Brain-computer interface related software and hardware product development and production


KEDOUBC Newly LaunchedCommercial UseIn Vitro MEA-3D Microneedle Electrode, adopting an innovative design of 3D microneedle tips to achieve electrophysiological signal acquisition from ex vivo tissues, organ slices, organoids, and cells.
High Spatiotemporal Resolution
The electrodes adopt a 3D microneedle form. Compared with traditional 2D electrodes, the tips directly penetrate into the tissue, enabling the acquisition of signal types such as local field potentials and spikes, which enhances the spatiotemporal resolution quality of electrical signals.
Super Strong Adaptation
Electrode WireDiameterOnly 25 μm,Thread Length(250-2000 μm) andArraySpacing (200-400 μm), with up to 16-128 channels,Achieve flexible and precise tissue contact to fully meet the needs of high-precision electrophysiological research.
Immediate Cutting and Sampling
Before the experimentNo need to spray or pre-culture the bottom of the electrode dish., whether it isLiving brain slices or brain-like organs, cell tissues, which can be placed on the electrode to obtain stable cell signals, significantlyReduce Experimental Difficulty and Cost。

Long-term Compatibility
Electrode contacts adoptBiocompatibilityHigh-quality nickel-titanium alloy wire can be used not only for instant recording but also for long-term cell culture or in vivo implantation monitoring.
Modular Design
The electrodes adopt a modular design, which can be flexibly customized based on different research needs in terms of the number of electrode channels, wire length, array spacing, brain regions, etc., and can also perform acquisition and stimulation for different experimental subjects.

Application Scenarios of MEA-3D Microneedle Array Electrodes

The multi-modal integrated electrophysiological system for signal acquisition and stimulation, paired with KEDOUBC, can perform electrophysiological signal acquisition and electrical stimulation experiments on cultured cells, acute brain slices, organoids, tissues, etc.。
Research on Neurological Disease Models
Tracking the Progress of Disease Models such as Alzheimer's Disease, Parkinson's Disease, Epilepsy, and Multiple Sclerosis
Testing Potential Neuroprotective Therapies
Cell Electrophysiology and Neuronal Activity Monitoring
Recording Action Potentials and Field Potentials in Cultured Cells
Evaluate the Effects of Drugs on Cellular Electrophysiology
For Drug Screening and Safety Assessment
Cell Impedance Analysis
Electrode impedance reflects cell activity or degree of damage.
Applied to cell growth status, toxicology research
3D Cell Culture and Tissue Engineering
Using MEA for 3D cell model research is closer to the in vivo microenvironment.
Long-term Dynamic Monitoring of Tissue-level Electrophysiological Signals
KEDOUBC
Focus on Electrophysiology
KEDOUBC is committed to providing higher-quality solutions for neuroscience research. We offer:
In Vivo Electrophysiological Electrodes and Equipment
Animal Neural Microelectrode Implantation Service
Animal Physiological Electrical Stimulation Service
Animal Physiological Electrical Signal Testing
Custom Electrophysiology Experiment Services
Our services cover everything from device selection, electrode selection to implantation surgery, helping you easily meet various complex experimental needs.


Contact the KEDOUBC team immediately for more information!

Business Contact

Technical Contact

KEDOUBC Official Account

In Vivo Electrophysiology Technology QQ Communication Group
www.kedoubc.com
KEDOUBC,
Co-create a new chapter in neuroscience research with you!