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Gut Feelings: Harnessing The Gut-Brain Connection To Improve Mood

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黑料社 National Page > Gut Feelings: Harnessing The Gut-Brain Connection To Improve Mood

Prepared by: Orsha Magyar, M.Sc, B.Sc, C.H.N聽 |聽 CEO & Founder, .

How we feel emotionally really resonates in our gut. When I get nervous about something or feel that something isn鈥檛 right, for example, I literally feel 鈥渂utterflies鈥 in my stomach. And stressful experiences can drastically change my appetite from urgent food cravings – 鈥淚 just need chocolate now!鈥 – to zero appetite.

But how are our emotions actually transferred to our gut? And how does our gut then influence our moods?

The key link for transferring our emotional intuitions from your brain down to your gut is the vagus nerve this is a physical representation of the mind-body connection.

The vagus is the longest cranial nerve in the body 鈥 starting at the base of the brain and running down your neck into the body. Random but fun fact: Vagus literally means 鈥渨anderer鈥 in Latin, aptly named as the nerve鈥檚 many branches roam around the body linking your brain to vital organs within the body, including the gut, heart, kidneys and lungs (1).

Communication between the body and brain via the vagus goes in both directions, allowing constant monitoring, reports and reactions. In fact (and most importantly for you here), researchers have shown that regulation of the vagus nerve is super essential for responding effectively to stressful everyday experiences. Basically, keeping your vagus in check helps you fight back against the negative effects of stress, something we鈥檙e all about at NeuroTrition!

But, to really understand the role of the vagus in stress responding we first need to dig a little into the systems that keep our body in balance.

Your Nervous System 101

Your autonomic nervous system (ANS) is an unconscious, automatic system that manages our essential bodily functions 鈥 things like our heartbeat, breathing, digestion and excreting waste, that we hopefully don鈥檛 have to spend any time thinking about. The ANS is divided into two complementary teams that work hand-in-hand, the sympathetic and parasympathetic nervous systems.

When we are stressed out the sympathetic nervous system – also known as the 鈥渇ight or flight鈥 response – kicks in to provide mental alertness and the energy to escape or defend ourselves. But when we are relaxed the parasympathetic nervous system 鈥 also known as the 鈥渞est and digest鈥 system 鈥 is active. The vagus nerve, interestingly is a key part of the parasympathetic nervous system.

Clearly the balance between our sympathetic and parasympathetic nervous systems has a huge impact on physical and mental health. Chronically stressful lifestyles can lead to our parasympathetic (鈥渞est and digest鈥) nervous system being drowned out by a hyperactive sympathetic (鈥渇ight or flight鈥) system, resulting in high blood pressure and cardiovascular diseases, type two diabetes and obesity. For a primer on how stress affects your body, .

Feeling the beat

Did you know that scientists can actually stimulate the vagus directly using tiny electrodes to 鈥渢urn up鈥 its effects? Stimulating the branch of the vagus that connects to the heart, for example, slows down the heartbeat 鈥 reducing blood pressure聽(2). Increasing vagus activity is even an emerging therapy for heart failure as it directly controls cardiac function, rather than relying on drugs聽(3). This has me really excited because it speaks so perfectly to our motto of going Beyond The Band-Aid.

Knowing that we can stimulate the vagus provides avenues to control other bodily functions, so it has become a potential target for treating both mental health and gut disorders. Exciting!

Gut feelings

The parasympathetic nervous system, including the vagus nerve, tells the gut that it鈥檚 ok to get to work digesting food. But the vagus has another foodie role by providing a route for the hunger hormone ghrelin to talk to the brain to control eating behaviour (4).

Our gut actually contains its own independent 鈥渕ini-brain鈥 鈥 a complex network of neurons called the聽enteric nervous system. We talk about the 鈥済ut-brain axis鈥 a lot (I even went on a Canada tour this past Fall to spark and spread the gut-brain axis love), and this is what we鈥檙e talking about.聽 The gut-brain axis is the complex communication link between the brain and the enteric nervous system (and some 鈥渂ugs鈥, but more on that later).

Stimulating the vagus in the gut can boost levels of brain chemicals – called 鈥渘eurotransmitters鈥 鈥 involved in mood including serotonin and noradrenalin聽(5). SSRI鈥檚 (selective serotonin reuptake inhibitors) are a class of antidepressant that increase serotonin in an attempt to manage depression, so scientists think that activation of vagus could act like a drug-free antidepressant (6). Super amazing, in my opinion – can you imagine vagus nerve activation to fight depression!?!

But there are many more players in the gut-brain axis, enter the microbes that call our intestines home鈥

Friends with benefits the gut microbiome

The community of trillions of bacteria and microbes that inhabit the intestines is known as the 鈥済ut microbiota鈥 鈥 those gut bugs we鈥檙e obsessed with these days at NeuroTrition, and that you鈥檙e probably hearing a lot about. You may have heard that these gut bugs chat with neurons in your local enteric nervous system, but did you know they can also influence the brain by long distance calls via the vagus (7)?!

Science tells us that some types of gut bugs, including the probiotic Lactobaccilus rhamnosus have anti-anxiety properties. How, you might ask? Well, they can message brain cells via the vagus encouraging them to release GABA, a neurotransmitter that promotes calmness (8). Are probiotics the new Valium (but without the side effects and nutrient depletions)? I don鈥檛 know about that (yet) but am keeping my finger on the pulse of this research and feel hopeful that these gut bugs are going to be capable of helping people struggling with anxiety.

Researchers have now shown that the vagus nerve is the vital communication route聽for these microbes to get their messages across聽(8). Gut bugs can also increase neuroplasticity (ie. growth, changes, connectivity) in the brain – which is closely linked to mood聽(9), but again the vagus is needed to get the microbial messages across, particularly to the brain鈥檚 memory centre – the hippocampus (10).

The vagus can calm inflammatory events

Our emotions can manifest in our digestive health, which you鈥檝e probably also noticed, and this often goes hand in hand with inflammation. I see this co-morbidity of mental health and digestive imbalances A LOT with our clients, and a recent Canadian study validated my anecdotal observations at the office by showing that a quarter of inflammatory bowel disease patients also suffered from depression and anxiety聽(11).聽

Chronic inflammation propagates pain, autoimmune disease and mental health disorders, and vagus nerve signals are key to quenching inflammatory responses (12). While we are far off from saying that a healthy and happy, stimulated vagus nerve is akin to anti-inflammatory drugs like Advil, NSAIDs (non-steroidal anti-inflammatory drugs) or prednisone, a recent clinical study has shown that stimulating the vagus nerve reduced inflammation in people with rheumatoid arthritis, improving their symptoms (12). So the research in this area has started (thank God, because these meds are so brutal long-term!), and I can鈥檛 wait to see where it goes. Now, are you ready to show your vagus nerve a little love?

How to talk to your vagus 2 ways!

Okay, so the vagus nerve is a key player in the gut-brain axis and mental health to promote relaxation and calmness. But can we stimulate it ourselves, to feel relaxed and calm?? That鈥檚 what I was itching to find out as I delved into the scientific literature.

The vagus nerve branches out to your throat, lungs, heart and intestines. And science tells us that the vagus can in fact be stimulated in your throat and through breathing. Perfect. But let鈥檚 dig a little deeper, shall we?

Gargling, singing and humming (all brought up in various Google searches as bona fide ways to stimulate the vagus nerve) all do vibrate our vocal chords, which can lift our mood – who doesn鈥檛 feel happy after belting out a song in the shower? But the two legit, scientifically demonstrated methods of vagus stimulation to date are through specific breathing techniques and altering our gut flora.

  1. Breathing techniques
    1. Diaphragmatic breathing is when the breath is slowed to 5-7 breaths per minute. The diaphragm is stimulated by the long and slow exhalation of breath, reducing heart beats and relieving stress (13).
    2. Yogic breathing is used in yoga to calm the mind (13). During 鈥淯jjayi Pranayama鈥 you completely fill your lungs, while slightly contracting your throat, and exhale slowly – stimulating the vagus in both the diaphragm and the throat. So practicing yoga, or just using yogic breathing methods can help calm a racing mind.
  2. Pre and probiotics Our gut bugs quickly respond to changes in our diets and environment. Cutting-edge research is now harnessing 鈥減sychobiotics鈥 鈥 mood altering microbes 鈥 to improve brain and mental health conditions(14), which we are so all over! And it turns out that keeping our microbiome nourished with lots of gut-friendly fermented foods, fresh fruit, veggies and fibre is a great way to keep your vagus well-fed, too.

Science shows that the vagus is key for restoring balance in our hectic lives. So next time you are super stressed out, try some vagus stimulating breathing techniques and reach for foods brimming with pro- and prebiotics. Your brain and gut will thank you for it!

-Posted June 2018-

References

  1. Berthoud, H. R., & Neuhuber, W. L. (2000). . Autonomic Neuroscience: Basic and Clinical, 85(1), 1-17.
  2. Buschman, H. P., Storm, C. J., Duncker, D. J., Verdouw, P. D., van der Aa, H. E., & van der Kemp, P. (2006). Neuromodulation: Technology at the Neural Interface, 9(3), 214-220.
  3. Ardell, J. L., Nier, H., Hammer, M., Southerland, E. M., Ardell, C. L., Beaumont, E., … & Armour, J. A. (2017 The Journal of physiology, 595(22), 6887-6903.
  4. Browning, K. N., Verheijden, S., & Boeckxstaens, G. E. (2017). . Gastroenterology, 152(4), 730-744.
  5. Manta, S., Dong, J., Debonnel, G., & Blier, P. (2009). Journal of psychiatry & neuroscience: JPN, 34(4), 272.
  6. Grimonprez, A., Raedt, R., Portelli, J., Dauwe, I., Larsen, L. E., Bouckaert, C., … & Boon, P. (2015). . Journal of psychiatric research, 68, 1-7.
  7. Kim, N., Yun, M., Oh, Y. J., & Choi, H. J. (2018). Journal of Microbiology, 56(3), 172-182.
  8. Bravo, J. A., Forsythe, P., Chew, M. V., Escaravage, E., Savignac, H. M., Dinan, T. G., … & Cryan, J. F. (2011). Proceedings of the National Academy of Sciences, 108(38), 16050-16055.
  9. Fung, T. C., Olson, C. A., & Hsiao, E. Y. (2017). . Nature neuroscience, 20(2), 145.
  10. O鈥橪eary, O. F., Ogbonnaya, E. S., Felice, D., Levone, B. R., Conroy, L. C., Fitzgerald, P., … & Cryan, J. F. (2018). European Neuropsychopharmacology, 28(2), 307-316.
  11. Byrne, G., Rosenfeld, G., Leung, Y., Qian, H., Raudzus, J., Nunez, C., & Bressler, B. (2017). Canadian Journal of Gastroenterology and Hepatology, 2017.
  12. Koopman, F. A., Chavan, S. S., Miljko, S., Grazio, S., Sokolovic, S., Schuurman, P. R., … & Tracey, K. J. (2016). Proceedings of the National Academy of Sciences, 113(29), 8284-8289.
  13. Streeter, C. C., Gerbarg, P. L., Saper, R. B., Ciraulo, D. A., & Brown, R. P. (2012). . Medical hypotheses, 78(5), 571-579.
  14. Bruce-Keller, A., Salbaum, J. M., & Berthoud, H. R. (2017). Biological psychiatry.

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