MindEx: A Novel, Multifocal, Cognitive Brain-Machine Interface System

Conditions

• Paralysis; Quadriplegic

Eligibility Criteria

Sex

ALL

Age

18 Years - 65 Years

Healthy Volunteers

Not accepted

Interventions

• Mind Extender (MindEx) — DEVICE
  NeuroPort Multi-Port Arrays allow for the local recording of cerebral cortex. The Mind Extender (MindEx) system is primarily composed of two NeuroPort Multi-Port Arrays. Each Multi-Port device consists of two arrays, each with 100 electrodes in a 10 x 10 configuration, with dimensions 4 mm x 4 mm x 1.5 mm (W x H x D), and a titanium percutaneous connector, 19 mm diameter at the base. Each MultiPort can have a total of 128 active channels (capable of transmitting neural signals to the percutaneous connector) across the two arrays. In our design, we will split active channels evenly between the two arrays resulting in 64 active channels per array. The four arrays of the two Multi-Port device will be implanted into prefrontal cortex, premotor cortex, primary motor cortex, and posterior parietal cortex.

Study Details

This research study is being done to develop a novel brain-computer interface (BCI) technology that can enable severely paralyzed individuals to interact with the world through direct brain-control of a computer. This technology is named MindEx (for Mind Extender). It utilizes four implanted "chips" in the human brain from which investigators can record brain activity during subjects' thoughts and decode meaningful information from this activity to be used as control signals for a computer, a laptop, or a tablet. The use of four brain regions is a significant differentiating feature and scientific innovation of this study over much prior work in this space, that typically derived control signals from one, or sometimes two brain regions. The brain regions to be used here can allow the decode of multiple variables simultaneously, including not just moment-to-moment position, but also high-level goals, intentions, decisions, scene comprehension, and error-related signals involved in natural human behavior. The research is being done through a prospective, longitudinal, single-arm early feasibility study to examine the safety and effectiveness of using MindEx to provide the user an intuitive, efficient, and accurate ability to control multiple applications on a computer interface such as a word processor, a paint application, or to play simple video games. Such versatility could greatly improve the autonomy and quality of life of severely paralyzed individuals. Two subjects will be enrolled, each implanted with MindEx for a period of at least 53 weeks and up to 313 weeks. The study is expected to take at least one year and up to six years in total.

Key Dates

Start date

Feb 20, 2026

Status verified

Mar 2026

Primary completion

May 30, 2030

Completion

Sep 1, 2031

Study Design

Enrollment

2 participants (estimated)

Allocation

NA

Intervention model

SINGLE_GROUP

Primary purpose

DEVICE_FEASIBILITY

Arms

• Experimental: Mind Extender (MindEx)
  MindEx consists of two Neuroport Multi-Port Arrays, described in detail in the intervention description. Each NeuroPort Multi-Port Array comprises two electrode arrays implanted into human brain tissue, for a total of four electrode arrays. These will be in 1) prefrontal cortex, a brain area involved in scene comprehension, action selection, and error signaling, 2) premotor cortex, a brain area involved in planning ongoing and upcoming actions, 3) posterior parietal cortex, a brain area involved in processing sensory-to-motor transformations during movements, and 4) primary motor cortex, responsible for controlling movement. The pair of electrode arrays in each NeuroPort Multi-Port Array connect to a single percutaneous pedestal attached to the skull during a surgical procedure. Following recovery from the surgical placement, subjects will participate in study sessions up to 5 times a week. They will learn to use thought to control applications on a computer, a laptop, or a tablet.

Primary Outcome Measure

Continuous trajectory decoding [ Time Frame: Six years after array implantation ]

Central Contacts

• Aniah Daniels, BS
  214-645-8003
  [email protected]
• Nader Pouratian, MD, PhD
  214-645-5465
  [email protected]

Locations (1)

Find similar trials in Dallas, TX