Cargando…

Microfluidics for long-term single-cell time-lapse microscopy: Advances and applications

Cells are inherently dynamic, whether they are responding to environmental conditions or simply at equilibrium, with biomolecules constantly being made and destroyed. Due to their small volumes, the chemical reactions inside cells are stochastic, such that genetically identical cells display heterog...

Descripción completa

Detalles Bibliográficos
Autores principales:	Allard, Paige, Papazotos, Fotini, Potvin-Trottier, Laurent
Formato:	Online Artículo Texto
Lenguaje:	English
Publicado:	Frontiers Media S.A. 2022
Materias:	Bioengineering and Biotechnology
Acceso en línea:	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9597311/ https://www.ncbi.nlm.nih.gov/pubmed/36312536 http://dx.doi.org/10.3389/fbioe.2022.968342

Ejemplares similares

A Novel Methodology for Characterizing Cell Subpopulations in Automated Time-lapse Microscopy
por: Hattab, Georges, et al.
Publicado: (2018)

Revealing the nanometric structural changes in myocardial infarction models by time-lapse intravital imaging
por: Kuo, Chiung Wen, et al.
Publicado: (2022)

Advanced Microfluidic Device Designed for Cyclic Compression of Single Adherent Cells
por: Ho, Kenneth K. Y., et al.
Publicado: (2018)

Bone Mechanoregulation Allows Subject-Specific Load Estimation Based on Time-Lapsed Micro-CT and HR-pQCT in Vivo
por: Walle, Matthias, et al.
Publicado: (2021)

Mechanostat parameters estimated from time-lapsed in vivo micro-computed tomography data of mechanically driven bone adaptation are logarithmically dependent on loading frequency
por: Marques, Francisco C., et al.
Publicado: (2023)

Droplets microfluidics platform—A tool for single cell research
por: Li, Bixuan, et al.
Publicado: (2023)

Microfluidics for Biotechnology: Bridging Gaps to Foster Microfluidic Applications
por: Ortseifen, Vera, et al.
Publicado: (2020)

Real-Time Monitoring of Dissection Events of Single Budding Yeast in a Microfluidic Cell-Culturing Device Integrated With Electrical Impedance Biosensor
por: Zhu, Zhen, et al.
Publicado: (2021)

Advanced Microfluidic Models of Cancer and Immune Cell Extravasation: A Systematic Review of the Literature
por: Mondadori, Carlotta, et al.
Publicado: (2020)

Spatial Manipulation with Microfluidics
por: Lin, Benjamin, et al.
Publicado: (2015)

Microfluidic Encapsulation of Single Cells by Alginate Microgels Using a Trigger-Gellified Strategy
por: Shao, Fei, et al.
Publicado: (2020)

Terahertz time-domain attenuated total reflection spectroscopy integrated with a microfluidic chip
por: Fu, Ying, et al.
Publicado: (2023)

Measuring cell deformation by microfluidics
por: An, Ling, et al.
Publicado: (2023)

Investigating the physiology of viable but non-culturable bacteria by microfluidics and time-lapse microscopy
por: Bamford, Rosemary A., et al.
Publicado: (2017)

Probing Single-Cell Macrophage Polarization and Heterogeneity Using Thermo-Reversible Hydrogels in Droplet-Based Microfluidics
por: Tiemeijer, B. M., et al.
Publicado: (2021)

Timely delivery of cardiac mmRNAs in microfluidics enhances cardiogenic programming of human pluripotent stem cells
por: Contato, Anna, et al.
Publicado: (2022)

Light-Addressable Potentiometric Sensors in Microfluidics
por: Li, Xueliang, et al.
Publicado: (2022)

Recent progress of microfluidic chips in immunoassay
por: Wu, Kaimin, et al.
Publicado: (2022)

Editorial: Particle manipulation in microfluidic devices
por: Paiè, P., et al.
Publicado: (2022)

Bright Dots and Smart Optical Microscopy to Probe Intracellular Events in Single Cells
por: Fujita, Hideaki, et al.
Publicado: (2019)

Optimization of Mechanical Tissue Dissociation Using an Integrated Microfluidic Device for Improved Generation of Single Cells Following Digestion
por: Aliaghaei, Marzieh, et al.
Publicado: (2022)

Massive and efficient encapsulation of single cells in monodisperse droplets and collagen–alginate microgels using a microfluidic device
por: Liu, Dan, et al.
Publicado: (2023)

Design and Validation of a Human Brain Endothelial Microvessel-on-a-Chip Open Microfluidic Model Enabling Advanced Optical Imaging
por: Salman, Mootaz M., et al.
Publicado: (2020)

Application of Microfluidics in Detection of Circulating Tumor Cells
por: Li, Can, et al.
Publicado: (2022)

Overcoming technological barriers in microfluidics: Leakage testing
por: Silverio, Vania, et al.
Publicado: (2022)

Long-term time-lapse microscopy of C. elegans post-embryonic development
por: Gritti, Nicola, et al.
Publicado: (2016)

Biomimetic Microfluidic Platforms for the Assessment of Breast Cancer Metastasis
por: Sigdel, Indira, et al.
Publicado: (2021)

An In Vitro Microfluidic Alveolus Model to Study Lung Biomechanics
por: Kumar, Vardhman, et al.
Publicado: (2022)

Challenge of material haemocompatibility for microfluidic blood-contacting applications
por: Newman, Gwenyth, et al.
Publicado: (2023)

Magnetic Force-Based Microfluidic Techniques for Cellular and Tissue Bioengineering
por: Yaman, Sena, et al.
Publicado: (2018)

Powerful CRISPR-Based Biosensing Techniques and Their Integration With Microfluidic Platforms
por: Chen, Bing, et al.
Publicado: (2022)

Microfluidic Point-of-Care Testing: Commercial Landscape and Future Directions
por: Sachdeva, Shivangi, et al.
Publicado: (2021)

Modeling Neurodegenerative Diseases Using In Vitro Compartmentalized Microfluidic Devices
por: Miny, Louise, et al.
Publicado: (2022)

Digital microfluidics-engaged automated enzymatic degradation and synthesis of oligosaccharides
por: Sun, Yunze, et al.
Publicado: (2023)

Deep learning with microfluidics for on-chip droplet generation, control, and analysis
por: Sun, Hao, et al.
Publicado: (2023)

Corrigendum: Challenge of material haemocompatibility for microfluidic blood-contacting applications
por: Newman, Gwenyth, et al.
Publicado: (2023)

Towards a Quantitative Single Particle Characterization by Super Resolution Microscopy: From Virus Structures to Antivirals Design
por: Arista-Romero, Maria, et al.
Publicado: (2021)

A Microfluidic System for Studying the Effects of Disturbed Flow on Endothelial Cells
por: Tovar-Lopez, Francisco, et al.
Publicado: (2019)

Microfluidics combined with fluorescence in situ hybridization (FISH) for Candida spp. detection
por: Barbosa, Violina Baranauskaite, et al.
Publicado: (2022)

Leveraging microfluidic dielectrophoresis to distinguish compositional variations of lipopolysaccharide in E. coli
por: Wang, Qianru, et al.
Publicado: (2023)

Cannot write session to /tmp/vufind_sessions/sess_cf5r8nqak6ndfkou1kump3m2sl