Struggling with Electrode Challenges?
Medical electrode development is complex. You’re not just dealing with components—you’re navigating:
- Signal fidelity and noise reduction
- Charge injection capacity
- Required impedance
- Biocompatible tissue interfaces
- Material durability and coatings
- Complex assembly and manufacturing
- Regulatory qualification and compliance
Sensomedical bridges these gaps with proven platforms and expert services—so you can focus on innovation, not firefighting.
Our Solutions! How Can Sensomedical Help?
End-to-end electrode services:
We help you design, build, assemble, coat, treat, and manufacture advanced custom electrode systems, including:
- Neurostimulation, neuromonitoring and electrophysiology electrodes, Invasive and non-invasive
- Leads and Catheter-based electrodes
- Skin stickers based
- Dry and wet electrodes
- Cloth and Conductive textiles based
- Electrochemical, electromagnetic and electromechanical sensors
Ready-to-use technology Platforms:
Our BIOPOT, BIOSTIM, and BIOCHEM platforms are near-clinical, modular hardware devices designed for biopotential, neurostimulation, and electrophysiology medical product development. They address interface and signal fidelity challenges in both stimulation and sensing applications.
These platforms provide a strong foundation, enabling a faster transition from prototype to patient-ready products. By leveraging them, you can significantly cut R&D costs and reduce time to market.
Comprehensive in-house qualification:
From mechanical and microscopic testing to impedance, charge injection, and aging simulation—we do it all under one roof.
Applications We Support
- Neuromodulation, and neurostimulation
- EP & Neurosurgery
- EEG, EMG, ECG
- Sensor-based Microcatheters
- Cancer, oncology
- Neuro-monitoring and more
Ready to Accelerate Your Development?
Schedule your free consultation today
Meet Our Experts!
With over 23 years of pioneering work in medical device development, specializing in invasive and non-invasive medical devices, neurotechnology, electrophysiology, and biochemical sensing. His advanced knowledge also spans neurostimulation, electrode design, brain-computer interfaces, and lots more, making him a trusted leader in the field.