All Topics
All Topics
Technology
Technology
AI
AI
Business
Business
Entertainment
Entertainment
News
News
Programming
Programming
Science
Science
Design
Design
Environment
Environment
Finance
Finance
Crypto
Crypto
Politics
Politics
Sports
Sports
Education
Education
Gaming
Gaming
Art
Art
Music
Music
Health
Health
Security
Security
Books
Books
Food
Food
Travel
Travel
Personal
Personal
Bluesky
Twitter

Turning muscles into motors gives static organs new life

By

Diana Sikar

3mo agoen

Source

MITTurning muscles into motors gives static organs new lifemit.edu
Snippet from the RSS feed
A new biohybrid system developed at MIT is the first living implant that uses rewired nerves to revive paralyzed organs.

You might also wanna read

Cambridge study using lab-grown brain circuits suggests nerve regeneration may be reversible

A new study from the University of Cambridge, published in Cell Reports, used lab-grown brain circuits (organoids) to investigate nerve rege

discovermagazine.com·29d ago

Dual brain-machine interfaces restore natural movement sense for prosthetic limb users

Researchers have developed dual brain-machine interfaces that restore kinesthesia—the sense of muscle movement and joint position—for prosth

neurosciencenews.com·9d ago

Princeton researchers create 3D brain-computer hybrid device with 70,000 living neurons

Princeton University researchers have developed a 3D device that integrates roughly 70,000 living biological neurons with electronics to per

ethicalpsychology.com·22d ago

Biohybrid Robot Controlled by Living Fungus Unveiled by Engineers

Engineers have developed a biohybrid robot that uses a living fungus to move and sense its environment, potentially leading to advancements

the-independent.com·11mo ago

Injectable nanorobots fused with stem cells show promise for spinal cord injury repair

Researchers at ETH Zurich have developed injectable nanorobots fused with stem cells that respond to electromagnetic signals, showing promis

popsci.com·1mo ago

Printed artificial neurons from MoS₂ successfully trigger firing in living mouse brain cells

Researchers at Northwestern University have successfully printed artificial neurons from molybdenum disulfide (MoS₂) on flexible plastic tha

mdsc.pe·13d ago

Comments

Sign in to join the conversation.

No comments yet. Be the first.