Nanowerk

Delivering genome editing components with Lipid Nanoparticles to repair the building blocks of muscles

Scientists have developed a novel approach of genome editing to repair muscle stem (satellite) cells, offering new hope for ...
Science Daily

New and improved bioink to enhance 3D bioprinted skeletal muscle constructs

Scientists have developed a specially formulated bioink, which contains microparticles engineered for sustained delivery of insulin-like growth factor-1 (IGF-1). This delivery enhances the formation ...
Science Daily

Moving muscle fibers with magnets 'programs' how they align within tissue

Stimulating muscle fibers with magnets causes them to grow in the same direction, aligning muscle cells within tissue. The findings offer a simpler, less time-consuming way for medical researchers to ...
News-Medical.Net on MSN

Epigenetic clocks accurately predict age from human skeletal muscle

A new research paper was published in Volume 17, Issue 11 of Aging-US on November 26, 2025, titled "Epigenetic aging ...
Eureka

MIT Develops Artificial Tendons to Strengthen Biohybrid Robots

MIT engineers develop artificial hydrogel tendons to enhance strength, speed, and durability in biohybrid robotic system ...
AZoNano

Pusan National University’s Breakthrough in Muscle Regeneration: Nanotech Scaffolding Supports Tissue Growth

MXene nanoparticle scaffolds have been shown to stimulate muscle growth, making them a promising option to treat muscle loss and damage. Now, researchers from Pusan National University explain the ...
TechSpot

MIT engineers create artificial muscle that mimics real tissue

In context: Making robots more biologically compatible has been a challenge scientists have been tackling for years. Until now, they have primarily been able to create lab-grown muscle fibers that ...