coherence tomography (DOCT) to visualize the intratissue and intracellular activities of human induced pluripotent stem cells (hiPSCs)-derived alveolar organoids in normal and fibrosis models. 3D DOCT data were acquired with a 840-nm spectral domain optical coherence tomography with axial and lateral resolutions of 3.8 µm (in tissue) and 4.9 µm, respectively. The DOCT images were obtained by the logarithmic-intensity-variance (LIV) method, which is sensitive to the signal fluctuation magnitude. The LIV images revealed cystic structures surrounded by high-LIV borders and mesh-like structures with low LIV. The former may be alveoli with a highly dynamics epithelium, while the latter may be fibroblasts. The LIV images also demonstrated the abnormal repair of the alveolar epithelium.

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Ibrahim El-Sadek

A theoretical model for en face optical coherence tomography imaging and its application to volumetric differential contrast imaging

Label-free intratissue activity imaging of alveolar organoids with dynamic optical coherence tomography

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