Search Results - single+cell+analysis+and+testing

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An Acoustic Device for Large Area Single Cell Trapping and Selective Release (Case No. 2025-047)
Summary: UCLA researchers in the Department of Mechanical and Aerospace Engineering have developed an acoustic microfluidic platform that offers a cost-effective and practical approach for handling individual cells at the microscale. Background: Single-cell manipulation is essential for understanding cellular behavior, disease progression, and therapeutic...
Published: 1/13/2026   |   Inventor(s): Pei-Yu Chiou, Xiang Zhang
Keywords(s): acoustic microfluidics, acoustic potential wells, acoustics, cell proliferation, cell viability, Diagnostic Platform Technologies (E.G. Microfluidics), diagnostic platforms, Digital Microfluidics, disposable microfluidic platforms, high throughput, high throughput assays, high throughput testing, High-Content Screening, high-throughput cell handling, low-cost fabrication, MEMS, MEMS metasurface, micro-electromechanical systems (MEMS), Microfluidics, Microfluidics And Mem's, Microfluidics Dielectrophoresis, Microfluidics Multi-Band Device, Microfluidics Nanosphere, near-infrared laser, photolithography-free fabrication, research instrumentation, scalable platform, single cell analysis, single cell analysis and testing, Single cell data, single-cell handling, single-cell manipulation, single-cell resolution, single-cell trapping
Category(s): Chemical, Chemical > Chemical Processing & Manufacturing, Chemical > Instrumentation & Analysis, Diagnostic Markers, Diagnostic Markers > Targets And Assays, Diagnostic Markers > Immunology, Diagnostic Markers > Cancer, Life Science Research Tools, Life Science Research Tools > Lab Equipment, Life Science Research Tools > Microfluidics And Mems, Life Science Research Tools > Research Methods, Mechanical, Mechanical > Instrumentation, Platforms, Platforms > Diagnostic Platform Technologies
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: 10/20/2025   |   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