More Thoughts on Thync

Just because it’s come up quite a bit lately on the tDCS subReddit , I thought to re-publish this link to a talk Jamie Tyler gave just prior to the release of their device, where he explains his understanding of what’s going on, as well as their intentions. Jamie’s intro starts at 45:46. He begins his explanation of how Thync’s device works at 52:46.

Thync paper referenced in talk:
Thync patent application:

(My Notes: FDA, ‘limited output’, exempt from pre-market notification, or 510 k process. Below average current of 10mA, current density below 2mA per square centimeter.)

Coming Soon—Electronic Mood Control | MIT Technology Review


If Tyler is right, it could explain why tDCS results have been so hard to replicate. Researchers position tDCS electrodes based on the assumption that they affect the areas of the brain directly below. But sometimes they may be accidentally stimulating the cranial nerves instead, leading to inconsistent results. Based on his new hypothesis, Tyler changed where he placed the electrodes, targeting these nerves specifically.

Early experiments showed enough of an effect to suggest the hypothesis was right, Tyler says. But the effects weren’t huge. The next step was to amplify the effect by increasing current levels without causing pain or skin damage. Researchers at Thync, which was founded in 2011, did this in part by using pulses of electricity, rather than steady current, and operating at frequencies that don’t stimulate pain receptors.

I experienced the difference that these measures make when I tried out a conventional tDCS device side-by-side with Thync’s technology. At three or four milliamps of electrical current, conventional tDCS was quite painful. That’s why most experiments are done at around one milliamp. In contrast, I couldn’t even feel the pulses from Thync’s device at 10 milliamps.

via Coming Soon—Electronic Mood Control | MIT Technology Review.