Skip to Content
800-533-8762
  • Careers
  • Newsroom
  • Health Care Professionals
  • About Us
  • Contact Us
UPMC
  • Find a Doctor
  • Services
    • Frequently Searched Services
    • Frequently Searched Services
      Allergy & Immunology Behavioral & Mental Health Cancer Ear, Nose & Throat Endocrinology Gastroenterology Heart & Vascular Imaging Neurosciences Orthopaedics
      Physical Rehabilitation Plastic & Reconstructive Surgery Primary Care Senior Services Sports Medicine Telemedicine Transplant Surgery Walk-In Care Weight Management Women’s Health
      See all Services
    • Services by Region
    • Find a UPMC health care facility close to you quickly by browsing by region.
      UPMC in Western Pa. Western Pa. and New York
      UPMC in Central Pa. Central Pa.
      UPMC in North Central Pa. North Central Pa.
      UPMC in Western Md. Maryland & West Virginia
    • See All Services
  • Locations
    • Locations by Type
    • Locations by Type
      UPMC hospitals
      Hospitals
      Physical Therapy
      Physical Therapy
      Urgent care
      Walk-In Care
      UPMC Outpatient Centers
      Outpatient Centers
      UPMC Imaging Services
      Imaging
      Community Health Centers
      Community Health Centers
      See All Locations
    • Locations by Region
    • Locations by Region
      UPMC in Southwest Pa. Southwest Pa.
      UPMC in North Central Pa. North Central Pa.
      UPMC in Northwest Pa and Ny. Northwest Pa. & Western N.Y.
      UPMC in West Central Pa. West Central Pa.
      UPMC in Central Pa. Central Pa.
      UPMC in Western Md. Maryland & West Virginia
    • See All Locations
  • Patients & Visitors
    • Patient & Visitor Resources
    • Patient & Visitor Resources
      Patients and Visitors Resources Pay a Bill Classes & Events Medical Records Health Library Patient Information
      Patient Portals Privacy Information Shared Decision Making Traveling Patients Visitor Information
      Man uses mobile phone
      Pay a Bill
      Nurse reviews medical chart
      Request Medical Records
  • Patient Portals
  • Find Covid-19 updates
  • Schedule an appointment
  • Request medical records
  • Pay a bill
  • Learn about financial assistance
  • Find classes & events
  • Send a patient an eCard
  • Make a donation
  • Volunteer
  • Read HealthBeat blog
  • Explore UPMC Careers
Skip to Content
UPMC
  • Patient Portals
  • For Patients & Visitors
    • Find a Doctor
    • Locations
    • Patient & Visitor Resources
    • Pay a Bill
    • Services
    • More
      • Medical Records
      • Financial Assistance
      • Classes & Events
      • HealthBeat Blog
      • Health Library
  • About UPMC
    • Why UPMC
    • Facts & Stats
    • Supply Chain Management
    • Community Commitment
    • More
      • Financials
      • Support UPMC
      • UPMC Apps
      • UPMC Enterprises
      • UPMC International
  • For Health Care Professionals
    • Physician Information
    • Resources
    • Education & Training
    • Departments
    • Credentialing
  • Careers
  • Contact Us
  • Newsroom
  • UPMC >
  • Media Relations >
  • News Releases >
  • 011625 brain computer interface
Media Relations
News Releases
Central Pa. News
North Central Pa. News
Contact Us
Experts
Community-Focused News
Media Kits
Media RSS
Media Relations
News Releases
Central Pa. News
North Central Pa. News
Contact Us
Experts
Community-Focused News
Media Kits
Media RSS

Chat Keywords List

  • cancel or exit: Stops your conversation
  • start over: Restarts your current scenario
  • help: Shows what this bot can do
  • terms: Shows terms of use and privacy statement
  • feedback: Give us feedback
Continue
Chat with UPMC
RESTART
MENU
CLOSE

Fine-tuned Brain-Computer Interface Makes Prosthetic Limbs Feel More Real

For Journalists

Anastasia (Ana) Gorelova
Senior Manager, Science Writing
412-647-9966
gorelovaa@upmc.edu

Liz Reid
Manager
412-514-7866
reide4@upmc.edu

Want to Make an Appointment or Need Patient Information?
Contact UPMC at

1-800-533-8762.

Go to Find a Doctor to search for a UPMC doctor.

2023 PITT HS

1/16/2025

PITTSBURGH – Scientists at the University of Pittsburgh Rehab Neural Engineering Labs played a key role in progressing neuroprosthetic brain-computer interface (BCI) technology that enables people to feel the shape and movement of objects over the "skin" of a bionic hand. 

New studies in Nature Biomedical Engineering and Science document major progress of a technology designed to recreate realistic tactile feedback to prosthetic hands by direct, carefully timed electrical stimulation of the brain. 

Led by the University of Chicago, the group also included scientists and engineers at Northwestern University, Case Western Reserve University and Blackrock Neurotech. Together they are designing, building, implementing and refining BCI devices and robotic prosthetic arms that could restore both movement control and sensation in people who have lost significant limb function.Rob Gaunt

“We hope to integrate the results of these two studies into our robotics systems, where we have already shown that even simple stimulation strategies can improve people’s abilities to control robotic arms with their brains,” said co-author Robert Gaunt, Ph.D., associate professor of physical medicine and rehabilitation and lead of the stimulation work at Pitt.

The researchers’ approach to prosthetic sensation involves placing tiny electrode arrays in the parts of the brain responsible for moving and feeling the hand. On one side of the brain, the arrays enable a participant to move a robotic arm by simply thinking about movement. In the other side of the brain dedicated to touch, feedback from sensors on the robotic limb can trigger pulses of electrical activity called intracortical microstimulation, producing a tactile sensation.

In the Nature Biomedical Engineering study, published last December, scientists focused on ensuring that electrically evoked touch sensations were stable, accurately localized and strong enough to be useful for everyday tasks. The testing revealed that when two closely spaced electrodes were stimulated together, participants felt a stronger, clearer touch, which improved their ability to locate and gauge pressure on the correct part of the hand. The researchers also conducted exhaustive tests to confirm that the same electrode consistently created a sensation corresponding to a specific location.

The complementary Science paper, published this week, went a step further to make artificial touch even more immersive and intuitive. After identifying pairs or clusters of electrodes whose “touch zones” overlapped, the scientists activated them in carefully orchestrated patterns to generate sensations that progressed across the sensory map, creating sensations that could let users feel the boundaries of an object or the motion of something sliding along their skin.

These advancements help move bionic feedback closer to the precise, complex, adaptive abilities of natural touch, paving the way for prosthetics that enable confident handling of everyday objects and responses to shifting stimuli. The researchers hope that as electrode designs and surgical methods continue to improve, the coverage across the hand will become even finer, enabling more lifelike feedback.

The work at the University of Chicago and at Pitt was supported by the National Institute of Neurological Disorders and Stroke of the National Institutes of Health (grants UH3 NS107714 and R35 NS122333).

“Evoking stable and precise tactile sensations via multi-electrode intracortical microstimulation of the somatosensory cortex” was published in Nature Biomedical Engineering in December 2024. Authors include Charles M. Greenspon, Giacomo Valle, Natalya D. Shelchkova, Thierri Callier, Ev I. Berger-Wolf, Elizaveta V. Okorokova, Efe Dogruoz, Anton R. Sobinov, Patrick M. Jordan, Emily E. Fitzgerald, Dillan Prasad, Ashley Van Driesche, Qinpu He, David Satzer, Peter C. Warnke, John E. Downey, Nicholas G. Hatsopoulos and Sliman J. Bensmaia from the University of Chicago; Taylor G. Hobbs, Ceci Verbaarschot, Jeffrey M. Weiss, Fang Liu, Jorge Gonzalez-Martinez, Michael L. Boninger, Jennifer L. Collinger and Robert A. Gaunt from the University of Pittsburgh; Brianna C. Hutchison, Robert F. Kirsch, Jonathan P. Miller, Abidemi B. Ajiboye, Emily L. Graczyk, from Case Western Reserve University; Lee E. Miller from Northwestern University; and Ray C. Lee from Schwab Rehabilitation Hospital.

“Tactile edges and motion via patterned microstimulation of the human somatosensory cortex” was published in Science in January 2025. Authors include Giacomo Valle, now at Chalmers University in Sweden; Ali H. Alamri, John E. Downey, Patrick M. Jordan, Anton R. Sobinov, Linnea J. Endsley, Dillan Prasad, Peter C. Warnke, Nicholas G. Hatsopoulos, Charles M. Greenspon and Sliman J. Bensmaia from the University of Chicago; Robin Lienkämper, Michael L. Boninger, Jennifer L. Collinger and Robert A. Gaunt from the University of Pittsburgh; and Lee E. Miller from Northwestern University.


PHOTO DETAILS: click image for high-res version

CREDIT: UPMC and Pitt Health Sciences

CAPTION: Robert Gaunt, Ph.D.

UPMC
200 Lothrop Street Pittsburgh, PA 15213

412-647-8762 800-533-8762

Patients And Visitors
  • Find a Doctor
  • Locations
  • Pay a Bill
  • Patient & Visitor Resources
  • Disabilities Resource Center
  • Services
  • Medical Records
  • No Surprises Act
  • Price Transparency
  • Financial Assistance
  • Classes & Events
  • Health Library
Health Care Professionals
  • Physician Information
  • Resources
  • Education & Training
  • Departments
  • Credentialing
Newsroom
  • Newsroom Home
  • Inside Life Changing Medicine Blog
  • News Releases
About
  • Why UPMC
  • Facts & Stats
  • Supply Chain Management
  • Community Commitment
  • Financials
  • Supporting UPMC
  • HealthBeat Blog
  • UPMC Apps
  • UPMC Enterprises
  • UPMC Health Plan
  • UPMC International
  • Nondiscrimination Policy
Life changing is...
Follow UPMC
  • Contact Us
  • Website/Email Terms of Use
  • Medical Advice Disclaimer
  • Privacy Information
  • Active Privacy Alerts
  • Sitemap
© 2025 UPMC I Affiliated with the University of Pittsburgh Schools of the Health Sciences Supplemental content provided by Healthwise, Incorporated. To learn more, visit healthwise.org
Find Care
Providers
Video Visit
Portal Login