THE SCIENCE

Introducing Neuro EP

A new frontier in the treatment of neurological disorders.

The brain is complex.

There are billions of inaccessible neurons and over 400 miles of blood vessels that navigate every part of the brain.

The Challenge

Damaged neurons can wreak havoc on our bodies and lives.

The Endovascular Solution

Our team has collectively spent decades studying these pathways and the application of our technology with an endovascular surgical procedure. We have solved how to deliver electronics into the wall of the blood vessel, giving us access to an unprecedented amount of data from untouched areas of the brain. Applications of Neuro EP will fundamentally change how we study, diagnose, and treat the brain.

Electrode photograph 1 SR 18 Sep21 1

Neuro EP

The science of restoring, treating, and mapping the electrical activities of the brain.

Neurointerventional Electrophysiology (Neuro EP) is a new field of medical science that combines and elevates three existing areas of research: neuroprosthetics, neuromodulation, and neurodiagnostics.

Neuroprosthestics

The restoration of a lost brain function, e.g loss of movement or vision.

Neuromodulation

The alteration of nerve activity through targeted delivery of a therapeutic stimulus, e.g. Deep Brain Stimulation (DBS).

Neurodiagnostics

The science of using electrophysiology to monitor the functional integrity of neural structures, e.g. brain injury biomarkers.

180,000,0001

People with severe disabilities

1. World Health Organization Fact Sheets

Our Research

Peer-reviewed articles and publications from the industry offering insights, data, and more.

JNIS

Motor neuroprosthesis implanted with neurointerventional surgery improves capacity for activities of daily living tasks in severe paralysis: first in-human experience

Oxley TJ, et al. J NeuroIntervent Surg 2020;0:1–7. doi:10.1136/neurintsurg-2020-016862

Nature Biotechnology

Minimally invasive endovascular stent-electrode array for high-fidelity, chronic recordings of cortical neural activity.

Oxley TJ, Opie NL, John SE, Rind G, Ronayne SM, Wheeler TL, Judy JW, McDonald AJ, Dornom A, Lovell TJH, Steward C, Garrett DJ, Moffat BA, Lui EH, Yassi N, Campbell BCV, Wong YT, Fox KE, Nurse ES, Bennett IE, Bauquier SH, Liyanage KA, van der Nagel NR, Perucca P, Ahnood A, Gill KP, Yan B, Churilov L, French CR, Desmond PM, Horne MK, Kiers L, Prawer S, Davis SM, Burkitt AN, Mitchell PJ, Grayden DB, May CN, O’Brien TJ. Nature Biotechnology, 34(1), pp.320–327.

Nature Biomedical Engineering

Focal stimulation of the sheep motor cortex with a chronically implanted minimally invasive electrode array mounted on an endovascular stent

Opie NL, John SE, Rind GS, Ronayne SM, Wong YT, Gerboni G, Yoo PE, Lovell TJH, Scordas TCM, Wilson SL, Dornom A, Vale T, O’Brien TJ, Grayden DB, May CN, Oxley TJ. Nature Biomedical Engineering, vol. 2, pp. 907.

Learn more about how we’re applying Neuro EP to create transformative medical technologies.