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VOLUME IMAGING OF BIOLOGICAL SPECIMENS BY PHOTOCHEMICAL SECTIONING
VOLUME IMAGING OF BIOLOGICAL SPECIMENS BY PHOTOCHEMICAL SECTIONING
Researchers at UC Berkeley and University of Illinois, Chicago have developed a nanoscale volume fluorescence imaging method that enables high-resolution imaging of large tissue volumes.
Hydrogel-based tissue clearing and expansion techniques have improved the ability to study cellular...
Published: 11/6/2024
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Inventor(s): Gokul Upadhyayula, RuiXuan Gao
Keywords(s): Hydrogel, Imaging, Photodegradable
Category(s): Technology Classifications > Biology
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ARRAY PLATFORM FOR HIGH-THROUGHPUT ORGANOID PROFILING
ARRAY PLATFORM FOR HIGH-THROUGHPUT ORGANOID PROFILING
Researchers at Stanford have developed a new methodology for image processing that allows for high-throughput characterization of organoid phenotypes.
Organoids represent a major step forward in in vitro research studies into a myriad of disease states. 3D organoid models possess key advantages...
Published: 9/14/2023
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Inventor(s): Polly Fordyce, Christina Curtis, Alexandera Sockell, Wing Wong
Keywords(s): CRISPR, High-Throughput, Imaging, Organoid
Category(s): Technology Classifications > Biology
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GENERATION OF A NEEDLESHAPED BEAM FOR EXTENDED DEPTH OF FOCUS OPTICAL COHERENCE TOMOGRAPHY
GENERATION OF A NEEDLESHAPED BEAM FOR EXTENDED DEPTH OF FOCUS OPTICAL COHERENCE TOMOGRAPHY
Researchers at Stanford have developed an innovation that will enhance the depth of the imaging capabilities for optical coherence tomography (OCT) imaging.
Optical coherence tomography is a technique for visualizing various medias that was originally developed...
Published: 7/6/2023
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Inventor(s): Jingjing Zhao, Adam de la Zerda
Keywords(s): Imaging, Multi-Foci Beams, Needle Shaped Beam, Non-Invasive Imaging, OCT, Optical Coherence Tomography
Category(s): Technology Classifications > Engineering
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