Cerebrospinal fluid (CSF) flows through your central nervous system, serving multiple roles: it protects your brain, takes out the cellular trash, and even ...

The findings of two recent studies give hope that the disease could one day be reversed in humans—but experts warn that this ...

A new study from Stanford Medicine has found that stopping an overactive enzyme in the brain might help protect and even ...

Researchers are harnessing AI to pioneer a groundbreaking therapeutic approach for Rett Syndrome, offering new hope for ...

A targeted drug therapy has shown potential to reverse cellular damage in Parkinson’s disease by regenerating critical brain ...

By shutting down a hyperactive enzyme, scientists got damaged brain cells to regrow their lost “antennae” and restart ...

Stanford researchers discovered that dialing down an overactive enzyme, LRRK2, can regrow lost cellular “antennae” in key ...

Putting the brakes on an enzyme might rescue neurons that are dying in Parkinson's disease, stabilizing the progression of ...

Inhibiting an overabundant enzyme saved a key component of a brain signaling pathway that is vital for motor control in a ...

Putting the brakes on an enzyme might rescue neurons that are dying due to a type of Parkinson's disease that's caused by a ...

An overactive LRRK2 enzyme causes cells to lose their primary cilia, a cellular appendage that acts like an antenna, sending and receiving chemical messages. A cell that has lost its primary cilia is ...

Inhibition of LKKR2 may rescue neurons that are dying due to a type of Parkinson’s disease that is caused by a single genetic mutation.