| - | Optical coherence tomography-based tissue dynamics imaging for longitudinal and drug response evaluation of tumor spheroids |
| - | Three-dimensional dynamics optical coherence tomography for tumor spheroid evaluation |
| - | Label-free intratissue activity imaging of alveolar organoids with dynamic optical coherence tomography |
| - | Label-free drug response evaluation of human derived tumor spheroids using three-dimensional dynamic optical coherence tomography |
| - | Label-free visualization and quantification of the drug-type-dependent response of tumor spheroids by dynamic optical coherence tomography |
| - | Label-free metabolic imaging of non-alcoholic-fatty-liver-disease (NAFLD) liver by volumetric dynamic optical coherence tomography |
| - | Label-free functional and structural imaging of liver microvascular complex in mice by Jones matrix optical coherence tomography |
| - | Dynamic optical coherence tomography algorithm for label-free assessment of swiftness and occupancy of intratissue moving scatterers |
| - | Theoretical model for en face optical coherence tomography imaging and its application to volumetric differential contrast imaging |
| - | Deep convolutional neural network-based scatterer density and resolution estimators in optical coherence tomography |
| - | Renal tubular function and morphology revealed in kidney without labeling using three-dimensional dynamic optical coherence tomography |
| - | Non-destructive characterization of adult zebrafish models using Jones matrix optical coherence tomography |
| - | Multicontrast investigation of in vivo wildtype zebrafish in three development stages using polarization-sensitive optical coherence tomography |
| - | Refractive index retrieving of polarization maintaining optical fibers |
| - | Dynamic-OCT simulation framework based on mathematical models of intratissue dynamics, image formation, and measurement noise |
| - | Neural-network based high-speed volumetric dynamic optical coherence tomography |
| - | Optical-coherence-tomography-based deep-learning scatterer-density estimator using physically accurate noise model |
| - | Guide to dynamic OCT data analysis |
| - | In vivo dynamic optical coherence tomography with hardware-and software-based motion correction |
| - | Experimental and numerical investigation of wavelength and resolution dependency of dynamic optical coherence tomography signals |
| - | Intracellular activity-type and parameter estimation from dynamic optical coherence tomography signals |
| - | Variable wavelength Newton’s rings formed in transmission for measuring radius of curvature and sub-micrometric thin film thickness: IG Abd El-Sadek et al. |
| - | Sparse frame acquisition toward fast volumetric dynamic optical coherence tomography imaging |
| - | Quantification of ex vivo tissue activity by short and long time-course analysis of multifunctional OCT signals |
| - | In vivo dynamic optical coherence tomography of human skin with hardware- and software-based motion correction |
| - | Investigating the dependency of dynamic optical coherence tomography signals on resolution and wavelength by experimental and simulation approaches |
| - | Quantitative dynamic optical coherence tomography by multi-time-window signal intensity variance |
| - | Time-lapse imaging of tumor spheroid drug response by dynamic optical coherence tomography integrated with cell cultivation chamber |
| - | Mathematical modeling of intracellular and intratissue activities for understanding dynamic optical coherence tomography signals |
| - | Human-derived tumor-spheroid-based anti-cancer drugs testing using dynamic optical coherence tomography |
| - | OCT based cross-sectional and three-dimensional dynamics imaging for visualization and quantification of tumor spheroid activity |
| - | Three-dimensional imaging of mouse liver dynamics by polarization-sensitive optical coherence tomography |
| - | Quantitative and ultra-high-sensitive vascular flow imaging of in vivo human skin by dynamic-optical-coherence-tomography (DOCT)-based OCT angiography |
| - | Developmental Imaging of Radish Sprouts Using Dynamic Optical Coherence Tomography |
| - | Dynamic full-field swept-source optical coherence microscope for cellular-resolution, long-depth, and intratissue-activity imaging |
| - | Comprehensive imaging of in vitro intratissue activity by quantitative-and multi-dynamics optical coherence tomography |
| - | In vivo multicontrast and tissue-activity imaging of zebrafish by label-free optical coherence tomography |
| - | Neural network-based high-speed amplitude spectral dynamic optical coherence tomography |
| - | Fusion of multiple dynamics-OCT contrasts for assessment of intratissue dynamics and visualization of dynamics-domain structures |
| - | Dynamic OCT to visualize development of cotyledon vessels in sprouts |
| - | Dynamic optical coherence tomography for tumor-spheroid-based anti-cancer-drug testing |
| - | Longitudinal xenograft zebrafish investigation using polarization-sensitive Jones-matrix optical coherence tomography (Conference Presentation) |
| - | Dynamics Imaging of Plant Maturity by Optical Coherence Tomography |
| - | Optical-coherence-tomography based tissue dynamics imaging for longitudinal and drug response evaluation of tumor spheroid |
| - | Quantification of ex-vivo tissue activity by polarization dynamics imaging using Jones matrix optical coherence tomography |
| - | Numerical jitter estimation for swept source optical coherence tomography |
| - | Dynamic optical coherence microscope integrated with cell-cultivation chamber enabled longitudinal and early-stage assessment of tumor spheroid-drug interaction |
| - | Comprehensive in vivo imaging of zebrafish using Jones-matrix optical coherence tomography |
| - | Dynamic OCT microscope combined with cell cultivation enables fine time-course analysis of tumor spheroid drug response |
| - | Dynamic full-field swept-source optical coherence tomography for high-resolution, long-depth, and intratissue-activity imaging |
| - | High-resolution, high-definition, and high-speed functional and structural imaging of cancer spheroid by Zero-NA swept-source optical coherence microscope |
| - | Automatic imaging of multiple spheroids by synchronous control of linear sample stage and dynamic OCT instrument |
| - | Fine time-course analysis of the tumor-spheroid drug response by integrated system of dynamic OCT and cell cultivation |
| - | Quantitative and multidynamics optical coherence tomography for assessing intratissue activities of in vitro samples |
| - | Toward fully automatic image-based longitudinal analysis of large number of spheroids by dynamic optical coherence tomography: Step-1 Robust and fully automatic segmentation |
| - | In vivo ultrastructural, morphological, and functional imaging of whole zebrafish using optical coherence tomography |
| - | High-speed multicontrast dynamic OCT by using deep learning |
| - | Image-based investigation of the zebrafish developmental process using in vivo dynamic and multi-contrast optical coherence tomography |
| - | Neural-network-based high-speed and high-definition full-field dynamic optical coherence tomography |
| - | Structural and metabolic imaging of cancer spheroids by Zero-NA full-field optical coherence microscope with computational augmentations |
| - | Acceleration of amplitude-spectral dynamic optical coherence tomography acquisition by using deep learning |
| - | High-contrast dynamic optical coherence tomography (OCT) by speckle-preserving OCT noise reducer based on UNet3+ (Conference Presentation) |
| - | Identification of intracellular motion type and its parameter from dynamic optical coherence tomography signals (Conference Presentation) |
| - | The comprehensive simulation framework of dynamic optical coherence tomography for the investigation on intratissue dynamics (Conference Presentation) |
| - | Computational augmentation of full-field optical coherence microscope for a single-shot volumetric cellular-resolution and millimeter-depth imaging |
| - | Generalized representation of OCT signals and its applications to de-speckling and spatial-differential imaging |
| - | Dynamic OCT simulator based on mathematical models of intratissue dynamics, image formation, and measurement noise |
| - | In vivo ultra-high-sensitive OCT angiography with massive-frame-repeat and hardware and software motion suppression |
| - | In vivo multi-contrast zebrafish imaging using Jones-matrix optical coherence tomography |
| - | Computational augmentation of spatially coherent full-field optical coherence microscope for cellular-resolution and millimeter-depth imaging |
| - | Integration of dynamic OCT and cell cultivation environment for longitudinal imaging of tumor spheroid’s drug response |
| - | Cellular-Resolution and Long-Depth-Imaging Spatially Coherent Full-Field Optical Coherence Microscope with Computational Refocusing |
| - | Deep-learning-based high-speed volumetric dynamic optical coherence tomography |
| - | In-vivo dynamic and multi-contrast imaging of human skin by motion-suppressed dynamic optical coherence tomography |
| - | Studying the effect of gluconeogenesis inhibitor drug on liver functionality using dynamic optical coherence tomography |
| - | Longitudinal drug response imaging of tumor spheroids using dynamic optical coherence tomography in conjunction with cell cultivation |
| - | Characterizing intracellular activities of dynamic optical coherence tomography: a mathematical modeling approach |
| - | Wavelength and resolution dependency of dynamic optical coherence tomography |
| - | Deep convolutional neural networks-based scatterer density and resolution estimators in optical coherence tomography: erratum |
| - | Neural-network based high-speed volumetric dynamic optical coherence tomography |
| - | New formulation of OCT for analytical signal-to-speckle separation and volumetric differential contrast imaging |
| - | Label-free intra-tissue activity imaging of alveolar organoid with three-dimensional dynamic optical coherence tomography |
| - | Label-free dynamic OCT (D-OCT) based evaluation of tumor spheroids |
| - | Disperse scatterer model of OCT and its application to design volumetric differential contrast imaging |
| - | Label-free ex vivo animal tissue metabolism investigation using 3D dynamic optical coherence tomography |
| - | Non-invasive and label-free zebrafish investigations using polarization-sensitive optical coherence tomography (Conference Presentation) |
| - | Volumetric differential contrast imaging by computationally augmented optical coherence tomography microscopy (Conference Presentation) |
| - | Low-and high-resolution volumetric dynamic optical coherence tomography of in vitro cell cultures |
| - | Motion-immune digital refocusing of point-scanning optical coherence tomography using Lissajous scan for in vivo imaging |
| - | Improving the estimation accuracy of the scatterer density estimation by accounting for the spatial property of the noise in optical coherence tomography |
| - | Renal tubular structure and metabolism revealed by dynamic optical coherence tomography and OCT angiography |
| - | In vivo investigation of a tumor xenograft zebrafish model using multicontrast polarization-sensitive optical coherence tomography |
| - | Quantitative scatterer density estimator to characterize tissue-based phantom in optical coherence tomography |
| - | Three-dimensional intracellular motility imaging in non-alcoholic fatty liver disease (NAFLD) using optical coherence tomography |
| - | Three dimensional tumor spheroid drug response evaluation using OCT based tissue viability evaluation method |
| - | Label-free three dimensional optical coherence tomography (OCT-) based imaging method for drug response evaluation of human derived tumor spheroids |
| - | Label-free assessment of renal function with unilateral ureteral obstruction (UUO) model by optical coherence microscopy |
| - | Non-invasive, structural and functional imaging of in vivo zebrafish in various development stages using Jones matrix optical coherence tomography |
| - | Multi-functional optical coherence microscopy for in vitro and ex vivo tissue investigation |
| - | Volumetric multi-contrast dynamics imaging for ex vivo liver microvasculature activity visualization using Jones matrix optical coherence tomography |
| - | M. Nawareg & AS El-Tawargy |