High-density Multielectrode Arrays for high-resolution neuronal responses
More Data, Better Precision
Our high-density Multi Electrode Array (MEA) assay service provides precise, detailed electrophysiological readouts with increased robustness, helping you make confident decisions based on solid, reliable data.
Applications
Our Multielectrode Array-based assays provide critical insights across various research areas:
✔ Disease Modelling – Study neurodevelopmental and neurodegenerative disease mechanisms.
✔ Drug Discovery – Evaluate cellular responses to compounds for efficacy studies.
✔ Phenotyping – Track cellular development and responses over weeks or months.
✔ Toxicology – Assess compound safety and toxicity levels.
Capture More Data, Gain Deeper Insights
with 26,400 measurement points per well, we provide precise, detailed readouts, with increased robustness for strengthening conclusions for more confident decision-making in CNS drug development.
Faster Insights from Co-Culture functionality
Our co-culture system of neurons and astrocytes speeds up neuronal maturation, enabling earlier functional assays. This may shorten experimental timelines and deliver rapid robust insights for disease modelling and drug screening, without compromising data quality.
Comprehensive functional readouts for in-depth analysis
Our multielectrode array assay service offer opportunity to evaluate neuronal network, and axonal activity, providing key insights into:
• Neuronal Activity – Spiking patterns, firing rates, and excitability.
• Network Activity – Neuronal connectivity and communication.
• Axonal Signaling – Track functionality of individual axons for deeper insights.
This level of functional data analysis enhances disease modelling and drug discovery, helping researchers optimize their experimental approaches.
Astrocytes drive neuronal maturation
By growing neurons with astrocytes, they mature better, form stronger connections, and produce more reliable signals — making MEA recordings more accurate and useful for studying brain function and diseases.
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