Clinical Study
Clinical Study

Intention

Communication

Sensation

Creation

Transformation

Intention

Communication

Sensation

Creation

Transformation

Intention

Communication

Sensation

Creation

Transformation

Neural activity is the substrate of the human experience, and we are developing a scalable brain-computer interface (BCI) platform that reads and writes neural activity.

Today, our BCI will restore communication and enable computer control for people who need it most. But we won't stop there. We will continue iterating on our platform, building BCIs of increasing performance and safety, and taking on new areas for functional restoration. These raw capabilities, combined with AI-enabled user applications, will allow some BCI users to do things that no other humans can do. Our goal is to develop systems that are so capable, so safe, and so seamless, that people want them.

Neural activity is the substrate of the human experience, and we are developing a scalable brain-computer interface (BCI) platform that reads and writes neural activity.

Today, our BCI will restore communication and enable computer control for people who need it most. But we won't stop there. We will continue iterating on our platform, building BCIs of increasing performance and safety, and taking on new areas for functional restoration. These raw capabilities, combined with AI-enabled user applications, will allow some BCI users to do things that no other humans can do. Our goal is to develop systems that are so capable, so safe, and so seamless, that people want them.

Neural activity is the substrate of the human experience, and we are developing a scalable brain-computer interface (BCI) platform that reads and writes neural activity.

Today, our BCI will restore communication and enable computer control for people who need it most. But we won't stop there. We will continue iterating on our platform, building BCIs of increasing performance and safety, and taking on new areas for functional restoration. These raw capabilities, combined with AI-enabled user applications, will allow some BCI users to do things that no other humans can do. Our goal is to develop systems that are so capable, so safe, and so seamless, that people want them.

Neural activity is the substrate of the human experience, and we are developing a scalable brain-computer interface (BCI) platform that reads and writes neural activity.

Today, our BCI will restore communication and enable computer control for people who need it most. But we won't stop there. We will continue iterating on our platform, building BCIs of increasing performance and safety, and taking on new areas for functional restoration. These raw capabilities, combined with AI-enabled user applications, will allow some BCI users to do things that no other humans can do. Our goal is to develop systems that are so capable, so safe, and so seamless, that people want them.

Neural activity is the substrate of the human experience, and we are developing a scalable brain-computer interface (BCI) platform that reads and writes neural activity.

Today, our BCI will restore communication and enable computer control for people who need it most. But we won't stop there. We will continue iterating on our platform, building BCIs of increasing performance and safety, and taking on new areas for functional restoration. These raw capabilities, combined with AI-enabled user applications, will allow some BCI users to do things that no other humans can do. Our goal is to develop systems that are so capable, so safe, and so seamless, that people want them.

The Paradromics Difference

Higher data rates enable broader applications

Our current BCI platform has demonstrated an information transfer rate of 200 bits per second, which is currently 20x faster than any other interface. In a world where higher and more complex applications require ever increasing data rates, we are the leaders, and our core architecture is our competitive advantage, allowing us to scale to even higher data rates with each new device generation.

Device longevity supports broad adoption

No one should have to undergo multiple brain surgeries because their device stops working. Made of durable biocompatible materials, our device is designed to last for decades. We believe building a high-quality device, built to last, will ultimately garner more adoption and faster growth.

Minimal distribution friction with low hospital investment and surgeon familiarity

Our BCI is designed with familiar clinical practices and hospital economics in mind. Trained neurosurgeons implant our device within commonly practiced and existing workflows, lending comfort to patients and broader availability.

Explore Connexus®

Current & Future Applications

Our modular architecture supports application expansion

The ability to connect multiple high-performing modules to different regions of the brain will unlock new applications and allow for interfaces that serve multiple functions simultaneously.
TODAY

Restoring lost connections

  • Communication
  • Advanced computer control
TOMORROW

Enabling new frontiers

  • Precision control of prosthetics and humanoid robotics
  • Targeted neuromodulation
  • Sensory restoration and augmentation
  • Cognitive interfaces
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Our BCI platform will lead to life-changing therapies

and unprecedented capabilities for human-technology integration.

Our Products

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Connexus® BCI

For real-time, reliable communication.

Status: Approved for Clinical Study

Disclaimer: Connexus BCI is an investigational device limited by United States law to investigational use.

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TempoTM BCI

Advanced applications for active-life users.

Status: pre-clinical-trial Phase

Disclaimer: Tempo BCI is in a pre-clinical-trial phase.

Learn More