An octopus-shaped nanomachine hijacks tumor ATP leakage to power a self-amplifying cycle of membrane damage, drug delivery, and metabolic collapse in cancer cells.

Directly transferring healthy mitochondria or cytoplasmic components into target cells is particularly relevant for regenerative medicine.

Researchers at Kumamoto University have achieved a world-record power density for eco-friendly graphene oxide fuel cells. By pioneering a new "interface engineering" technique using a targeted acid ...

WEST LAFAYETTE – Purdue University researcher Andrea Kasinski is developing a new class of cancer drugs using microRNAs, ...

Creating artificial systems that mimic the functioning of cells is one of the goals of what is known as synthetic biology.

Researchers at the University of New South Wales have redesigned the internal plumbing of hydrogen fuel cells to tackle one ...

Growing antimicrobial resistance is prompting renewed interest in phage therapy, with preliminary data indicating improved outcomes when combined with standard antibiotics.

A UAB research team defines the criteria these immunotherapies must meet to advance both conceptually and in trials, which ...

A review highlighted the potential of CAR therapies to treat neurodegenerative disorders. Key challenges include targeting diverse protein aggregates and avoiding toxicity. However, the review ...

On March 12, 2026, the first implant of the ProStyle M(R) Transcatheter Mitral Valve System (ProStyle M(R) ) was successfully completed under pure ultrasound guidance as part of its confirmatory ...

KingstronBio takes innovation as its core driving force and has long been deeply engaged in the heart valve field. The ...

A UAB research team defines the criteria that CAR immunotherapies for neurodegenerative diseases must meet to advance both ...