The MED64 is widely used in studies of the central and peripheral nervous system as well as cardiac and other muscle preparations. Hundreds of publications provide evidence of the variety of applications. The MED64 is well-suited for experiments on acute tissue preparations or cultures and provides a powerful solution for drug testing due to its easy-to-use and reliable data-reproducibility.

Neuroscience

Higher throughput micro-electrode array to investigate of role of NMDA receptor in synaptic plasticity in acute brain slices

Read more

Studies for antiepileptic drug targets on acute brain slices using medium throughput MEA system

Read more

Drug Effects On SCN Neurons

Read more

Recording Of Single Unit Activities From Substantia Nigra

Read more

Single unit activities from spinal cord slices

Read more

Chronic Drug Effects On Cultured Rat Hippocampal Slices

Read more

Longevity Of LTP In Cultured Hippocampal Slices

Read more

Spontaneous Activities From Cultured Cerebellum

Read more

Recording From DRG Neurons

Read more

Effects of capsaicin on DRG neuron firing
Rat DRG neurons are cultured on a MED Probe (4 days in culture) and changes of spontaneous firings with temperature variation and administration of Capsaicin is observed.

Read more

Circadian Activities

Read more

Stem-Cell

In vitro Micro-electrode array assay for evaluating in vivo-like convulsive activity in hiPSC-derived neuron and astrocyte co-culture

Read more

Functional characterization of human induced pluripotent stem cell-derived sensory neurons using a high-sensitivity micro-electrode array

Read more

Neurotoxicology screening using a high-sensitivity MEA platform

Read more

Drug Effects On iPSC-derived Neurons

Read more

Evaluation of anti-epilepsy drug effects on iPSC-derived neurons
Induction and suppression of epileptiform activities are examined using the MED64.

Read more

Long‐term potentiation and depression phenomena in human induced pluripotent stem cell‐derived cortical neurons

Read more

Evaluation Of Drug Induced Prolongation For Field Potential Duration With Ipsc-Derived Cardiomyocytes

Read more

Signal Propagation For Paced Activity From iPSC-derived Cardiomyocytes

Read more

Cardiac

Paced Activities Obtained From Left Atrium

Read more

Drug Effects On Acute Ventricular Muscle

Read more

Spread Of Pacemaker Activity Along Circular Muscle

Read more

Would you like to discover MED64?

MED64: Record important extracellular signals that can be hidden by other systems!

Would you like additional information?

I agree to the terms and conditions

I agree to the GDPR

Need help finding the right product?
Get in touch
+1 (844) 454-3399