Anti-diabetic effect of vestibular stimulation is mediated via AMP-activated protein kinase.

Paul D McGeoch, Jason McKeown

Medical hypotheses 2020 Nov

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There is abundant animal evidence that vestibular stimulation, particularly of the otolith organs, can trigger a shift in body mass composition towards a leaner physique. One way of non-invasively stimulating the otolith organs is via a small electrical current applied to the skin behind the ears. This technique is called vestibular nerve stimulation, or VeNS, and is believed to have a good safety profile. Thus, it has previously been argued that VeNS could be used in human health as a means of treating the complications of metabolic syndrome, such as obesity and type 2 diabetes mellitus. Weight loss itself is known to improve diabetic control, however, tantalizing evidence is now emerging that the improvements seen in the glycemic control of type 2 diabetics who undergo repeated vestibular stimulation are significantly better than would be expected on the basis of weight loss alone. As vestibular stimulation has been shown to increase levels of an anti-inflammatory protein, called sirtuin 1, we hypothesize here that VeNS will increase levels of an associated enzyme called AMP-activated protein kinase (AMPK). AMPK plays an important role in glucose and fat metabolism and is activated by exercise, as well as being a known target for certain anti-diabetic drugs. This hypothesis is readily amenable to clinical testing as specific assays for testing human AMPK are available. If substantiated, then this hypothesis could prove an important clinical insight and potentially offer a new treatment avenue for patients with type 2 diabetes; a condition which remains a major cause of morbidity and premature mortality worldwide. Copyright © 2020 Elsevier Ltd. All rights reserved.

Citation

Paul D McGeoch, Jason McKeown. Anti-diabetic effect of vestibular stimulation is mediated via AMP-activated protein kinase. Medical hypotheses. 2020 Nov;144:109996