Maestro Pro

The Maestro Pro microelectrode array (MEA) system is designed to advance electrophysiology studies, offering detailed analysis of up to 96 wells simultaneously. This bioelectronic platform is versatile and user-friendly, compatible with all modules and plate types, making it a premier choice in laboratories worldwide.

Using sensitive, label-free electrodes, the Maestro Pro enables researchers to investigate cell functionality effectively. The system is powered by the latest BioCore technology, ensuring reliable and high-quality data that enhances functional analysis and accelerates research.

Key Functionalities

• Network firing
• Burst analysis
• Synchrony and spiking
• Organoids and spheroids
• Cardiac field potentials and contractility
• Electrical and optical stimulation
• Microfluidics and local field potentials
• Tissue explants and co-cultures
• Statistical data export and publication-ready figures

Features like 360° CO2, multizone heating, and electrical shielding are engineered for high-quality data acquisition, ensuring optimal experimental outcomes. The Maestro Pro allows real-time plate-wide recording with options for specialty plates, offering flexibility and control over experimental designs.

Additional Benefits

• Cross-compatibility with the Omni imaging platform for comprehensive live-cell imaging and real-time data analysis.
• Barcode tracking through the Axion Portal ensures consistent and quality results.

The system simplifies the measurement of cellular activities like action potentials via noninvasive electrodes and provides easy data analysis through the AxIS software, culminating in publication-ready figures. The system is customizable with options for software and accessories to tailor experiments to specific research needs.

Maestro Pro is suitable for various applications, including studying neural networks, evaluating antiviral effects, monitoring cell barrier integrity, analyzing cardiomyocyte function, and assessing cell viability and cytotoxicity. It supports diverse research into disease models like Alzheimer's, ALS, and autism spectrum disorders.