World Precision Instruments (WPI), a global leader in transepithelial electrical resistance (TEER) instrumentation, and SynVivo Inc., a pioneer in Organ-on-a-Chip (OOC) technology, announced the commercial launch of a next-generation multiplexed TEER-on-a-Chip platform—a breakthrough solution enabling real-time, high-throughput measurement of barrier integrity in advanced Organ-on-a-Chip models.
The co-developed platform integrates WPI's gold-standard EVOM™ measurement technology with SynVivo's SynTEER™ multiplexed OOC models with embedded electrodes, providing researchers with a seamless solution for performing TEER measurements directly within microfluidic chips. Initially validated on SynVivo's advanced SynBBB™ Blood-Brain Barrier model, this is the first in a planned series of Organ-on-a-Chip platforms powered by the new EVOM-Chip™ system from WPI.
With electrodes embedded directly into SynVivo's SynTEER™ multiplexed OOC models researchers can now perform real-time TEER measurements across multiple channels—enabling continuous barrier monitoring, streamlined workflows, and improved reproducibility. The EVOM-Chip™ system allows for hands-free, simultaneous data collection, and remains fully compatible with live-cell imaging and physiologically relevant flow conditions.
"This collaboration represents a major advancement in functional barrier modeling," said Gwen Fewell, President & CEO of SynVivo Inc. "Integrating TEER measurement directly into our chip enhances data fidelity, reduces variability, and streamlines experimental workflows—key to enabling more predictive, standardized and scalable in vitro models. By combining our vascularized OOC technology with WPI's industry-leading TEER measurement expertise, we're delivering a powerful solution for researchers tackling complex questions in CNS drug development, inflammation, and drug discovery."
WPI's EVOM™ family of TEER instrumentation has set the standard for barrier function assessment for over 30 years. SynVivo's SynTEER™ platform builds on this legacy with pre-integrated, precisely aligned electrodes designed to optimize TEER signal fidelity across a range of Organ-on-a-Chip applications.
As the OOC market rapidly grows, it continues to face challenges around standardization and automation, both of which are essential for mainstream adoption in pharmaceutical research. "A critical gap has been the ability to perform on-chip, non-destructive sensing—particularly TEER measurements—a need shared by the majority of OOC platforms but rarely implemented successfully or in a multiplex fashion," explains Mark Rutledge, CEO of WPI. "With EVOM™ Chip, researchers can monitor their OOC platforms from cell seeding through barrier formation, as well as before, during and after drug treatment, to get accurate and reproducible readouts, without affecting the health or well-being of the cells."
The system's initial application on the SynBBB™ Blood-Brain Barrier platform has demonstrated a strong correlation between electrical resistance and functional barrier properties, supporting its use in CNS drug development, inflammation studies, and neurovascular research.
ABOUT WORLD PRECISION INSTRUMENTS:
For over 55 years, World Precision Instruments (WPI) has been a leading global manufacturer and provider of innovative research equipment and laboratory supplies to the life sciences, pharmaceutical, health care, and industrial markets. Our proven technology supports complex model development, including preclinical models and organ-on-a-chip systems, providing researchers with the tools to identify and validate drugs to understand mechanism of action, dosage, administration, drug-drug interactions, patient-specific reactions, pharmacokinetics, pharmacodynamics, safety and efficacy. Our areas of innovation focus on tissue and cell biology, fluidics, animal physiology and electrophysiology. With an extensive global network and a passion for innovation, WPI provides novel solutions to customers' daily challenges.
For more information, please visit www.wpiinc.com.
