The brainwaves of people with neuropathic pain show a distinct pattern: more slow theta waves, fewer alpha waves, and more fast, high beta waves, co-lead author Sylvia Gustin, a clinical psychologist and UNSW professor, said in the statement. Her research has investigated changes in the thalamus—a central brain structure that relays sensory and motor signals to the cerebral cortex—associated with nerve pain.
The PainWaive system consists of an electroencephalogram (EEG) headset that records brain activity paired with an app that instructs patients on how to control their brainwaves through neurofeedback games, according to a UNSW statement. Four participants who suffer from corneal neuropathic pain—a condition that causes painful hypersensitivity of the eyes, face, or head—underwent 20 PainWaive sessions over the course of four weeks.
This study offers new hope for drug-free pain treatments, but further trials will need to verify its results.