What is MEA? - Multielectrode Array Assay
Learn more: https://www.axionbiosystems.com/multielectrode-array
What is multi-electrode array?
A multi-electrode array is a grid of tightly spaced microscopic electrodes embedded in the bottom of each well in a multi-well MEA plate. Cells, such as cardiomyocytes or neurons, which are electrically active, can be cultured over the electrodes creating a cohesive network. The functional behavior or electrical activity of this network can be recorded. These action potentials are recorded extracellularly and are known as field potentials.
Some examples of MEA applications:
Record spontaneous activity from hiPSC-derived neuronal cells upon differentiation and maturity
Cell cultures for disease modeling such as epilepsy
Drug screening or neurotoxicology studies
Functional maturity of cardiomyoctyes
How does multi-electrode array work?
Electrically active cells such as neurons or cardiomyocytes will produce an extra-cellular field potential that can be recorded. Axion’s multielectrode array (MEA) plates have a grid of tightly spaced electrodes embedded in the culture surface of each well. Electrically active cells, such as neurons or cardiomyocytes, can be cultured over the electrodes. Over time, as the cultures become established, they form cohesive networks and present an electrophysiological profile. The resulting electrical activity, spontaneous or induced firing of neurons, or the uniform beat of cardiomyocytes, is captured from each electrode on a microsecond timescale providing both temporally and spatially precise data.
Видео What is MEA? - Multielectrode Array Assay канала Axion BioSystems
What is multi-electrode array?
A multi-electrode array is a grid of tightly spaced microscopic electrodes embedded in the bottom of each well in a multi-well MEA plate. Cells, such as cardiomyocytes or neurons, which are electrically active, can be cultured over the electrodes creating a cohesive network. The functional behavior or electrical activity of this network can be recorded. These action potentials are recorded extracellularly and are known as field potentials.
Some examples of MEA applications:
Record spontaneous activity from hiPSC-derived neuronal cells upon differentiation and maturity
Cell cultures for disease modeling such as epilepsy
Drug screening or neurotoxicology studies
Functional maturity of cardiomyoctyes
How does multi-electrode array work?
Electrically active cells such as neurons or cardiomyocytes will produce an extra-cellular field potential that can be recorded. Axion’s multielectrode array (MEA) plates have a grid of tightly spaced electrodes embedded in the culture surface of each well. Electrically active cells, such as neurons or cardiomyocytes, can be cultured over the electrodes. Over time, as the cultures become established, they form cohesive networks and present an electrophysiological profile. The resulting electrical activity, spontaneous or induced firing of neurons, or the uniform beat of cardiomyocytes, is captured from each electrode on a microsecond timescale providing both temporally and spatially precise data.
Видео What is MEA? - Multielectrode Array Assay канала Axion BioSystems
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
Seizure prediction using AI and the Maestro multiwell MEA system: Coffee Break Webinar
Remodeling of human neural circuits by glioblastoma with Dr. Saritha Krishna
Meet Axion BioSystems’ Maestro Volt—the affordable MEA system for every lab
Smartphone App for tracking your live-cell assays: Maestro Z App
Multiplexed cell-based assays for evaluating the structure and function of excitable cells
Cell Plating Calculator "How-To" Guide
Advantages of evoked assays for evaluating functional neurotoxicity with multiwell MEA technology
Autism study on the Maestro multiwell MEA system: Coffee Break Webinar
Cancer treatment immunotherapy: Targeting glioblastoma with T cells
Happy Halloween: Lumos ghost
Scientists perform TEER measurements to evaluate epithelial tissue and barrier integrity in IBS
Neural Software Module on the Maestro multiwell MEA system
Fragile X study on the Maestro multiwell MEA system: Coffee Break Webinar
Complete solution for multiwell MEA hiPSC cardiomyocyte assays
Powering Neurons with Light | Optogenetics and the Maestro multielectrode array (MEA) system
Targeting EGFR to enhance NKT cell-mediated killing of lung cancer cells
Neuroimmune Assays with Axion BioSystems
Pediatric epilepsy study on the Maestro multiwell MEA system: Coffee Break Webinar
Time-lapse Organoid Formation using Axion BioSystems' Omni Live-Cell Imaging and Analysis Platform
Halloween - Zombies love mini brains
Kinetics and potency of GD2 CAR-T Cell-mediated cytolysis of glioblastoma