![]() ![]() ![]() This suggests that the device may be effective for inducing relaxation and stress relief, but more data is needed in our opinion to state so conclusively. The trial found that both experienced and inexperienced meditators achieved deeper meditation states after using the Apollo Neuro device regularly. One clinical trial on the Apollo Neuro has completed, and was published in the reputable Biological Psychiatry journal. Until the full study is published and researchers can analyze the study methodology and full data set, we do not believe early results are particularly valuable (though we do believe it's a good sign that the company is engaged in a number of legitimate research trials). We would caution consumers to be wary of claims of efficacy based on "preliminary results" given the information asymmetry: the brand has access to these results but consumers don't. The majority of these studies are ongoing and the full data set is not yet accessible. Since then, Apollo Neuro has added a Studies Roundup page on their website highlighting ongoing and completed research on their device. Medical Research ReviewĪpollo’s website claims that their product was “Born in the Lab,” but at the time we published this article the brand had shared no medical research proving their product to be effective for any of the stated health claims. We’ll also highlight some stress-reducing alternatives (both lifestyle and supplemental) which consumers may want to consider over this device. In this article we’ll review the health claims made by Apollo Neuro based on published medical research to determine if we recommend the product. The brand claims that their product improves sleep, focus, heart rate variability (HRV), physical recovery, and sense of calmness. The next step for the Salk team will be validating this method in a mammal brain.The Apollo Neuro is a wearable device for stress relief. Using this approach, the team then genetically modified the worms by adding TRP-4 to neurons that don’t normally have it and successfully activated neurons. When ultrasound was applied, the gas bubbles spread into the worm, causing the TRP-4 channels to open up and activate the cells. The amplified ultrasound waves, in turn, are picked up by the TRP-4 proteins, also called ion channels, found in the membranes of some of the worms’ cells. The gas-filled microbubbles work to amplify the low-intensity ultrasound waves and can circulate noninvasively throughout the worm, the researchers showed. Nematodes do not usually react to ultrasound, but the Salk team observed that the worms showed a dramatic response when surrounded by microbubbles. Previously, researchers used the translucent nematode Caenorhabditis elegans to transfer light-sensitive proteins in order to control its movements with optogenetics. He and his team identified TRP-4, which occurs naturally in invertebrates like worms. To do that, he needed to find a protein that responds to ultrasound waves. These channels can then be selectively opened, either activating or silencing the target neurons, by shining a focused laser on these cells.Ĭhalasani and his colleagues wanted to try the same thing with ultrasound waves. In optogenetics, researchers introduce new genetic material to the protein channels of cells, usually neurons, to make them sensitive to light. ![]()
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