Microbial Wisdom: How your gut bugs can influence your levels of wisdom and loneliness

Microbial Wisdom: How your gut bugs can influence your levels of wisdom and loneliness

Hippocrates once said “all disease begins in the gut” and, even though as a naturopathic doctor I have internalized this to the utmost degree, I still forget from time to time. 

So, when I was having an increase in histamine symptoms (itchy eyes, runny nose, inflammation, congestion, itchy skin, immune issues), dental issues (bad breath, swollen tongue, increase in plaque and bleeding gums), gut issues (bloating, constipation, sugar cravings) and mood issues (PMS, low motivation, fatigue, brain fog, lower mood, fatigue) as well as other random symptoms such as decreased stamina, cold intolerance and otherwise just feeling “blah”, it took me an embarrassingly long amount of time to connect all these symptoms to being caused by a gut microbial imbalance. 

The dental issues I was experiencing, like bad breath, swollen tongue, and increased plaque buildup, were all signs that something deeper was off. Bleeding gums, which I initially attributed to inconsistent flossing, were actually part of a bigger issue tied to my overall health. It was frustrating to deal with these problems, especially since I didn’t immediately connect them to my gut. But the truth is, oral health and gut health are closely linked. A gut imbalance can lead to inflammation that affects not just the digestive system but also the gums and teeth. When the gut isn’t in harmony, it’s much easier for bacteria to thrive in the mouth, leading to plaque, cavities, and gum disease.

Finding the right support for my oral health became a priority. I realized that alongside addressing my gut, I needed professional dental care to manage these symptoms. That’s when I turned to vibrant dental, where they not only provided excellent cleanings and treatments but also offered holistic advice that took my overall health into account. With their help, I started to see improvements in both my oral and gut health, which ultimately boosted my mood and energy levels. It was a reminder that our health is interconnected, and sometimes, solving one issue requires looking beyond the obvious symptoms.

Our gut bacteria outnumber the cells of our body by 10 to 1. These little guys influence our digestion, mood and immune system. They affect our brain function. A recent study in Frontiers in Psychiatry (Nguyen et al., 2021) even connects the diversity of our microbiome with loneliness and wisdom. 

Interestingly, loneliness and wisdom have been found to occur in inverse relationship with one another. In other words, the wiser you are, the less lonely. It’s important to note here that loneliness is not the same thing with isolation or being alone–sometimes alone time is necessary for the type of self-reflection that imbues wisdom. 

Wisdom is a complex phenomenon that is made up of traits like compassion towards self and others, self-awareness and reflective thinking and deep knowledge about the world and the meaning of life events. From this description we can imagine how protective wisdom might be against mental illness and how it may lend to mental, emotional and physical wellness.

The wiser you are, the better able you may be to make meaning of and persevere through life’s difficulties and connect with others. Wisdom lends itself to an overarching view of self, life and humanity that may allow us to respond to life’s challenges with resilience. 

Perhaps a wise person who is alone may also be aware that they are also part of an interconnected ecosystem that includes self and others. They may be aware of their place within the fabric of existence. In this way, they are never really alone.

Further, the meaning they may derive from states of aloneness may protect them against the feelings of social isolation that are characterized by loneliness. Imagine a wise figure. Perhaps they are alone, but would you say they are lonely? 

Our gut is sometimes called “the second brain” and forms part of the microbiota-gut-brain axis in which our gut bugs influence the health of our intestines and thus influence our nervous system, immune system and brain (Cryan & Dinan, 2012). Our gut microbiome can even influence personality traits such as agreeableness, openness and even neuroticisim (Kim et al,m 2018). Interestingly, unhealthy gut bacteria like proteobacteria (associated with SIBO) were associated with low conscientiousness and high neuroticisim (Kim et al., 2018).

Does this mean that diet can influence our tendency to hand things in on time and keep our rooms clean? hmm… 

It’s interesting to think that we all have a sense of our personalities and who we are as people. We imagine ourselves to be introverted or extraverted, artistic, creative, liberal or conversative. We might consider ourselves kind or trustworthy, blunt or afraid of conflict. We may identify as people who make healthy eating choices and enjoy exercising or who have sweet tooths (teeth?).

Amidst this self-discovery, the exploration of mbti personalities seamlessly weaves into the fabric of our understanding, adding another layer to the rich and diverse mosaic of human characteristics. Delving into the realm of MBTI personalities opens a door to a nuanced comprehension of ourselves and those around us. The Myers-Briggs Type Indicator, with its sixteen distinctive personality types, provides a structured framework to decipher the intricacies of our individuality. This insightful exploration not only enhances self-awareness but also fosters a greater appreciation for the diverse ways in which personalities interlace and contribute to the vibrant mosaic of the human experience.

But what if we are less in control of our behaviour and even personality than we think? The truth is the bacteria in our gut produce chemicals that influence our behaviour: what we crave and eat and even how we act and think. In turn, this influences the composition of our gut. 

Prosocial behaviour is associated with more gut biodiversity, and people who are more social tend to have microbiomes that are more diverse (Johnson, 2020). This makes sense if you think about it. If you’re exposed to a variety of people and environments, you’re likely exposed to a variety of bacteria and viruses as well. These microbes are ingested and incorporate themselves into our bodies.

When we visit different environments we consume foods in those environments. When we socialize with various people, we often share food. This increase in food diversity will also influence gut microbial diversity. 

As I write this, I wonder about the effects of social isolation of the past 2-3 years. During Covid, our social circles decreased. Currently we are seeing a rise in infections: colds, flus and other illnesses (RSV, hand food and mouth disease, pink eye and so on), particularly in children. I wonder if this lack of socialization has affected our microbiomes and thus our individual and collective immunity. A hypothesis worth exploring, perhaps… 

Further, the hypersanitization may also have contributed to shifting the health of our microbiome. It still remains to be seen. 

We know that a lack of gut diversity can affect our immune system and is associated with obesity, inflammatory bowel disease and major depressive disorder (Jiang et al., 2015). In mice, the health of the microbiome is essential for their social development (Desbonnet et al., 2014)! 

So, what does this mean practically and clinically? 

Throughout my studies and years practicing as a naturopathic doctor, a clear-cut path towards improving microbiobial health of the gut is still unclear to me. We know that increasing the amounts of plants and fibre in the diet can support gut diversity. But we also know that fibre can cause constipation and bloating in some individuals and aggravate their digestion and that there are many indiviudals who at least anecdotally seem to thrive on diets that reduce fibre, such as the Carnivore Diet or an Animal-Based Diet (which, by the way, I’m not necessarily recommending here). 

For me, gut health has largely been about paying attention and noticing when things have gone astray and then (and this part is harder than it sounds) correctly attributing what has gone astray to a shift in the health of my microbiome. 

This has been years in the making. Our gut produces pain in response to stretch (i.e.: from gases in the intestines). We don’t necessarily feel pain in our gut if we’re experiencing intestinal permeabilty (leaky gut) or dysbiosis. This means that there is not a lot of feedback from our body that tells us about the state of our gut. Our gut doesn’t always hurt if it’s inflamed or imbalanced in the way your shoulder might. We need to look for other signs and symptoms that alert us to the state of health of our guts. 

For me symptoms of gut imbalance often correlate with symptoms of candida overgrowth (something I, like many, am prone to). Candida, a species of yeast, tends to flourish in my body if my overall gut ecosystem is failing to keep it in check. Sometimes this can occur due to stress, and increase of sugar in my diet and other factors. 

Symptoms I notice are:

– A change in oral health: more plaque on my teeth, bad breath, tongue coating, bleeding gums, and so on. 
– A change in mood and mental functioning: symptoms of depression or dysthymia such as apathy, low motivation and lethargy. Brain fog, difficulty concentration, poorer executive function (particularly initiating tasks or increased procrastination). 
– A change in digestion: persistent bloating, more constipation (involving not just frequency but stool quality. They might be stickier or harder to pass). 
– A change in immune function: more mucus production and congestion. Allergy symptoms. Trouble breathing,. 
– A change in energy and metabolism: reduced stamina despite exercising. Weight gain. Water retention. Fatigue. Feeling cold. 
– A change in cravings: wanting more sugar, binge-eating and overeating. Obsessing about food. Cravings for sugar after meals. Feeling “hangry” more often. Difficulty feeling full. Mental hunger (hunger despite feeling the presence of food in the stomach).  
– A change in hormonal health: changes to libido, vaginal flora. heavier periods, irregular periods. Increased PMS. 

And so on. If this seems like virtually every system in the body is affected, I remind us all that Hippocrates said it first (or at least most famously): “all disease begins in the gut”. 

What is the solution? Like recognizing the cause, the solution is often subtle. For me it was focusing attention to gut health and slowly steering the ship back to healthier habits.

The problem with dysbiosis is it often maintains itself. Low energy leads to less socialization and less motivation to cook healthy meals. More cravings lends to poorer food choices. These are just some examples of what you can imagine to be a variety of maintenance processes that are caused by and serve to perpetuate dysbiosis.

Therefore for me, the solution is not to make drastic changes but to identify and shift these patterns in support my microbiome. 

1) I took sugar out of my diet. For me this involved shifting away from my 3 fruits a day to starchy vegetables (like squashes, etc.) I thrive on a Paleo-like diet (a whole foods diet that emphasizes fruit, vegetables and animal protein) and subtly shifted back to one.

I didn’t completely eliminate fruit sugar as I don’t believe there is a need. However, I recognized that I was likely overconsuming sweet foods as a response to dysbiosis and this wasn’t serving me. 

2) I got on a comprehensive and broad-spectrum probiotic. I often tell my patients that probiotic prescribing is more of an art than a science and involves some trial-and-error. I typically look for one that has 8+ strains and a high CFU (colony forming unit) count. I took Colon Care 90 Billion by New Roots. This is certainly not the only good one and it might not be the right one for you, but it’s one I selected for myself based on a variety of factors I was looking for that supported my individualized assessment of my gut health. 

For me probiotics can be highly effective, but they take time to work. They often can aggravate symptoms initially. The first symptoms I notice that indicate improvement are an improvement in oral health. 

3) I supported my digestion in general. This involves for me supporting the liver and gallbladder, which influence gut motility, bile flow (which helps keep the small bowel free of bacteria) and fat digestion (which prevents growth of more pathogenic microbes and stabilizes blood sugar). 

4) I consumed anti-candida, antimicrobial foods that work for me (again, this is after much trial and error). Raw garlic, coconut oil, apple cider vinegar and oregano oil. I also started on a candida herbal supplement that incorporates cloves, black walnut and other anti-microbial herbs that selectively kill pathogenic microbes while typically preserving healthy ones. 

5) I supported my microbiome by integrated back into nature: getting outside more, reducing chemical exposure (soaps, fragrances, plastics, pesticides, etc.) and getting more sunlight. Camping outside in the cold, sleeping on the ground and brushing my teeth in a natural brook in Nova Scotia also likely contributed to shifting the diversity of my microbiome through encouraging the exchange of my microbes with those of the earth. 

6) I supported the body’s stress response by getting more sleep. When I’m awake I try to get as much sun exposure as possible. Our microbiome and our Circadian Rhythms are intricately connected. Supporting one can support the health of the other (Bishehsari et al., 2020). Regarding this, I wonder if Daylight Savings Time made some of us more susceptible for microbial imbalances in our guts? Hm… 

Getting off track is a holistic multi-facted process. We all know our own vices and susceptibilities if we look deep enough. 

Therefore, getting on track is an equally holisitic and comprehensive process. It involves wisdom (which, conveniently, increases as your microbial health increases). I can help you figure things out if you’re new to this process. 

After implementing these strategies and paying a bit more attention for a few weeks I slowly and surely notice myself feeling more like myself. Getting back on track: more energy, better mood, better cold tolerance (this is a big one!) and better gut health. My appetite has regulated incredibly. I feel like a different person. But the shifts have been slow and sometimes subtle (as is often the case with shifting an entire ecosystem) and paying attention to them is a very important part of the process. 

Wisdom. 

It’s not just diet. It’s not just supplements. It involves looking at the relevant factors and gently moving back in the right direction with patience and persistence. Maybe your main point of focus needs to be eating regular meals and meal planning. Maybe you need more strength-training. Maybe you need to start socializing more, getting out in public (knitting circle, anyone? I’ve been hearing so much about knitting circles these days, haha–a sign from the universe?). 

Maybe it’s time to look at emotional eating with a pair of fresh eyes (perhaps through the lens of your microbiota). Maybe you need to take a walk outside today. Everyday. Breathe fresh air. Take a probiotic. 

Contact me if you need support! I’m here for you. 

What else do you do for your gut microbiome? 

References: 

Bishehsari, F., Voigt, R. M., & Keshavarzian, A. (2020). Circadian rhythms and the gut microbiota: From the metabolic syndrome to cancer. Nature Reviews Endocrinology16(12), 731–739. https://doi.org/10.1038/s41574-020-00427-4

Cryan, J. F., & Dinan, T. G. (2012). Mind-altering microorganisms: the impact of the gut microbiota on brain and behaviour. Nature reviews. Neuroscience13(10), 701–712. https://doi.org/10.1038/nrn3346

Desbonnet, L., Clarke, G., Shanahan, F., Dinan, T. G., & Cryan, J. F. (2014). Microbiota is essential for social development in the mouse. Molecular psychiatry19(2), 146–148. https://doi.org/10.1038/mp.2013.65

Jiang, H., Ling, Z., Zhang, Y., Mao, H., Ma, Z., Yin, Y., Wang, W., Tang, W., Tan, Z., Shi, J., Li, L., & Ruan, B. (2015). Altered fecal microbiota composition in patients with major depressive disorder. Brain, behavior, and immunity48, 186–194. https://doi.org/10.1016/j.bbi.2015.03.016

Johnson, K. V. A. (2020). Gut microbiome composition and diversity are related to human personality traits. Human Microbiome Journal15, 100069.

Kim, H. N., Yun, Y., Ryu, S., Chang, Y., Kwon, M. J., Cho, J., Shin, H., & Kim, H. L. (2018). Correlation between gut microbiota and personality in adults: A cross-sectional study. Brain, behavior, and immunity69, 374–385. https://doi.org/10.1016/j.bbi.2017.12.012

Nguyen, T. T., Zhang, X., Wu, T.-C., Liu, J., Le, C., Tu, X. M., Knight, R., & Jeste, D. V. (2021). Association of loneliness and wisdom with gut microbial diversity and composition: An exploratory study. Frontiers in Psychiatry12https://doi.org/10.3389/fpsyt.2021.648475

Stomach pH is a Chesterton’s Fence: beware of tearing it down

Stomach pH is a Chesterton’s Fence: beware of tearing it down

G.K. Chesterton described a scenario like this:

There exists in such a case a certain institution or law; let us say, for the sake of simplicity, a fence or gate erected across a road. The more modern type of reformer goes gaily up to it and says, “I don’t see the use of this; let us clear it away.” To which the more intelligent type of reformer will do well to answer: “If you don’t see the use of it, I certainly won’t let you clear it away. Go away and think. Then, when you can come back and tell me that you do see the use of it, I may allow you to destroy it.”

In other words, beware of tearing down structures until you fully understand their benefit.

Chesterton’s Fence can also be thought of as the Precautionary Principle. Not following this principle led to scientific practices like frontal lobotomies or removing the entire large intestine because doctors didn’t understand the benefits of these structures or the consequences of removing them.

A narrow range of focus, i.e., this organ is causing a problem, or we don’t know why it’s here, led to drastic action that resulted in unforeseen, disastrous consequences.

I believe that such is the case with our stomach acid.

The stomach is essentially a lined bag filled with acid. Stomach pH is from 1.5 to 3.5, acidic enough to burn a hole in your shoe. However, the mucus layer of the stomach protects it from being destroyed by the acid. The acid in the stomach helps dissolve and digest the food chewed up by the teeth and swallowed.

Stomach pH is needed for breaking down proteins. Stomach acid also plays a role in absorbing minerals such as calcium, zinc, manganese, magnesium, copper, phosphorus and iron. It activates intrinsic factor, which is needed for B12 absorption in the small intestine.

Stomach acid regulates the rate of gastric emptying, preventing acid reflux.

Fast-forward to a condition called gastric esophageal reflux disease, or GERD. GERD affects about 20% of Western countries, characterized by high esophageal pH and reflux of the stomach acid and stomach contents into the esophagus. While the stomach is designed to handle a shallow pH environment, the esophagus is not. A doorway called the lower esophageal sphincter, or LES, keeps stomach contents where they should be–in the stomach.

In GERD, the tone of the LES is weak, resulting in a backflow of stomach contents. This can damage the esophagus, causing heartburn, pain, bad breath, coughing and even problems like ear pain, sore throat, and mucus in the throat. Silent reflux occurs when these symptoms occur without burning.

The symptoms occur from the stomach’s acidic contents irritating the more delicate tissues of the esophagus. So, rather than treat the root problem, i.e., the reflux, drugs like proton pump inhibitors (PPIs), H2 blockers, and buffers like Tums are recommended to reduce the stomach’s acidity.

Essentially, with GERD, we are tearing down Chesterton’s Fence to pave a road without taking even a moment to consider why the fence might be there in the first place.

About 12% of people are prescribed PPIs. They are given for GERD, gastritis, and IBS symptoms like bloating and stomach pain. Most of my patients are prescribed them for virtually any stomach complaint. PPIs, it seems, are the hammers wielded by many GPs, and so every digestive concern must look like a nail. Most people are put on them inevitably, without a plan to end the use and address the root cause of symptoms, which in most GERD cases are low LES tone.

PPIs raise stomach pH, disrupting stomach function. This causes issues with mineral absorption and protein digestion. Their use results in B12, vitamin C, calcium, iron, and magnesium deficiencies. Many of these deficiencies, like magnesium deficiency, can’t be tested and therefore might show up sub-clinically in tight muscles, headaches, painful periods, disrupted sleep and anxiety, and constipation. Therefore they fly under the radar of most primary care doctors.

No one connects someone’s heartburn medication with their recent onset of muscle tightness and anxiety.

Many of my patients report difficulties digesting meat and feeling bloated and tired after eating, particularly when consuming a protein-rich meal. They conclude that the meat isn’t good for them. The problem, however, is not meat but that stomach acid that is too diluted to break down the protein in their meal, leading to gas and bloating as the larger protein fragments enter the small intestine.

Many digestive problems result from this malabsorption and deficiency in stomach acid, not too much. Zinc is required for stomach acid production, and one of the best sources of zinc is red meat (zinc is notoriously lacking from plant foods). I have recently been prescribing lots of digestive enzymes and zinc to work my patients’ digestive gears.

Therefore, beware of tearing down a fence without understanding why it’s there. Stomach acid is essential for digesting our food, and regulating blood sugar and building muscle mass through protein digestion.

It is necessary for mineral absorption and B12 digestion. Our stomachs were designed to contain an extremely low pH. They evolved over millennia to do this. Stomach acid is low for a reason. It’s highly unlikely that our bodies made a mistake when it comes to stomach acid.

Therefore, beware of messing with it.

Consider that our bodies know what they’re doing. Consider the importance of finding and treating the actual root cause, not one factor that, if mitigated, can suppress symptoms while causing a host of other problems.

Don’t block your stomach acid.

As Hippocrates said, “All disease begins in the gut.”

It is the boundary between us and the outside world, the border where our body carefully navigates what can come in and nourish us and what should stay outside of us: our fence. Beware of tearing it down.

References:

Antunes C, Aleem A, Curtis SA. Gastroesophageal Reflux Disease. [Updated 2021 Jul 18]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2022 Jan-. Available from: https://www.ncbi.nlm.nih.gov/books/NBK441938/

Daniels B, Pearson SA, Buckley NA, Bruno C, Zoega H. Long-term use of proton-pump inhibitors: whole-of-population patterns in Australia 2013-2016. Therap Adv Gastroenterol. 2020;13:1756284820913743. Published 2020 Mar 19. doi:10.1177/1756284820913743

Heidelbaugh JJ. Proton pump inhibitors and risk of vitamin and mineral deficiency: evidence and clinical implications. Ther Adv Drug Saf. 2013;4(3):125-133. doi:10.1177/2042098613482484

The Wisdom of Cravings

The Wisdom of Cravings

Whenever I sit with a new patient for an initial intake, I ask about cravings.

From my many conversations about food, appetite and cravings, the most common responses are cravings for salt, or sugar, with many people falling on one end of the preference than the other: “I’m a salt craver” or “I’ve got a sweet tooth”.

However, cravings are so much more than that.

I believe that they are a beautifully intricate process, in which our body is trying to speak to us about what it needs.

Our bodies have developed taste receptors to detect quality nutrients from the environment. While these days sugar is abundant wherever you turn, during our hunter-gatherer times, it was a relatively scarce and highly sought after taste–the taste of ripe fruit, rich with nutrients, the taste of quality calories from carbohydrates, which may have been scarce in times of food shortage or famine.

Salt or “savoury” or umami cravings, often represent a need for more protein. Unfortunately, many of my patients who crave salt (and often calories) find themselves the bottom of a bag of chips, rather than grilling up a chicken breast.

Our modern environment doesn’t necessarily set us up to adequately translate and respond properly to certain cravings. Salted chips were probably not a thing in a natural environment and the only way to satisfy a salt and savoury craving would have been through hunting, consuming meat, or eggs and poultry.

When I was travelling in Colombia I was obsessed with broccoli–it was like I couldn’t get enough of it.

The same thing happened on a month-long trip to Brazil in 2019. Broccoli is rich in vitamin C, sulphur, and certain amino acids. It’s also a decent source of calcium. I’m not sure what nutrient I may have been lacking on my travels, but it’s possible that those cravings meant something for my body. And so I honoured them–I sought out broccoli like it was a magic elixir of health and ate as much of it as I could.

After developing significant iron deficiency after spending a few years as a vegetarian, I became suddenly attracted by the smell of roasting chicken from a local Korean restaurant I was passing by while walking the streets of Toronto.

The wafting smell of roasting poultry was majestic and impossible to ignore. It didn’t smell like sin, or temptation–my body betraying my moral sensibilities or whatever else we often accuse our cravings of—it smelt… like health.

There was no doubt in my mind as the delicious fumes touched my nostrils that I needed to honour my body and start eating meat again. I did and my health and nutrient status has never been better.

Patients will report craving carbs and chocolate the week before their period. The eb and flow of estrogen can affect serotonin levels. A large dose of carbs allows tryptophan, the amino acid that forms the backbone of serotonin, to freely enter the brain. This explains the effect “comfort foods” like starchy warm bread and pasta have on us, creating that warm, after-Thanksgiving dinner glow.

Chocolate is rich in magnesium, a nutrient in which many of us are deficient, that is in higher demand throughout the luteal phase of our cycle, or our premenstrual week.

Cravings are not just nagging, annoying vices, thrust in the path to greater health and iron discipline. They’re complex, intuitive and beautiful. They may be important landmarks on the path to true health and wellness.

Disciplines like Intuitive Eating and Mindful Eating have based themselves on the idea that our bodies hold intuitive wisdom and our tastes, cravings and appetites may be essential for guiding us on a road to health. Through removing restriction and paying more attention to the experience of food, we may be better guided to choose what foods are right for us.

The book The Dorito Effect outlines how our taste cues have been hijacked by Big Food. Like having a sham translator, processed foods stand between essential nutrients and the signals our bodies use to guide us to them. A craving for sweet that might have led you to ripe fruit, now leads you to a bag of nutrient-devoid candy that actually robs you of magnesium, and other nutrients in order to process the chemicals. A craving for salt and umami, or hunger for calories leads you to polish off a bag of chips, which are protein-devoid and laden with inflammatory fats, and only trigger more cravings, and shame.

It’s no wonder that we don’t trust our cravings– we live in a world that exploits them at every turn.

Clara Davis in 1939 was curious about the instintual nature of human cravings and devised a study that was published in the Canadian Medical Assoication Journal (CMAJ). The study was called Self-Selection of Diets by Young Children.

Clara gathered together 15 orphaned infants between 6 to 11 months of age who were weaning from breast-feeding and ready to receive solid food for the first time. These infants, before the study had never tried solid food or supplements. They were studied ongoing for a period of 6 years, with the main study process was conducted over a period of months.

The babies were sat at a table with a selection of simple, whole foods–33 to be exact. The foods contained no added sugars or salt. They were minimally cooked. Not all 33 were presented to each baby at each meal, however the babies were offered an opportunity to try everything.

The foods they were offered were water, sweet milk, sour (lactic) milk, sea salt, apples, bananas, orange juice, pineapple, peaches, tomatoes, beets, carrots, peas, turnips, cauliflower, cabbage, spinach, potato, lettuce, oatmeal, wheat, corn meal, barley, Ry-krisp (a kind of cereal), beef, lamb, bone marrow, bone jelly, chicken, sweetbreads, brains, liver, kidneys, eggs, and fish (haddock).

The nurses who were involved in running the study were instructed to sit in front of the infants with a spoon and wait for them to point at foods that they wanted. The nurses were not to comment on the choices or foods in any way, but wordlessly comply with the infants’ wishes and offer them a spoonful of the chosen foodstuff.

Throughout the study Davis noted that all the infants had hearty appetites and enjoyed eating.

At first, the babies showed no instinct for food choices, selecting things at random, and exploring the various foods presented to them. All of them tried everything at least once (two babies never tried lettuce and one never explored spinach). The most variety of food choices occurred during the first two weeks of the study when they were presumably in their experimentation phase.

Their tastes also changed from time to time, perhaps reflecting some hidden, internal mechanism, growth spurt or nutritional need. Sometimes a child would have orange juice and liver for breakfast (liver is a source of iron, and vitamin C from the orange juice aids in its absorption), and dinner could be something like eggs, bananas, and milk.

Many infants began the study in a state of malnourishment. Four were underweight and five suffered from Rickets a condition caused by extremely low vitamin D. One of the babies with severe Rickets was offered cod liver oil in addition to the other food options. Cod liver oil is a rich source of vitamin D.

The infant selected cod liver oil often for a while, after which his vitamin D, phosphorus and calcium blood levels all returned to normal range, and x-rays showed that his Ricket’s healed.

It is often thought by parents that children, if left to their own devices will eat themselves nutrient-deficient. While that may be true in todays’ landscape of processed frankenfoods, the infants in Davis’ study consumed a diet that was balanced and high in variety. They got 17% of their calories from protein, 35% from fat and 48% from carbohydrates and intake depended on their activity levels.

During the 6 years in which the infants’ eating habits were under observation, they rarely suffered from health issues. They had no digestive issues, like constipation. If they came down with a cold it would last no more than 3 days before they were fully recovered.

In the 6 years, they became ill with a fever only once, an outbreak that affected all of the infants in the orphanage. The researchers noticed their appetites change in response to the illness.

During the initial stages of the fever, they had lower appetites. And, once the fevers began to resolve, their appetites came back with a vengeance. They ate voraciously, and it was interesting that most of them showed an increased preference for raw carrots, beef and beets–which may indicate a need for vitamin A, iron and protein, which are needed for immune system function and recovery.

The habits of the infants to crave and select medicinal foods during times of fever and nutrient deficiency is such compelling evidence of Clara Davis’ craving wisdom hypothesis—were their bodies telling them what they needed to heal?

The self-selected, whole foods diets seems to have a positive impact on the mood and behaviours of the babies, all of whom were living full-time at the orphanage.

A psychiatrist, Dr. Joseph Brennemann wrote an article on them entitled “Psychologic Aspects of Nutrition” in the Journal of Pediatrics on their mood, behaviour and affect, “I saw them on a number of occasions and they were the finest group of specimens from the physical and behaviour standpoint that I have even seen in children of that age.”

In our world we often try to mentalize our food choices: going vegan or low-fat, counting calories, or reducing carbs. We time our eating windows, fast, or try to exert discipline and will over our bodies’ inherent desires.

So often my patients need to be coached through food eliminations, or given meal plans and templates. The art of listening to the body: properly identifying hunger, thirst, fatigue, inflammation, and even emotions like boredom, anxiety, sadness, anger, and hurt, can be a long process.

And yet, I wonder if we clear our palates and offer them a variety of whole, unprocessed, fresh foods, if our bodies will settle into their own grooves–perhaps our health will optimize, our bodies will be able to more readily communicate what they need, our taste receptors and cravings will adjust, and our cravings and appetite will serve the purpose they were meant to–to tell us what we need more of and what need less of or not at all.

I wonder if we listen, what our bodies will tell us.

I wonder if we let them, if our bodies will exhibit the pure instinctual wisdom of nature and the quest for harmony and homeostasis that lies at the heart of our natural world.

Everything You’ve Ever Wanted to Know About Your Hormones (But Were Afraid to Ask)

Everything You’ve Ever Wanted to Know About Your Hormones (But Were Afraid to Ask)

In order to make sense of the world, people create stories. It is our greatest gift and most fragile weakness.

Boy meets girl, they fall in love, they encounter difficulties that they eventually overcome. It brings them closer. They live happily ever after—the classic love story.

Stress has a classic story too: cortisol, the “stress” hormone, is released during stress. It wreaks havoc on the body. Lowering stress helps lower cortisol.

However, when it comes to human hormones, telling stories in a linear narrative is impossible.

Hormones are signalling molecules in the body. They are produced by endocrine organs, such as the adrenal glands, the brain, and the ovaries. They travel through the bloodstream to impact the expression of genes on distant tissues, which impacts how our bodies function.

Production of norepinephrine in the adrenal glands as a response to stress can make your heart race, your pupils dilate, your hands to shake, and your senses become hypervigilant—when a perceived threat or danger activates the release of this hormone, your entire body pulsates under its influence.

Hormonal stories are hard to fit the human desire for narratives. Their relationships with our genes, bodily systems, receptor binding sites, and each other make their actions too complicated to be described linearly. Instead they act like webs, or tangled networks of intricate connections.

When hormone levels rise in the body, beyond our delicate homeostatic balance, a phenomenon, called “resistance”, can occur. With resistance, cells reduce their responses to the hormones that interact with them.

When telemarketers keep interrupting your dinner at 6pm, eventually you stop answering the phone.

When certain hormones continue to call at the surface of cells, stressing the body’s capacity to respond, our cells simply stop answering.

Many of us ask, “what happens when I pull this thread here?” when learning about one hormone that we’ve blamed all our woes on. We tug the thread, without considering the entire web of connections, and our actions affect the entire system.

Our hormones exist in an ecosystem where everything hums and flows together, as a unit. It’s impossible to lay out explanations for their actions in a linear fashion.

Hormone stories flow like a Choose Your Own Adventure novel—a hallway with many doors that snake down long corridors and meet again, and interconnect.

Go through the door marked “estrogens”, and you encounter serotonin, cortisol, progesterone, insulin, thyroid hormones, leptin, BDNF, dopamine, norepinephrine, and many others.

Hormones are the conductors of your body’s personal orchestra, composed of thousands of musicians, a complex musical score, highly-trained arms, fingers, and mouths manipulating instruments: a million moving parts working together in harmony.

The best we can do to understand the entire interplay is to slow down the action, take a snapshot of it, and to try to understand why these symptoms are occurring in this individual.

Symptoms of Hormone Imbalances

Because hormones affect absolutely every system of our body, I am always attuned to the possibility of hormonal imbalances in my patients.

It helps to look at hormones in terms of their symptom patterns rather than how any one hormone affects us in particular.

Common signs of hormonal imbalance are:

  • Fatigue, low libido, restless sleep, depression and anxiety, waking at 2 to 4 am, a high-stress lifestyle, and brain fog might indicate cortisol imbalance.
  • PMS – and the more severe related condition, PMDD – infertility, fatigue and low libido, missed and irregular periods may be related to fluctuations in the hormones estrogen and progesterone, or low estrogen and progesterone levels. Many of these symptoms could also be related to estrogen dominance, in which estrogen is either high or normal, and progesterone is low.
  • Endometriosis, a family or personal history of female cancers, anxiety and panic attacks, heavy and painful periods, frequent miscarriages, infertility, fibroids, fibrocystic breasts and weight gain around the hips and thighs can indicate estrogen dominance.
  • High levels of male sex hormones like testosterone, irregular periods, weight gain, acne, and hair loss may indicate a female hormone condition called PCOS.
  • Fatigue, brain fog, difficulty losing weight, puffiness, constipation, dry skin and hair, and low body temperature can be signs of hypothyroidism.
  • Symptoms of reactive hypoglycemia, such as feeling dizzy, anxious and shaky between meals, sugar cravings, weight gain around the abdomen, difficulty losing weight, and low morning appetite, night-time carbohydrate cravings, and binge eating can all be related to insulin resistance and poor blood sugar control.

In my naturopathic practice, I see common patterns of symptoms that indicate certain hormonal imbalances.

These patterns often represent vicious cycles where our body is stressed beyond a capacity to balance these interconnected webs of chemical interactions, causing further imbalance.

Cortisol

Speaking of stories, here’s one I hear often.

You wake up in the morning, exhausted. Your brain is in a fog and you don’t feel alive until a cold shower or double espresso knock you out of your stupor.

Things get a bit better once you get moving, but you wonder why your energy never fully bounces back.

You used to play sports in university, you think to yourself. Now just thinking of sports makes you tired.

Is this what getting older feels like? You’re in your 30s.

The days at the office stretch on forever. Concentration and focus are difficult. You see a coworker whose name, you realize with horror, can’t be brought to mind.

You’ve known her for a year. Cynthia? Sylvia? Your brain hurts.

In the afternoon you think longingly of napping, but instead take your place in the long line for coffee and something carb-y like a cookie.

When it comes time for sleep you are either out like a light or find it hard to turn your mind off; you’re tired, as always, but also wired.

Sleep doesn’t feel restful, and you often wake up, sleepless, at 2-4am in the morning.

When your alarm rings a few hours later, the cycle begins again.

Cortisol, one of our stress hormones, has a circadian rhythm. Its levels are highest in the morning, about an hour after waking. Cortisol promotes energy, alertness and focus. It is also a potent anti-inflammatory hormone.

Cortisol is what makes us feel alive in the morning, bouncing out of bed like Shirley Temple and her curls.

Throughout the day our cortisol levels slowly dwindle (unless a major stressor causes them to spike abnormally). They are lowest in the evening, when melatonin, our sleep hormone begins to rise, inducing feelings of sleepiness, preparing us for a night of rest.

Our modern day society, however, calls on cortisol to perform more than its fair share of work. Cortisol is around when we’re hauling ourselves out of bed after an inadequate night of rest.

Cortisol fuels gym workouts, gets us to our meetings on time, allows us to meet deadlines, tolerates traffic jams, responds kindly to tyrannical bosses, and makes sure the kids get to all their after-school events.

Cortisol is made in the adrenal glands, two endocrine glands located on each kidney, in response to signals from the brain that perceive stress in our environments and bodies.

When stress hormones levels are too high we experience a “tired and wired” feeling. During this time we might feel we thrive better under stress: workouts boost our energy, we have a hard time quieting down and we rarely feel hungry.

We might still struggle with weight gain, however, especially the abdomen and face, where cortisol tends to encourage fat deposition.

We might feel tension—tight muscles and shoulders, and body pain, as muscles clench up, preparing to fight or flee.

Chronic stress is associated with high levels of cortisol. We work long hours, late into the night. We go, go, go. This may give us a “high” or it may feel exhausting and depleting.

Many of us can exist in this state for months and even years. Sometimes a compounded stressor such as a divorce, accident, or loss, can tip us over the edge into a depleted, burnt out state.

Burnout, often following a period of prolonged stress, can be associated with low cortisol signalling. Our bodies have simply stopped being able to produce the stress hormones necessary to meet the needs of our daily lives, or glucocorticoid receptors in the brain and body cells, have stopped responding to cortisol.

Just as cell can be become resistant to insulin, they can also become resistant to cortisol. Too much (or even too little) of a hormone can cause cells to start ignoring their signalling, resulting in symptoms of low levels of the hormone in some areas of the body and high levels of the hormone in others.

Cortisol is a complicated molecule. It both encourages the stress response, but also turns it off, when levels reach a certain point.

Often, cortisol levels that are too low result in an impaired stress response, preventing our fight or flight system from properly shutting off—cortisol resistance can lead to further stress hormone disruption.

The result of an imbalance in cortisol, otherwise termed Hypothalamic Pituitary Adrenal (HPA) Axis dysregulation is weight gain, fatigue and brain fog, inflammation and immune system activation, digestive issues, restlessness, impaired sleep, decreased cognitive function, and mental health conditions, such as anxiety and depression.

When cortisol levels are low, the body makes adrenaline and noradrenaline to meet our needs, which often leads to anxiety and feeling shaky and nervous, contributing to symptoms of anxiety.

Cortisol also influences the function of our sex hormones, thyroid hormones, and our blood sugar. Imbalances in any of these other hormonal systems can be a result of an impaired HPA axis.

Cortisol Testing

The two main ways to assess the body’s levels of cortisol are through serum (blood tests) and saliva.

A study found both tests were equal when it came to diagnosing Cushing’s disease, a condition of highly elevated cortisol.

One of the advantages to salivary cortisol testing is the ability to obtain multiple samples in one day to be able to view a patient’s cortisol curve, in which cortisol peaks approximately one hour after waking and declines throughout the day.

The cortisol curve is measured by assessing 4 samples of salivary cortisol taken at 4 key points during the course of one day. It measures free cortisol, which may only represent about 5% of total cortisol in the body.

While salivary cortisol levels can be a good starting point for assessing the cortisol curve, it doesn’t tell us everything about the health of the glucocorticoid receptors or HPA system as a whole.

High cortisol levels may be seen in patients with low cortisol signalling, such as depression, anxiety and chronic fatigue. Errors in obtaining salivary cortisol samples (such as not taking samples at the right time) can lead to falsely low cortisol readings.

In my opinion, this makes symptoms and health history the most valuable tools for properly assessing HPA axis function.

Cortisol and Melatonin

Melatonin, our sleep hormone, also operates on a circadian rhythm. It is released by the pineal gland in the brain and induces sleep. Its release corresponds to a drop in cortisol levels at the end of the day.

That release is impeded by artificial light exposure at night, lack of daytime sun exposure, alcohol, stress, and HPA axis disruption, among other lifestyle and environmental factors.

Melatonin, like other hormones, can be tested for in blood, urine and saliva, but I find more value in assessing for sleep quality and quantity by taking a thorough health history while also restoring a patient’s sleep hygiene and HPA axis regulation.

Many patients with sleep issues can benefit from a trial of supplemental melatonin to see if that helps their sleep. Taking it 2 to 3 hours before bedtime to coincide with the body’s natural melatonin surge and taking a prolonged-release version to promote sleep maintenance are two strategies I use for helping patients sleep better.

Working on sleep and circadian rhythms is also beneficial for restoring HPA axis functioning.

The “Female” Hormones: Estrogen and Progesterone

The most prevalent female sex hormones are estrogen and progesterone. These two hormones eb and flow in distinct ways throughout a woman’s monthly cycle.

Estrogen creates an “M” shape, rising at the beginning of the cycle to its first peak around ovulation, half-way through the cycle. At this time women typically experience their best mood, energy, and motivation, perhaps noticing a rise in libido.

After ovulation, estrogen dips a little bit and then rises, peaking again about a week before a woman’s menstrual cycle is due.

After this, estrogen takes a nosedive, reaching low levels around the time that menstruation begins: Day 1 of the menstrual cycle.

Progesterone, on the other hand is largely absent the first half of the cycle, before ovulation. Then, it begins a steady climb to peak with estrogen, about a week before the arrival of the next period.

After peaking, just like estrogen, progesterone then takes a dip, which stimulates the uterine lining to shed, resulting in menstruation, in which the entire cycle begins again.

PMS and PMDD

My practice is populated by women who experience various forms of grief at different stages of their monthly cycles.

Many of my patients experience PMS, and the more severe PMDD (Premenstrual Dysphoric Disorder)—which is characterized by intense mood swings, irritability, depression, or anxiety, panic attacks and psychosis in the most severe cases— up to two weeks before their periods.

The mood changes in PMS and PMDD are associated with fluctuations in the hormones estrogen and progesterone, which can wreak havoc on our brain chemistry.

Estrogen has a beneficial effect on mood, increasing dopamine and serotonin action in the brain. Dopamine and serotonin are two antidepressant, feel-good neurotransmitters.

Estrogen also increases something called Brain-Derived Neurotrophic Factor (BDNF) a chemical that stimulates the growth of brain cells. This can boost memory, concentration, and cognition, as well as positively influence mood.

Progesterone breaks down into a chemical called allo-pregnenolone, which acts like GABA, a calming neurotransmitter, in the brain. Bioidentical progesterone therapy is often used as a treatment for anxiety and insomnia.

When estrogen and progesterone levels surge and drop suddenly, drastic fluctuations in mood can occur. Cravings for sweets, crying, lack of motivation, or severe anxiety can all occur when hormones drop right before a period is due.

However, elevated levels of estrogen can also be problematic. Estrogen stimulates dopamine, which typically makes us feel good, gives us energy, and helps to motivate us. In genetically vulnerable women, elevated levels of dopamine can cause excess irritability, low stress tolerance, and even mania or psychosis.

Estrogen also slows the recycling of the stress hormones epinephrine and norepinephrine, which can lead to symptoms of acute stress and anxiety, when dysregulated.

This means that dramatic rises and falls in estrogen throughout a woman’s cycle can cause her to feel irritable and anxious one week and unmotivated and depressed the other.

Smoothing out hormonal ups and downs can be a key factor in regulating a woman’s menstrual cycles and soothing her mood and emotions throughout the month.

Perimenopause and Menopause

Perimenopause is characterized by a declining production of the ovarian hormones estrogen and progesterone.

Estrogen levels tend to rise and fall dramatically throughout a woman’s remaining cycles, while progesterone levels tend to stay low.

The result of these changes are symptoms like hot flashes, night sweats, brain fog, fatigue, and depression when estrogen levels suddenly tank, and increased stress and anxiety when estrogen levels abruptly spike.

During this time, cycles may become irregular. Some of my patients comment that their periods are incredibly light one month and the heaviest of their lives another.

Some get periods every few months and some notice increased frequency, even spotting between cycles, or have a full-blown period every two weeks in more extreme cases.

Weight gain tends to drift from the thighs and buttocks to the abdomen. Once pear and hourglass-shaped figures begin to resemble apples.

Fatigue is a common symptom. Women may experience poor sleep due to night sweats from estrogen deficiency, and anxiety from insufficient progesterone.

What a joy, right?

Many of these perimenopausal symptoms are a relatively modern phenomenon, stemming from a dysregulated HPA axis.

After cessation of periods, it’s the job of the adrenal glands to take over sex hormone production. However, if the HPA system is preoccupied with organizing a stress response, this can affect the production of other hormones.

Impaired Estrogen Clearance

Many women struggle with symptoms that are related to relatively high levels of estrogen, often caused by impaired estrogen clearance.

These conditions include heavy and painful periods, fibrocystic breasts, or conditions like fibroids or endometriosis.

Chronically elevated estrogen levels also include a risk of certain hormone-associated cancers, such as breast cancer.

These women may experience irritability and anxiety through estrogen’s interaction with stress hormones, and also from a relative deficiency in progesterone.

A relatively high level of estrogens compared to progesterone is termed “Estrogen Dominance”.

Estrogen is normally cleared through the digestive system: the liver and intestines.

A sluggish and congested liver causing a slower rate of hormonal clearance (think of it like a clogged drain), an increase in environmental toxin exposure, or an overconsumption of alcohol, can slow the liver’s ability to regulate estrogen levels in the body.

Constipation and a dysbiotic gut can also impair estrogen clearance.

Symptoms of estrogen dominance include stubborn weight gain, typically around the hips and thighs, heavy and painful periods, tender and painful breasts, fibrocystic breasts, endometriosis,  uterine fibroids, acne, cyclical mood swings, especially premenstrual anxiety and panic attacks, and irregular menstrual cycles.

Low Progesterone

Aside from impaired estrogen clearance, another pattern of estrogen dominance is low progesterone.

In this case, estrogen levels are normal or even low (as in the case of menopausal or perimenopausal women). However, an even lower progesterone level still results in a pattern of relative estrogen dominance.

This can cause some of the same symptoms as excess estrogen (anxiety, irritability, heavy and painful periods, weight gain, PMS, fibroids, fibrocystic breasts, etc.).

Low progesterone can also be a culprit in unexplained infertility or early term miscarriage, as progesterone maintains the uterine lining in pregnancy.

Progesterone is released from the ovaries after ovulation. Lack of ovulation, therefore, is a primary reason for low progesterone levels. Anovulatory cycles can occur in women with polycystic ovarian syndrome, women with high levels of physical and emotional stress, or women entering menopause.

Some progesterone, however, is also made in the adrenal glands, where it can be eventually turned into cortisol, aldosterone (a steroid hormone involved in salt-water balance in the body) and androstenedione (a male sex hormone), eventually making testosterone and estrogen.

Women with high cortisol demands due to chronic stress may shunt the progesterone made in their adrenal glands to producing other hormones that support the stress response.

Not only can stress alter ovulation and fertility through various other mechanisms, it can also rob the body of progesterone, directing any progesterone made towards cortisol production.

Testing Estrogen and Progesterone

Estrogen and progesterone can be tested reliably in saliva, blood and urine.

Month long salivary hormone testing of estrogen and progesterone can be an easy and effective way to track the eb and flow of these hormones throughout a women’s menstrual cycles.

In this test, women obtain a saliva sample every 3 to 5 days for the duration of the month to track how estrogen levels corresponds with progesterone and how both hormones rise and fall.

In my practice, however, I often start by running blood tests. I test hormones on day 21 (of a 28-day cycle) to coincide with progesterone’s peak. This can help us calculate the progesterone to estrogen ratio and establish whether the cause of estrogen dominance symptoms is high estrogen or low progesterone.

Blood tests offer the option of looking at estrone, which is a more problematic form of estrogen, as well as estradiol (the most common, metabolically active estrogen in the body). In blood we can also look at LH and FSH, two hormones produced in the brain and ovaries that orchestrate ovulation.

FSH tends to be high in women in menopause or perimenopause, while LH tends to be elevated in women with Polycystic Ovarian Syndrome (PCOS).

Dried urinary metabolite testing, or DUTCH, is an effective way to understand how hormones are broken down and processed by the body. Looking at the entire hormone breakdown pathway provides a more in-depth look at the complexity of hormones in a woman’s cycle, and can guide treatment in specific, useful ways.

The “Male” Hormones: Testosterone

Polycystic Ovarian Syndrome (PCOS) is one of the most common causes of infertility (and the most common endocrine disorder) in women of reproductive age. It affects about 10% of menstruating women.

PCOS is a collection of various symptoms and complex hormonal causes. However, it is characterized by missed periods, anovulation, male-pattern facial hair growth, especially on the upper lip, chin, breasts and abdomen, and the presence of cysts on the ovaries.

Other common symptoms of PCOS are weight gain, estrogen dominance, male-pattern hair loss (on the crown of the head), insulin resistance, infertility, and acne, especially hormonal cystic acne on the jawline.

PCOS is characterized by elevated levels of testosterone, a male sex hormone, or “androgen”, on blood work.

Acne, weight gain, infertility, and hair loss are the main symptoms that bring women with PCOS into my office.

PCOS is a complex process that involves an overproduction of testosterone in the ovaries coupled with insulin resistance. Therefore, balancing blood sugar through diet and lifestyle can have a major impact on symptoms.

The conventional treatment for missed or absent periods is oral contraceptives, which of course doesn’t treat the underlying cause of anovulation. That’s why women with PCOS often seek naturopathic and functional medical solutions to treat the root cause.

Testing for PCOS

When I meet a new patient with PCOS, I often test her blood for estradiol and progesterone levels at Day 21 of her cycle. A very low progesterone level may indicate that she has not ovulated that cycle.

We also test LH and FSH. A high LH:FSH ratio can be indicative of PCOS even if cysts are not present on an ovarian ultrasound.

Other important tests that are often ordered are free testosterone and DHEA-S, another male hormone made in the adrenal glands.

Glucose control and insulin resistance can be assessed by looking at fasting blood glucose, fasting insulin and HbA1c (a marker that looks at long-term glucose control).

Prolactin, another hormone released by the pituitary gland, can sometimes be elevated in anovulatory women with PCOS.

A 4-point salivary cortisol test may be useful in women with PCOS who are also experiencing symptoms of cortisol dysregulation, which can contribute to insulin resistance and affect ovulation and hormone regulation, particularly progesterone production.

Prolactin

Prolactin is a hormone released by the pituitary gland to promote milk production after child birth.

However, some women will have elevated levels of prolactin in blood, despite not currently pregnant or breastfeeding.

Called hyperprolactinemia, elevated prolactin may be a cause of anovulation, mimicking some symptoms of PCOS and menopause, including hot flashes, absent or irregular periods, infertility and even milk discharge from the breasts.

Hyperprolactinemia may be caused by low calorie diets, liver issues, hypothyroidism, and issues with the pituitary gland itself.

Prolactin can be tested in blood. If levels are elevated, an MRI must be conducted to rule out a physical issue with the pituitary gland, such as a tumour.

Oxytocin

Oxytocin is a hormone produced in the brain and secreted by the pituitary. It aids in childbirth. Also termed the “love hormone,” it’s associated with feelings of intimacy and connection.

While high and low levels of blood oxytocin can be possible in men and women who are not pregnant or breastfeeding, the clinical applications of it are not fully known.

Thyroid Hormones

The thyroid, a butterfly-shaped gland on our neck, is the master thermostat of the body, controlling heat and metabolism. It pumps out thyroid hormones T4 and T3, which tell cells to burn fuel, creating energy and heat.

Because our thyroid hormones interact with the cells in every body system, symptoms of hypothyroidism, or low thyroid function, can be incredibly diverse.

Common symptoms of hypothyroidism are weight gain or inability to lose weight, fatigue and sluggishness, brain fog, hair loss, low body temperature, constipation, dry skin and hair, puffiness, infertility, and altered menstrual cycles, such as missed periods or heavy periods.

Aside from autoimmunity, other causes of low thyroid function can be HPA axis dysregulation and chronic stress, a very low calorie or very low carbohydrate diet, sudden weight loss, a deficiency in nutrients needed for thyroid function such as iron, zinc, iodine and selenium, and a body burden of environmental toxins such as heavy metals.

Testing Thyroid

To assess thyroid function, conventional doctors will test a hormone called Thyroid Stimulating Hormone, or TSH. TSH is not a thyroid hormone, but a hormone made in the brain that urges the thyroid to pump out the thyroid hormones T3 and T4. It gives doctors an indirect measure of thyroid regulation.

When TSH levels are high, this suggests that thyroid function is sluggish; the brain needs to send a louder signal to get an unresponsive thyroid to work.

However, TSH is only a periphery marker of total thyroid function, not giving us the whole picture. Also, TSH ranges on conventional lab tests may fail to pick up some cases of subclinical hypothyroidism or impending cases of autoimmune thyroid conditions, otherwise termed Hashimoto’s Thyroiditis, which is the most common cause of hypothyroidism.

To properly assess thyroid function in someone with symptoms of thyroid dysfunction, a slightly elevated TSH, or a family history of Hashimoto’s, I will order a thyroid panel: a blood test measuring TSH as well free thyroid hormone (T3 and T4) levels.

It’s also important to assess for autoimmune thyroid conditions by testing for anti-thyroglobulin and anti-thyroperoxidase antibodies. Both of these antibodies, when elevated, suggest the presence of an autoimmune thyroid condition.

Insulin

Some of the most common hormonal dysfunctions I see in my practice are insulin resistance and reactive hypoglycemia: blood sugar imbalance.

These issues often lie at the heart of other hormonal imbalance patterns, such as irregular menstrual cycles or HPA axis dysregulation.

When we eat, glucose enters our bloodstream, providing fuel for our cells. Insulin helps our cells access this hormone, spiking with each meal.

The higher the meal is on the glycemic index (i.e. the more sugar or refined carbohydrate it contains), the higher our post-meal blood sugar and insulin spikes will be.

Without insulin, we would slowly lose energy and die, unable to get precious glucose into our cells. Individuals with type I diabetes cannot make insulin. They must inject it daily to keep their cells fuelled and blood sugar stable.

For the rest of us who do make insulin, large blood sugar spikes after a meal can be problematic.

Insulin is a storage hormone. It helps energy get into cells, and it helps build muscle and brain cells, but it also blocks the breakdown of fat cells, blocking weight loss.

Insulin also drives down blood sugar levels. When blood sugar rises too quickly after a meal, a large insulin response can drop blood sugar levels too drastically, causing reactive hypoglycemia, or feeling “hangry” (hungry, angry, irritable, tired, light-headed, weak and dizzy) in between meals.

Individuals who experience hypoglycemia feel irritable, shaky, dizzy and anxious between meals. They often suffer from anxiety and panic attacks, and feel hungrier at night.

They may wake up in the middle of the night, as their bodies are unable to go 8 hours (the length of a decent night’s sleep) without food. This causes them to wake up, restless and perhaps anxious, in the early hours of the morning.

These individuals, paradoxically, rarely feel hungry at breakfast time.

I often see anxious patients wake from a restless sleep and toss back only a coffee in the morning, skipping breakfast due to slight morning nausea.

At 10 am, feeling ravenous and shaky, they might scarf down a high-glycemic bagel or croissant. Later on, they’ll enjoy a light lunch—maybe a sandwich—often feeling foggy and lightheaded after eating it.

At 2 to 4 pm, they may feel like an afternoon nap, instead indulging in a coffee and sweet treat to buy them some energy for the remaining hours of the work day.

Finally, after enjoying a larger dinner once they get home, they find themselves snacking all night long. Their bodies are finally urging them to ingest the nutrients they were lacking throughout the day.

They then fall into bed, feeling full, restless and wired, and the cycle begins again.

When our blood sugar falls, we not only feel hangry, weak, and crave processed carbs, our HPA axis also gets stimulated.

Cortisol, a glucocorticoid, can help our body control blood sugar, bringing it into the normal range after insulin sends it tanking too low.  

This drop in blood sugar, therefore, needlessly triggers a stress response from the adrenal glands, which can further worsen anxiety, HPA axis dysregulation, and glucocorticoid resistance.

When blood sugar and insulin are spiked repeatedly for days, months, and years on end, cells stop responding attentively to insulin’s signal. Like our response to a pesky telemarketer, cells eventually stop picking up the phone when insulin calls.

However, cells still need insulin. More and more insulin must be released to trigger the same response from insulin resistant cells. This makes cells even more resistant, as they require even more insulin release the next time blood sugar rises to get glucose into the cell for fuel. And so the cycle becomes vicious.

Elevated insulin levels cause inflammation, fat gain, fatigue, depression, reactive hypoglycemia, and HPA axis dysregulation. The more resistant our cells become to insulin, the more cortisol must be called on to maintain blood sugar levels.

PCOS is also characterized by higher insulin levels. This prevents ovulation, causing infertility and female hormone imbalance.

When insulin resistance persists, type II diabetes, where the body is no longer able to keep blood sugar in a safe range, develops.

Type II diabetes is characterized by chronically high blood sugar—which poses a danger to small blood vessels, and is a potent inflammatory condition, increasing the risk of heart disease—and elevated insulin.

It affects almost 10% of the adult population and is the 7th leading underlying cause of death in North America, costing 350 billion dollars a year to manage in the United States alone.

Insulin-related weight gain can affect female hormones, as fat cells make estrogen in the body, leading to estrogen dominance.

Insulin also interacts with a hormone called leptin, which is created by fat cells in response to calorie intake. When body fat levels get too high, cells can become leptin resistant. The body no longer senses dietary calorie intake, leading to increased hunger. This exacerbates the problem of weight gain and insulin resistance.

Testing for Insulin Resistance

When I meet a patient who is presenting with stubborn weight gain, estrogen dominance and stress, I assess their blood for insulin resistance by looking at blood levels of fasting insulin and fasting glucose.

With these two values a calculation that measures insulin resistance, called the HOMA-IR, can be performed. This can give us a baseline measure of how well the body is compensating to control blood glucose.

I also run HbA1c, which looks at glucose levels over 3 months. I will often run a blood cholesterol panel, and inflammatory markers, such as CRP.

Insulin resistance often puts all of our hormones on a rollercoaster, which becomes very difficult to get off of unless we prioritize the diet and lifestyle interventions that address blood sugar control.

Assessing Hormones

When presented with a patient suffering from a complicated symptom pattern, I begin by taking a thorough health history in which we investigate:

  • Energy levels,
  • Sleep quantity and quality,
  • Mood and mental health history,
  • Period health history,
  • Family history,
  • Dietary intake and exercise,
  • Health risk factors like smoking, alcohol use, and past health history.

Depending on how clear the patient’s symptom picture presents, we may opt to make some changes before testing, to gauge their body’s response to an increase in nutrient intake.

Then, if necessary, I will order a comprehensive blood work.

Blood testing might include a thyroid hormone panel, and an in-depth look at female hormones, fasting insulin and fasting blood glucose, and other markers that help us assess health, such as cholesterol and inflammatory markers, or nutrient levels.

Patients requiring a more comprehensive view of their cycles may opt for month-long salivary testing. Others may opt for a dried urine test that looks at hormonal breakdown in the body.

A Sample Case

Jenny (name changed for privacy) came to me feeling fatigued and anxious.

She had suffered from anxiety periodically as a teen, but now at age 46 she was experiencing bimonthly panic attacks that seemed to occur cyclically; the panic would come around ovulation and premenstrually.

It was hard to tell, however, because Jenny also claimed that her periods were “all over the place”. One month they were heavy and painful, causing her to take time off work, crouched on the bathroom floor in agony. Other months she barely noticed them, experiencing some light spotting, if anything at all.

Very troubling to her was her major mood volatility, which she described like a “switch” that would suddenly flip on or off, causing her to breakdown at work or pick fights with her family.

Then, almost as suddenly, the cloud would lift and she would be her cheerful, friendly, loving self again.

It was maddening, both to her and those living with her during these darks times, she said.

She also noticed disrupted sleep and weight gain around the abdomen, which seemed to ignore her intense workouts and strict dietary regime.

Jenny was highly accomplished at her high-pressure job and commented that she thrived on being busy and achievement oriented.

I tested Jenny’s blood estradiol, estrone, progesterone, LH, and FSH levels one week before her next expected period, had her fill out a weekly diet diary, and gave her some recommendations about sleep and supplement intake.

Jenny’s blood revealed elevated FSH, indicative of impending menopause (FSH encourages the ovaries to ovulate, as TSH encourages the thyroid gland to make thyroid hormone). She also had low estradiol, and low progesterone, but elevated levels of estrone, the more problematic of the estrogens.

According to her labs and history, Jenny was experiencing estrogen dominance and perimenopause. Many of her symptoms were stemming from elevated estrone, low progesterone and a disrupted HPA axis.

Together, we worked on her diet to provide her body with the nutrients needed to make hormones and to support her brain, mood and adrenal glands.

We used herbs and dietary nutrients to promote liver estrogen clearance and to support Jenny’s adrenal glands.

We addressed the stress in her life, encouraged relaxation, and made sure her body was supported in its ability to make and respond to cortisol.

After a few months, Jenny reported a reduction in hot flashes, better sleep and feeling calmer. She had a reduction in her waist line and better energy and mood.

Our hormones, when imbalanced, can cause vicious cycles in the body that trap us in a state of worsening imbalance.

Through correctly assessing these common hormonal patterns through a health history and appropriate testing, and then making diet, lifestyle and supplement suggestions addressed at stopping these cycles, naturopathic doctors can address underlying hormonal issues that might be causing these complex and troublesome patterns of hormone disruption.

 

What to Do About Your Mirena IUD (And Other Hormonal Issues)

What to Do About Your Mirena IUD (And Other Hormonal Issues)

Since publising the original article about the Mirena IUD on this blog, thousands of women have come out of the woodwork writing to me asking for help.

When I originally wrote the article, I was spurned on by my observations of the women in my practice who had experienced a rise in estrogen dominance and low progesterone after the insertion of their IUDs (which were often inserted to treat hormone imbalances!).

At that point I never imagined that so many women would be affected by the IUD, or that even more were suffering from so many hormonal symptoms that drastically affected their lives and health.

It makes sense: our society does not set us up for proper hormonal function.

Our diets are carbohydrate-heavy, promoting insulin resistance and blood sugar dysregulation, which impacts our ovaries’ ability to make estrogen properly.

An excess amount of body fat produces more estrogen in the body and acts as a reservoir for the toxic estrogens in our environment.

We lack many of the micronutrients necessary to process our hormones properly, such as vitamin D, B vitamins, magnesium, zinc, omega 3 fatty acids, glutathione, and amino acids.

Many of us have impaired or suboptimal liver function, or sluggish digestion, which keeps hormones in our bodies around longer than they should be.

A dysbiotic gut has the tendency to turn estrogen in the gut back “on”, putting it back into circulation when it was otherwise on its way out of the body.

Stress alters our hormonal function, including our ability to make progesterone, DHEA-S, convert thyroid hormones, and process estrogen properly.

Xenoestrogens in our food and environment, from plastics, fragrances, pesticides, and processed soy products, contribute to overall body burden of the hormones in our body, throwing off our delicate balance, and contributing to symptoms.

The result of all this is that many women suffer from hormonal imbalances.

10% of women have some form of PCOS, or Polycystic Ovarian Syndrome, characterized by the body’s inability to properly make progesterone or estrogen, instead making loads of male hormones, like testosterone. PCOS alters fertility, promotes weight gain, and causes things like unwanted facial hair growth, acne, and missed periods. PCOS is often connected to stress and insulin resistance.

Many women in my practice suffer from PMS or PMDD, experiencing often debilitating symptoms sometimes even two weeks before their periods begin. They might get migraines, intense cravings for sugar, and massive mood changes, such as anxiety, intense irritability, or devastating depression. Panic attacks can occur at this time as well. Many of them comment that their mood and personalities flip once their hormones levels reach a certain point, causing them to act like different people. This can jeopardize their relationships with spouses and children, coworkers, friends and family.

Tender and painful breasts, or breast lumps, are also common in many of these women.

Acne, weight gain, stress, fatigue, disrupted sleep, depression and anxiety are all symptoms I see in women with hormonal imbalances.

Many women have horrific cycles, experiencing painful and heavy periods that often cause them to miss days of work every month. Many of these women struggle to keep their iron levels in the optimal range, suffering from hair loss, fatigue and weakness.

Many women are diagnosed with fibroids, or endometriosis, or are concerned about their risk of female cancers like breast, ovarian, uterine and cervical cancer.

All of these symptoms are often linked to relatively higher levels of estrogens compared to progesterone, sometimes termed Estrogen Dominance by functional medical practitioners who look at the underlying causes of bodily imbalances.  

I feel terrible that I can’t help more of the women who write to me. My license prevents me from giving advice to those who live abroad, especially to non-patients over the internet. It’s a shame, however, because oftentimes the solutions are relatively simple, despite how complicated many of these symptoms might seem.

I’m hoping that this article can provide some direction to many of the women who suffer.

Firstly, I want to state that I am not against birth control or even the Mirena IUD (or other IUDs, for that matter). The vast majority of women with the IUD tolerate it. For many women with debilitating heavy periods and endometriosis it can be the only viable solution that makes life tolerable.

In my social practice at Evergreen, many of the women I see experiencing homelessness, drug addiction, or PTSD from relationship trauma, rely on the efficacy of IUDs to prevent unwanted pregnancies. Their lives often don’t allow for them to remember to consistently take pills every month.

Many women don’t tolerate combination birth control because of a history of blood clots, female cancers, or migraine headaches associated with their periods, and therefore the Mirena IUD, which is progesterone only, is a safe alternative for preventing unwanted pregnancy.

That all being said, many women do suffer on the Mirena IUD (or other forms of birth control). They were perhaps put on the Mirena to deal with some of the above symptoms of hormonal imbalance, or for contraception. Many of them noticed that their symptoms became worse after insertion of the IUD.

How the Mirena IUD and Birth Control Works:

The Mirena works by secreting small amounts of progestins, a synthetic form of progesterone, into the uterus and surrounding tissues. While it is not fully known how the Mirena works, the end result is a suppression of ovulation. This results in either very light periods or a complete cessation of periods until the IUD is removed (after 5 years when its hormones run out).

It is important to say here that, while birth control can certainly treat the symptoms of hormonal imbalances, it does not correct them.

All forms of birth control, with their synthetic versions of the hormones estrogen and progesterone, simply induce further hormone imbalances in the body. They introduce versions of hormones that may suppress or alter symptoms (such as heavy and painful bleeding, or acne), but the versions of hormones are not fully recognized by the body and therefore don’t fully replace all the hormones’ important functions, such as mood regulation, immunity, or blood sugar balance.

The effects of both altering the body’s natural hormonal balance, while ignoring the underlying cause of hormonal issues, is often what causes symptoms to continue or worsen.

For example, women with PCOS are prescribed birth control to manage acne or promote monthly periods. However, when women with PCOS miss periods, it is because they are not ovulating. The missed periods are not the problem; the lack of ovulation is.

Despite that, many women with PCOS experiencing amenorrhea (or missed cycles) will be prescribed birth control. However, birth control does not address the underlying cause of amenorrhea. It simply further suppresses ovulation (because its main purpose is to prevent unwanted pregnancy).

The periods you get while on birth control are not periods. Periods from birth control are withdrawal bleeds. After 21 days of taking hormonal pills, pills are stopped or replaced with placebo pills. The withdrawal of hormones in the pills induces a bleed that resembles a period, but is not one.

Hormonal contraception does not correct hormonal imbalance, it imposes further hormonal imbalance to manage symptoms. This is not always bad!

But it is an important difference.

Many women do require symptom suppression, particularly if their symptoms are severe. Many individuals in my practice experience periods so heavy that the only way for them to get through the month is with an IUD. Genetic variability in how our bodies process hormones can make us susceptible to intense hormonal symptoms, through no fault of our own.

In my opinion, however, it is important to attempt to address the underlying cause and to set our bodies up for better hormonal regulation, making as many changes as our lifestyles will allow.

What You Can Do About It: 

If you are like any of the people I described above who seek my help, there are a few things that you can do to get started on correcting hormones.

Working With a Professional:

The first thing I advise is finding a licensed naturopathic doctor or functional medicine practitioner who understands hormones, can order lab tests, and will address the underlying cause of your hormonal imbalances by taking the time to fully understand your body and lifestyle.

This practitioner might be a naturopathic doctor (you can find one in North America by looking one up at naturopathic.org), or a medical doctor, a chiropractor, or a highly skilled nutritionist or nurse practitioner. Research this person well, read their articles, and perhaps book in with them for a complimentary meet and greet.

Testing: 

I often test patients using simple blood tests, on day 21 of their cycles (or about 7-9 days before they expect their next period).

I will test their blood, looking for anemia, will test iron and B12 levels, homocysteine (to gauge their ability to methylate), vitamin D, cholesterol (to see if their diets are promoting proper hormone synthesis), estradiol, estrone (the more toxic, problematic estrogen), progesterone, free testosterone, a thyroid panel, fasting glucose and fasting insulin (to calculate insulin resistance using something called the HOMA-IR), HbA1C (to look a long-term blood glucose control), FSH and LH (two hormones made in the brain that talk to the ovaries and orchestrate the menstrual cycle), DHEA-S, to name a few.

Some women will require more testing. Others will require less.

These labs are interpreted from a functional perspective. Even though you are in the “normal” ranges (which take into account the entire population, many of which are not healthy—they are seeing their doctors, after all!), these blood markers may not be optimally balanced, giving us an opportunity to correct things before they go further.

Testing allows us to match symptoms to underlying imbalances and to be able to properly direct treatment protocols. Women with estrogen dominance may be experiencing high levels of estrogen and normal progesterone, which indicates a body burden of estrogen or impaired liver and digestive system clearance. Other women may be experiencing normal levels of estrogen but low progesterone, indicating a failure of their bodies to ovulate, due to high stress, and PCOS (or the Mirena IUD and birth control pill).

Other options for hormonal testing are month-long salivary hormone testing, or DUTCH testing, which looks at hormone breakdown in the urine. I sometimes run these tests, but find that blood testing is useful, accurate, and more cost-effective.

Treatment: 

Once you understand your individual hormonal situation through testing (and through working with a practitioner who is putting the testing together with your symptoms and health history), your practitioner may recommend a variety of treatments.

I personally combine diet and lifestyle with key herbal and nutritional supplements, to target what is going on under the surface with my particular patients.

These treatments may include herbs that boost ovulation, aid liver detoxification, or regulate the stress response. I might recommend nutraceuticals that encourage methylation, or aid in hormone production.

My treatments take into account the individual’s symptoms, labs, diet, lifestyle, and any other health issues she may be facing like fatigue, digestive disturbances, or poor sleep.

What You Can Do Today: 

Barring more individualized assessment and advice, there are some best lifestyle practices that can help most women balance their hormones better, whether they are still using birth control to control and address their hormonal symptoms or prevent pregnancy.

Diet: 

When it comes to diet and hormone support, we need to ensure that we are balancing blood sugar, boosting liver detoxification pathways, promoting hormone synthesis, and supporting digestion, especially if experiencing constipation.

  • Consume more leafy greens: kale, spinach, collards, beet greens, arugula, etc. Eat 1-2 cups of these foods every day. Leafy greens contain active folate, which boosts methylation and detoxification. They also contain magnesium which is essential for hormonal regulation as well as 300 other important biochemical reactions in the body that balance mood and hormones.
  • Consume more cruciferous vegetables: broccoli, cauliflower, brussel sprouts, cabbage, bok choy, etc. Eat 1-2 cups of these foods every day. Crucifates help the body make glutathione, and contain indole-3-carbinole, which helps eliminate excess estrogens from the body. Broccoli sprouts are potent players in these pathways. Consume them as often as possible.
  • Ensure adequate dietary fibre intake: I often recommend ground flaxseeds or chia seeds in smoothies, avocados, fruits and vegetables and legumes (if tolerated) to make sure that women are having regular bowel movements to clear excess estrogens out of the body. 2 tbs of ground flaxseed (or more) every day can help balance estrogen levels and promote daily bowel movements.
  • Balance blood sugar: consume protein, fat and fibre at every meal. Avoid refined starches and flours. Avoid all sugar, even natural sugar like maple syrup, coconut sugar, cane sugar, honey, agave, etc. Try stevia or avoid sweets. Limit carbs (grains, legumes, root vegetables like potatoes or sweet potatoes, to 1/2 cup to 1 cup per meal). Only consume whole grains like quinoa, buckwheat, steel cut oats, millet, and teff. Cook them yourself!
  • Avoid soy, particularly processed soy, like vegan burgers, or soy milk.
  • Consume omega 3 fatty acids in fatty fish like salmon and sardines, or nuts and seeds like flax and chia seeds, walnuts, and pumpkin seeds. Get 2-4 tablespoons of these nuts and seeds every day and 3-4 servings of fatty fish a week.
  • Consume animal products: eggs contain choline, which is essential for liver function, meat contains vitamins B6 and B12, which are essential for hormonal regulation and production. Cholesterol in animal products are the backbones of our sex hormones. Iodine, found in animal foods, regulates estrogen balance in the body. If possible, try to obtain organic animal products from pastured or free-range animals to boost omega 3 intake, to lower your impact on the environment, and to promote animal welfare.

Other Lifestyle Practices:

Boost progesterone production by managing stress:

  • Establish a self-care routine: plan regular vacations, even small outings, do meditation or yoga, take breaks from work, spend quality time with family, have a plan to get your work done on time, ask for help.
  • Sleep! Aim for at least 8 hours of sleep, and try to get to bed before 12am. Practice good sleep hygiene by avoiding electronics before bed, keeping the bedroom as dark as possible, and setting a bedtime and wake time, even on weekends. Body scan meditations and some key supplements can be helpful for resetting circadian rhythms. Regulating blood sugar can have a major impact on improving sleep. Talk to your functional medicine doctor or naturopathic doctor for individualized sleep solutions.

Eliminate exposure to toxic estrogens and boost estrogen clearance:

  • Avoid exposure to xenoestrogens: whenever possible use natural body products, deodorants and shampoos, or “edible” body products for face and hair. Avoid plastic water bottles and plastic food containers. Use natural cleaning products around the house. Avoid fragrances and processed foods, especially processed soy.
  • Encourage sweating: get regular exercise or engage in regular sauna therapy. If you don’t have access to a sauna, epsom salt baths can also work—anything that helps you sweat. Heat therapy has also been shown to benefit mood and the stress response.
  • Heal your digestion: make this a priority with your naturopathic doctor, so that you can absorb the nutrients from the foods you’re eating as well as encourage daily bowel movements and optimal microbiome balance.
  • Maintain a healthy weight: body fat is metabolically active and can increase overall estrogenic load. Work with your naturopathic doctor to manage your weight. We often attempt to lose weight to become healthy, however I find my patients have far more success (and fun!) getting healthy in order to lose weight. Healthy weight loss often involves managing stress, sleeping 8 hours a night, avoiding sugar and processed foods, and regulating blood sugar, as well as encouraging proper sweating and liver detoxification.

 

 

 

Want to balance your hormones, energy and mood naturally? Check out my 6-week foundational membership program Good Mood Foundations. taliand.com/good-mood-learn

Preventive Medicine: 9 Root Causes of Disease

Preventive Medicine: 9 Root Causes of Disease

I often get emails like this, “Dear Doctor, please tell me your favourite natural cure for anxiety”, to which I often reply:

Dear, Anxiety,

Imagine you are a gardener, tending to your garden. You are a skilled gardener: you tend lovingly to your plants every day and you care deeply for their welfare.

You are the perfect gardener in every way, except for one: for some reason you don’t know anything about soil.

No one has ever taught you about the damp, dark soot that envelopes the roots of your beloved plants, kindly offering to them its protection, water, and nutrients.

You are a gardener, but are innocently oblivious to the fact that soil must be nurtured by millions of microbes, and that nutrients in the soil must be replenished. You have no idea that the other plants sharing the soil with your garden form a complex network of give and take, depositing nutrients into it, while greedily sucking others away.

Now, as this soil-ignorant gardener, imagine your surprise when, despite your care and attention, the plants in your garden wither and die, bearing no flowers or fruit.

Imagine your frustration when your efforts to prop up tired stems fail. You apply water and fertilizer to buds, leaves and stems. You stand by, powerless, as your garden dies.

Notice the weeds taking over your garden, which you lop off at their stems, unaware that their roots reside deep inside the earth.

When the weeds pop up again and again, you slash at them, burn them, and you curse the skies.

“Why me?”

Why you, indeed.

You are unaware of root gardening, soil gardening, just as many of us are unaware of root medicine—soil medicine.

You see, Anxiety, there are many natural remedies that can help.

However, tossing natural pills at twitching nerves, imbalanced blood sugar, unregulated stress responses, and various nutrient deficiencies, might be as naive a practice as spray painting your roses while they wilt in sandy earth, beneath their red paint.

It might be akin to prescribing anxiety medication or a shot of vodka to calm your trembling mind; you might feel better for a time, propped up with good intentions, before collapsing in the dry soil encasing you.

With no one to tend to your roots you eventually crumple, anxiety still rampant.

“Why me?” You curse the skies.

Rather than asking, “Why me?” it might help to simply start asking, “Why?”

While it is important to understand the “What” of your condition—What disease is present? What is the best natural cure for anxiety?—naturopathic doctors are far more interested in the “Why”.

As Dr. Mark Hyman, functional medical doctor, asks:

Why are your symptoms occurring?

Why now?

And why in this way?

Naturopathic doctors prescribe natural remedies for conditions such as anxiety, it’s true. However, naturopathic medicine is a medicine that first tends to the soil.

Naturopathic doctors first look for and addresses the roots of symptoms, working with the relationships that exist between you and your body, your food, the people in your life, your society, your environment—your soil.

Healing involves taking a complete inventory of all the factors in your life that influence your mental, physical, and emotional wellness. It requires looking at the air, water, sunlight, nutrients, stressors, hormones, chemicals, microbes, thoughts and emotions that our cells bathe in each day.

Healing means looking closely at the soil that surrounds us. It requires asking, What are the roots that this condition stems from? And, What soil buries these roots? Does it nourish me?

Do I nourish it?

The causes of disease can be interconnected and complex. Very often, however, there are common root networks from which many modern-day chronic health conditions arise.

Starving Gut Bacteria.

It was Hippocrates, the father of medicine, who first proclaimed that “All disease begins in the gut.”

Our digestive systems are long, hollow tubes that extend from mouth to anus, and serve as our body’s connection to the outside world. What enters our digestive system does not fully become the body until the cells that line that digestive tract deem these nutrients worthy of entering.

Along their 9 metre-long, 50-hour journey, these nutrients are processed by digestive enzymes, broken down by trillions of beneficial bacteria, and sorted out by the immune cells that guard entrance to our vulnerable bodies.

Our immune cells make the judgement call between what sustains us, and what has that potential to kill us. For this reason, about 70% of our immune system is located along our digestive tract.

Our gut bacteria, containing an estimated 30 trillion cells, outnumber the cells in our body 3 to 1. Science has only just begun to write the love story between these tiny cells and our bodies. These bacteria are responsible for aiding in the digestion of our food, producing essential nutrients, such as B vitamins and fat-soluble vitamins, and keeping our intestines healthy.

However, this love story can turn tragic when these little romantics are not properly fed or nurtured, or when antagonists enter the story in the form of pathogenic bacteria or yeast.

Our microbiome may impact our health in various ways.

Studies are emerging showing that obese people have different gut profiles than those who are normal weight. Our gut bacteria have a role in producing the hormones that regulate hunger, mood, stress, circadian rhythms, metabolism, and inflammation. They regulate our immune system, playing a role in soothing autoimmune conditions, and improving our ability to fight off infections and cancer.

Psychological and physical stress, inflammation, medication use, and a diet consisting of processed food, can all conspire to negatively affect the health of our gut. This can lead to a plethora of diseases: mood disorders, psychiatric illness, insulin resistance, cardiovascular disease, chronic pain and inflammation, obesity, hormonal issues, such as endometriosis, autoimmune disease, and, of course, chronic digestive concerns such as IBS, among others.

As Hippocrates long knew, one doesn’t have to dig for long to uncover an unhappy gut microbiome as one of the primary roots of disease.

Our gut has the power to nurture us, to provide us with the fuel that keeps our mood bright and our energy high. However, if we fail it, out gut also has the power to plague our cells with chronic inflammation and disease.

To be fully healthy, we must tend to our gut like a careful gardener tends to her soil.

This involves eating a diet rich in fermented foods, like kefir, and dietary fibre, like leeks, Jerusalem artichokes, and black beans. It also means, consuming flavonoid-rich foods like green tea, and cocoa, and consuming a colourful tapestry of various fruits and vegetables.

Healing our gut requires avoiding foods it doesn’t like. These may include foods that feed pathogenic bacteria, mount an immune response, kill our good bacteria, trigger inflammation, or simply those processed foods that fail to nurture us.

To heal ourselves, first we must feed out gut.

Confused Circadian Rhythms.

For hundreds of thousands of years, all of humanity rose, hunted, ate, fasted, and slept according to the sun’s rhythms.  

To align us with nature, our bodies contain internal clocks, a central one located in brain, the suprachiasmatic nucleus, which is susceptible to light from the sun, and peripheral clocks located in the liver and pancreas, which respond to our eating patterns.

Our gut bacteria also respond to and influence our body’s clocks. 

However, the invention of electricity, night shifts, and 24-hour convenience stores, means that our bodies can no longer rely on the outside world to guide our waking and sleeping patterns. This can confuse our circadian rhythms, leading to digestive issues, insomnia, daytime fatigue, mood disorders, and problems with metabolism, appetite, and blood-sugar regulation.

Dr. Satchin Panda, PhD, a researcher at the Salk Institute in California, found that mice who ate a poor diet experienced altered circadian rhythms. However, he found that when these mice were fed the same diet in accordance with their natural rhythms, they weighed less, had lower incidences of diabetes and cardiovascular disease, had better cognitive health, and lived longer.

These findings indicate that perhaps it is not what we eat but when that may impact our health.

Perhaps it is that an unnatural diet disconnects us from nature, or that this disconnection tempts us to choose non-nutritive foods, but the research by Dr. Panda and his team reveals the importance of aligning our daily routines with our bodies’ natural rhythms in order to experience optimal health.

According to Dr. Panda’s findings, this involves eating during an 8 to 12-hour window, perhaps having breakfast at 7am and finishing dinner early, or simply avoiding nighttime snacking.

For many of us, this may involve making the effort to keep our sleep schedules consistent, even on weekends.

For most of us, it involves avoiding exposure to electronics (which emit circadian-confusing blue light) after the sun goes down, and exposing our eyes to natural sunlight as soon after waking as possible.

Nature Deficit Disorder.

Nature Deficit Disorder is a phrase, coined by Richard Louv, in the 2005 book, Last Child in the Woods.

According to Louv, a variety of childhood problems, especially mental health diagnoses like ADHD, are a direct result of our society’s tendency to increasingly alienate children from nature.

With most of humanity living in cities, nature has become a place we visit, rather than what immerses us. However much modernization might remove us from nature, our bodies, as well as the food, air, water, sunlight, and natural settings they require to thrive, are products of nature, and cannot be separated from it.

A Japanese practice called Shinrin-Yoku, or “Forest Bathing”, developed in the 1980’s to attempt to reconnect modern people with the healing benefits of spending time in a natural setting. There is an immediate reduction in stress hormones, blood pressure, and heart rate when people immerse themselves in natural environments, such as a forest. 

Whether we like it or not, our roots need soil. It is possible that the components of this soil are too complex to manufacture. When we try to live without soil, essential elements that nourish us, and the various relationship between these elements are left out.

When we remove ourselves from nature, or ignore it fully, we become like gardeners oblivious to the deep dependency their plants have on the soil that enshrouds them.  

Connecting with nature by spending time outside, retraining our circadian rhythms, connecting with our food sources, and consuming natural, whole foods, may be essential for balancing our minds, emotions, and physical bodies.

A Lack of Key Building Blocks.

Our bodies are like complex machines that need a variety of macro and micronutrients, which provide us with the fuel, building blocks, vitamins and minerals that we need to function.

As I child, I would play with Lego, putting together complex structures according to the blueprints in the box. When I discovered that a piece was missing, I would fret. It meant that my masterpiece would no longer look right, or work. If I was lucky, I might find a similar piece to replace it, but it wouldn’t be the same.

After looking long and hard for it, sometimes the missing piece would turn up. I’d locate it under the carpet, my brother’s bottom, or lodged in a dark corner of the box. Often our bodies don’t get that lucky.

Nutrients like vitamin B12, perhaps, or a specific essential amino acid, or a mineral like magnesium, help our body perform essential steps in its various biochemical pathways.

These pathways follow our innate blueprint for health. They dictate how we eat, sleep, breathe, and create and use energy. They control how our bones and hair grow. They control our mood and hormones. They form our immune systems. These pathways run us.

Our bodies carry out the complicated instructions in our DNA to will us into existence using the ingredients supplied from food. If our bodies are missing one or several of these ingredients—a vitamin or mineral—an important bodily task simply won’t get done.

Dr. Bruce Ames, PhD, theorized that when nutrient levels are suboptimal, the body triages what it has to cove tasks essential to our immediate survival, while compromising other jobs that are important, but less dire.

For example, a body may have enough vitamin C to repair wounds or keep the teeth in our mouths—warding off obvious signs of scurvy, a disease that results from severe vitamin C deficiency. However, it may not have enough to protect us from the free radicals generated in and outside of our bodies. This deficiency may eventually lead to chronic inflammation, and even cancer, years later.

According to Dr. Ames’ Triage Theory, mild to moderate nutrient deficiencies may manifest later in life, as diseases that arise from the deprivation of the building blocks needed to thrive.

In North America, despite an overconsumption of calories, nutrient deficiencies are surprisingly common.

25-50% of people don’t get enough iron, which is important for the transport of oxygen, the synthesis of neurotransmitters, and for proper thyroid function.

One third of the world’s population is deficient in iodine, which affects thyroid health and fertility.

Up to 82% of North Americans are vitamin D deficient. Vitamin D regulates the expression of over 1000 genes in the body, including those involved in mood regulation, bone health, immunity, and cancer prevention.

Vitamin B12 is commonly deficient in the elderly, vegans and vegetarians. It is important for lowering inflammation, creating mood-regulating neurotransmitters, and supporting nervous system health. Deficiency in vitamin B12 can result in fatigue. Severe deficiency can lead to irreversible nerve damage, dementia, and even seizures.

Magnesium is an essential mineral involved in over 300 chemical reactions, including mood and hormone pathways. Over 40% of North Americans do not consume enough magnesium, which is found in leafy green vegetables.

Our bodies have requirements for fats, which make up our brain mass and the backbone of our sex hormones, and protein, which makes up our enzymes, neurotransmitters and the structure of our body: bones, skin, hair, nails, and connective tissue.

Our gut microbiota require fibre.

Our cells need antioxidants to help protect us from the free radical damage from our own cells’ metabolism and our exposure to environmental toxins.

We certainly are what we eat, which means we can be magnificent structures with every piece in place, thriving with abundance and energy.

Despite reasonably good intentions, we can also suffer from nutrient scarcity, forced to triage essential nutrients to keep us from keeling over, while our immune health, mood, and overall vitality slowly erode.

A Body on Fire: Chronic Inflammation.

When we injure ourselves—banging a knee against the sharp edge of the coffee table, or slashing a thumb with a paring knife—our immune systems rally to the scene.

Our immune cells protect us against invaders that might take advantage of the broken skin to infect us. They mount an inflammatory response, with symptoms of pain, heat, redness, and swelling, in order to heal us. They recruit proteins to the scene to stop blood loss; they seal our skin back up, leaving behind only a small white scar—a clumsiness souvenir.

Our inflammatory response is truly amazing.

One the danger has been dealt with, the immune response is trained to turn off. However, when exposed to a stressor, bacteria, or toxin, for prolonged periods, our immune system may have trouble quieting. Chronic issues can contribute to chronic inflammation.

Scientists argue that an inflammatory response gone rogue may be the source of most chronic diseases, from heart disease, cancer, and diabetes, to schizophrenia and major depressive disorder. 

The gut is often the source of chronic inflammation as it hosts about 70% of the immune system. When we eat something that our immune system doesn’t like, an inflammatory response is triggered. This can cause digestive issues such as inflammatory bowel disease, celiac disease, and the more common irritable bowel syndrome. It can also lead to more widespread issues like chronic pain, arthritis, migraines, and even mood disorders like Bipolar.

Ensuring optimal gut health through nurturing the gut microbiome, and eating a clean diet free of food sensitivities, is essential for keeping the body’s levels of inflammation low.

Constant Fighting and Fleeing.

Like inflammation, our stress response is essential to our survival.

When facing a predatory animal, our body is flooded with stress hormones that aim to remove us from the danger: either through fighting, fleeing, or freezing. Our stress response is affectionately called our “Fight or Flight” response.

However, like inflammation, problems arise when our stress response refuses to turn off. Traffic, exams, fights with in-laws, and other modern-day struggles, can be constant predators that keep us in a chronically stressed-out state.

Chronic stress has major implications for our health: it can affect the gut, damage our microbiome, alter our circadian rhythms, mess with mood and hormones, and contribute to chronic inflammation. Stress gets in the way of our ability to care for ourselves: it isolates us, encourages us to consume unhealthy foods, and buffer our emotions through food, alcohol, work, and drugs.

We also know that stress has a role in the development of virtually every disease. Like chronic inflammation, it has been found to contribute to chronic anxiety, depression, digestive concerns, weight gain, headaches, heart disease, insomnia, chronic pain, and problems with concentration and memory, among others.  

Discomfort with Discomfort.

To assess its impact on health, it helps to determine between two key types of stress: distress, the chronic wear and tear of traffic, disease, and deadlines, and eustress.

Eustress is beneficial stress—the short-lived discomfort of intense exercise, the euphoric agony of emotional vulnerability, or the bitter nutrients of green vegetables—that makes the body more resilient to hardship.

Whenever I feel discomfort, I try to remember the ducks.

Several years ago, on a particularly frigid winter day, I was walking my dog. Bundled against the cold wind, we strolled along the semi-frozen lake, past tree branches beautifully preserved in glass cases of ice. Icebergs floated on the lake. So did a group of ducks, bobbing peacefully in the icy waters.

With nothing to protect their thin flippers from the sub-zero temperatures, they couldn’t have felt comfortable. There couldn’t have been even a part of them that felt warm, cozy, or fed.

There was no fire for them to retreat to, no dinner waiting for them at home, no slippers to stuff frozen, wet flippers into. This was it. The ducks were here, outside with us, withstanding the temperatures of the icy lake. A part of them must have been suffering. And yet, they were surviving.

Far from surviving, the ducks looked down-right content.

I think of the ducks and I think of the resilience of nature.

We humans are resilient too. Like the ducks, our bodies have survived temperature extremes. Our ancestors withstood famine, intense heat, biting cold, terrible injury, and the constant threat of attack and infection, for millenia. You were born a link on an unbroken chain of survivors, extending 10,000 generations long.

Our bodies have been honed, over these hundreds of thousands of years, to survive, even thrive, during the horrendous conditions that plagued most of our evolutionary history.

Investigations into the human genome have revealed genes that get turned on in periods of eustress: bursts of extreme heat or cold, fasting, and high-intensity exercise. When our body encounters one of these stressors, it activates a hormetic response to overcome the stress. Often the response is greater than what is needed to neutralize the threat, resulting in a net benefit for our bodies.

These protective genes create new brain cells, boost mitochrondria function, lower inflammation, clear out damaged cells, boost the creation of stem cells, repair DNA, and create powerful antioxidants. Our bodies are flooded with hormones that increase our sense of well-being.

It’s like the old adage, “What doesn’t kill you makes you stronger.”

Our bodies were made for discomfort. In fact, we have entire genetic pathways waiting to kick in and heal us as soon as they experience hardship.

There are a growing number of studies on the healing power of small troubles. Fasting may have a role in treating autoimmune diseases, decreasing the signs of aging, and as an adjunct therapy for cancer; sauna therapy boosts detoxification and may prevent dementia; cryotherapy, or exposure to extreme cold, has the potential to heal arthritis and autoimmunity; and High Intensity Interval Training has been shown to boost cardiovascular health more than moderate-intensity exercise.

Plants may benefit us through flavonoids, which, rather than serving as nutrients, act as small toxins that boost these hormetic pathways, encouraging the body to make loads of its own, powerful antioxidants to combat these tiny toxins.

Mindfully embracing discomfort—the bitter taste of plants, the chilly night air, the deep growling hunger that occurs between meals—may be essential for letting our bodies express their full healing potential.

Not Minding Our Minds.

Our ability to withstand powerful emotions may have healing benefits.

Many of us avoid painful feelings, allowing them to fester within us. We buffer them with excess food, or drugs, leading to addictions. Mindfulness can help us learn to be with the discomfort of the emotions, thoughts and physical sensations that arise in the body as inevitable side effects of being alive.

Research has shown that mindfulness can help decrease rumination, and prevent depressive relapse. It also helps lower perceived stress. How we perceive the stressors in our lives can lower the damaging effects they have on us. Research shows that those who view their life stressors as challenges to overcome have lower stress hormone activation, and experience greater life satisfaction.

According to Cognitive Behaviour Therapy (CBT), our thoughts create our emotions. Becoming more aware of our thoughts, through CBT or mindfulness, allows us to identify which thoughts may be limiting us or exacerbating our reactions to stressful situations.

When we learn to observe our thoughts, we create some distance from them. We become less likely to see the dismal thoughts in our minds as absolute truths.

Practicing mindful meditation, CBT, or cultivating positive thoughts, such as engaging in a daily gratitude practice, may improve our resilience to chronic stress.

Inattention.

According to Stephen Cope, yoga teacher and author of The Great Work of Your Life, “You love what you know deeply. Get to know yourself deeply”. We get to know things deeply by paying attention to them.

Georgia O’Keefe’s admiration for flowers, or Monet’s adoration of landscapes, is apparent to anyone who sees their work. In order to commit images to canvas, the artists gets to know their subject matter deeply. Their art celebrates what they took the time to pay attention to, and eventually came to love. 

As a naturopathic doctor, I believe that healing begins with attention. When we become aware of our bodies, we begin to know them deeply. Awareness allows us to respond to symptoms lovingly, the way a mother learns to skillfully attend to her baby’s distinct cries.

When I first meet a new patient, the first thing I have them do is start to pay attention.

We become curious about their symptoms, their food intake, their sleep patterns, their habits and routines, the physical sensations of their emotions, the thoughts that run through their heads.

Through paying attention, with non-judgmental curiosity, my patients start to understand their bodies in new ways. They learn how certain foods feel in their bodies, how certain sleep habits affect their energy levels the next day, and how specific thoughts contribute to their feelings.

Once we begin to open up this dialogue with our bodies, it becomes impossible not to answer them with love. It becomes hard not to eat, sleep, and move in ways that convey self-respect.

A gardener who pays deep attention cannot ignore the obvious—her plants have roots, embedded in soil. The gardener quickly learns, through careful observation, that the health of this soil is vital to the health of her plants.

And so, back to the original question, “What is your favourite natural cure for anxiety?”

My favourite remedy isn’t a bottle of pills we reach for, it’s a question we reach for from within:

“What do I need to heal?”

After asking the question, we wait.

We wait for the answer to emerge from some primal place within, just as a gardener waits for new buds to rise out of the mysterious depths of the dark, nutritious soil.

 

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