Search Results - cell+and+tissue+culture

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Multi-Particle System for Capture and Detection of Cellular and Molecular Analytes (Case No. 2025-267)
Summary: UCLA researchers in the Department of Bioengineering have developed a novel multi-particle system that selectively confines cells and molecular reactions within cavities formed by interacting particles. Background: Screening and selecting cells with specific, beneficial traits has become a vital process in using cell-derived products...
Published: 7/29/2025   |   Inventor(s): Dino Di Carlo, Alyssa Arnheim, Michael Mellody, Yuta Nakagawa, Lily Shang
Keywords(s): Assay, B Cell, barcode, Bioassay, biological assays, Biomarker, biomarkers, Biomaterial, capping particles, CAR-T cell platform, CAR-T cell therapy, cavities, cavity-containing particles, Cell and tissue culture, cell encapsulation, cell engineering, cell imaging, cell mapping, cell sorting, cell type identification, cell-based therapy, centrifugation, confinement, Diagnostic Platform Technologies (E.G. Microfluidics), Digital Microfluidics, Drug, Drug Delivery, Drug Discovery, drug screening, high throughput, high throughput assays, high throughput testing, high-throughput analysis, High-Throughput Screening, Immunoassay, Immunoassay Sense (Molecular Biology), Microfluidics, Microfluidics And Mem's, Microfluidics Nanosphere, microparticles, moieties, Nanoparticle, single cell analysis, single cell analysis and testing, Single cell data, single-cell resolution, single-cell trapping
Category(s): Life Science Research Tools, Life Science Research Tools > Cell Counting And Imaging, Life Science Research Tools > Lab Equipment, Life Science Research Tools > Microscopy And Imaging, Life Science Research Tools > Microfluidics And Mems, Medical Devices, Platforms
Multiwell Plate-Based Flow Culture for Improving the Quality of 3D Tissues (Case No. 2022-067)
Summary: UCLA researchers in the Department of Mechanical and Aerospace Engineering have developed a simple, innovative method for growing 3D cell cultures with improved organoid differentiation and reduced hypoxia-induced cell death. TITLE: Multiwell Plate-Based Flow Culture for Improving the Quality of 3D Tissues Background: 3D tissue culture,...
Published: 2/14/2025   |   Inventor(s): Neil Lin, Marie Payne
Keywords(s): 3D Printing, Biofilm, Biomaterial 3D Printing, Biomedical Engineering, Cancer, cancer detection, Cancer Immunotherapy, Cell and tissue culture, Cell Culture, Cellular agriculture, Cultured meat, iPS/stem cells, Laminar flow, Microwell plates, organogenesis, Organoids, Personalized Pharmacotherapy, Pharmaceutical testing, Stem Cells / Regenerative Medicine, Tissue (Biology), tissue detection, Tissue Engineering, Tissue sedimentation
Category(s): Life Science Research Tools > Lab Equipment, Life Science Research Tools, Diagnostic Markers, Diagnostic Markers > Targets And Assays, Therapeutics, Therapeutics > Oncology
2023-102 A Dynamic Cholesteric Liquid Crystal for Organoid, Spheroid, 3D Cell Aggregate Manufacturing
Summary: UCLA and University of Connecticut researchers have engineered a novel liquid-crystal-based biomaterial with a simple fabrication process for organoid, spheroid and 3D cell aggregate manufacturing that enables rapid cell growth. Background: The current waiting list for people who need a lifesaving organ transplant is over 100,000 cases...
Published: 7/25/2025   |   Inventor(s): Paul Weiss, Amir Nasajpour, Ali Tamayol, Mohamadmahdi Samandari
Keywords(s): 3D biofabrication, 3D Printing, Biocompatibility, biocompatible, Biomaterial 3D Printing, biomedical implantation, Cell and tissue culture, Cell Culture, cell-extracellular matrix (ECM), cellular aggregates, Cellular agriculture, Cholesterol, cholesteryl ester liquid crystals (CLCs), Cultured meat, Electrode 3D Printing, liquid crystal, liquid crystal nanofibers, mesogens, Organ Transplant, organogenesis, scaffolds, self-assemble, Stem Cells / Regenerative Medicine, Tissue Engineering
Category(s): Chemical, Chemical > Polymers, Materials, Materials > Functional Materials, Life Science Research Tools, Life Science Research Tools > Research Methods, Life Science Research Tools > Other Reagents, Medical Devices, Medical Devices > Surgical Tools, Therapeutics, Therapeutics > Stem Cells And Regenerative Medicine > Ips Stem Cells
2021-285 Chemical Stimulation of Cellular Contractability to Enhance the Quality of Cultured Meat
Summary: UCLA researchers in the Department of Integrative Biology and Physiology have developed a novel methodology to improve the texture and overall quality of muscle grown ex vivo for sustainable biomanufacturing applications. Background: Livestock production is known to be ecologically expensive due to its use of large swaths of land and release...
Published: 7/17/2025   |   Inventor(s): Amy Rowat
Keywords(s): Beyond meat, biomanufacturing, Cell and tissue culture, Cell Culture, Cellular agriculture, Cultured meat, Food Chain, meat, meat production, Sustainable nutrition
Category(s): Chemical, Therapeutics > Agtech And Animal Health