overbreathing

Breath as Spirit, Body and Mind, and 2 Opposing Views on Overbreathing

 
 

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4 Thoughts


1. 18 “Inspiring” Quotes on Breath as Spirit and Life

Man was created of the Earth, and lives by virtue of the air; for there is in the air a secret food of life…whose invisible congealed spirit is better than the whole earth.

- Michael Sendivogius, 17th Century

In this post, I share 18 excellent quotes referring to the breath as life or spirit. It’s by no means comprehensive—just a few that have stuck out to me.

Enjoy!

2. Overbreathing Causes Electrolyte Imbalance

In addition, overbreathing and the resulting pH dysregulation also lead to electrolyte imbalances … When your pH becomes too alkaline, electrolytes migrate into muscle and brain cells instead of staying in the fluid outside of those cells. As a result, you may experience muscle spasms, weakness, and fatigue.

- Inna Khazan, Ph.D., Biofeedback and Mindfulness in Everyday Life (this book is 🤯good)

I knew that overbreathing could dehydrate us, but this one was news to me. And since it’s hard to tell if you’re overbreathing without a capnometer, I think the most practical safeguard here is to simply breathe nasally, even during exercise.

3. A Different Take on Overbreathing

Sometimes students get confused about using the breath throughout the day. They give it an inordinate amount of attention … That isn't the idea at all. The breath is a gateway into the present moment, making our attention to it greater, not less.

- Larry Rosenberg, Breath by Breath

I’m an overbreather in a different way: I focus on my breathing too much. So, here’s a friendly reminder to all of us that breathing is just a tool. Let’s not give it “an inordinate amount of attention.” Just enough to make our lives richer and fuller. For most people, that’s as little as 10-20 min/day.

4. Breathing Translations—Go to the Source Yourself

You can read my thoughts on breathing (thank you 🙏). You can read what Wim Hof, Patrick McKeown, and others say. But these are just a few translations. The best thing to do is go to the original source for yourself.

And luckily, you don’t need training in any ancient languages to do your own translations. You just need the universal language of living: the breath of life.

 
 

 
 

1 QUOTE

“The good news is that through working with the breath, we actually hold the key to helping ourselves bring body and mind into balance.”

- The Tibetan Yoga of Breath

 
 

 
 

1 ANSWER

Category: Breathing 101

Answer: This is the amount of air that moves into and out of the lungs with each breath.

(Cue the Jeopardy! music.)

Question: What is tidal volume?


In good breath,

Nick Heath, T1D, PhD
“Breathing is the compound interest of health & wellness.”

P.S. try for a new high score

 
 
 

Sign Up For The Breathing 411

Each Monday, I curate and synthesize information from scientific journals, books, articles, and podcasts to share 4 thoughts, 1 quote, and 1 answer (like "Jeopardy!") related to breathing. It’s a fun way to learn something new each week.

 
 

Breathing For Better Health, Easy Fixes, and How to Breathe with Stardust

 
 

Listen Instead of Reading


 

Hey,

Welcome back to another issue of The Breathing 411. Here are 4 thoughts, 1 quote, and 1 answer for this week.

I hope you enjoy it!

 
 

 
 

4 Thoughts


1. Posture is Easier with the Breath

Question: Do I start with breathing correctly or addressing my posture?

Answer: Breathing comes first. Aligning your body correctly will come more easily once you have your breathing down. Plus, most cues to help with posture end up making a person tighten more rather than relax on the inhale.

- Belisa Vranich and Brian Sabin, Breathing for Warriors

I constantly struggle with my posture (but only all the time 😂). So, I loved this answer from two of the world’s leading experts on the topic.

Additionally, as we’ve all probably experienced, you can’t really get a good breath unless you have good posture, so they really go hand-in-hand. Good breathing leads to better posture, and good posture leads to better breathing.

So sit up straight, take a relaxing breath, and enjoy the rest of this post : )

***

Related Quote:What the bodily form depends on is breath (chi) and what breath relies upon is form. When the breath is perfect, the form is perfect (too)…Consequently, breath and form must be accomplished together.” - Chinese adage from The Primordial Breath (but I found it in Breath)

2. Fixing Hyperventilation Easily with Slow Breathing

The mechanism by which hyperventilation is targeted by HRVB has not been proven, although it is reasonable to hypothesize that it involves a combination of slow breathing, decreased emotional and autonomic reactivity, and attention to breathing mechanisms for controlling it.

- Applied Psychophysiology and Biofeedback (2020)

Because slow breathing increases HRV and improves autonomic and emotional reactivity, it naturally reduces your stress. It naturally improves your sensitivity to carbon dioxide. And it naturally optimizes gas exchange.

All of this helps you breathe calmer more often.

So to fix hyperventilation easily, maybe we don’t need to fix it at all? Perhaps we should just enjoy our slow breathing practice and, with time, let our improved physiological state naturally lead to optimal breathing volume.

This approach won’t be suitable for everyone, but if you struggle with overbreathing, this might be the best place to start.

***

P.S. Ironically, when people start a slow breathing practice, they often overcompensate for the slower rate by taking bigger breaths and end up mildly hyperventilating. For this reason, many researchers and coaches (myself included) suggest that slow breathing is not enough—we must also focus on breathing volume. However, as pointed out in this 2020 meta-analysis, slow breathing might self-correct with time.

3. Scientific American: “Proper Breathing Brings Better Health”

Breathing is so central to life that it is no wonder humankind long ago noted its value not only to survival but to the functioning of the body and mind and began controlling it to improve well-being.

- Scientific American

This is perhaps my favorite online article published about breathing. But, I realized I have somehow never shared it here.

I especially loved a part near the end. It’s almost as if the author is surprising himself with all the benefits of breathing as he’s researching and writing the article, and he can’t believe this stuff isn’t widely used:

In fact, I am mystified that controlled breathing is not recommended and practiced more widely. Perhaps it is perceived as too simple, commonplace and obvious to be a remedy.

Those were my exact feelings when I found “breathing.”

Enjoy the excellent read!

***

Related Quote:Even more foolishly I had assumed that a universal awareness of the importance of breathing existed. Nothing could have been farther form the truth.” - Carl Stough (also found in Breath)

4. How to Breathe Stardust with Stardust

Every atom in your body that is heavier than helium was made inside a star, usually as it was exploding.  Carbon, oxygen, iron, all of it. Take a breath, and breathe stardust with stardust. This body is billions of years old.

- Rick Hanson, Ph.D., Neurodharma

That is all. 🤯

 
 

 
 

1 Quote

A single breath has more truth in it than all your thoughts about breathing will ever have.

– Adyashanti

P.S. Thanks to great friend E.S. for sending this quote to me. It’s almost as if that quote is specifically calling me out on this newsletter 😂

 
 

 
 

1 Answer

Category: Hyperventilation

Answer: It is suggested that adults with a respiratory rate greater than this number “should receive immediate medical review.

(Cue the Jeopardy! music.)

Question: What is 27 breaths per minute?


In good breath,

Nick Heath, T1D, PhD
“Breathing is the compound interest of health & wellness.”

P.S. “Guess we’ll head out too”

 
 
 

Sign Up For The Breathing 411

Each Monday, I curate and synthesize information from scientific journals, books, articles, and podcasts to share 4 thoughts, 1 quote, and 1 answer (like "Jeopardy!") related to breathing. It’s a fun way to learn something new each week.

 
 

The Lesser-Known Benefits of Nasal Breathing, Designed for Diabetes

 

As a person with type 1 diabetes, my experience with nasal breathing has been nothing short of miraculous.  It's been such a simple change, yet its impacts on my energy and blood sugars have been profound. I feel it would be irresponsible not to share it with other people with diabetes.

Luckily, people much brighter than me have become fascinated by the nose too.  Whole books have now been written on the topic.  It has been featured in popular sources such as Outside Magazine and the Cleveland Clinic.  An article published in Frontiers in Human Neuroscience even concluded that “nasal stimulation represents the fundamental link between slow breathing techniques, brain and autonomic activities and psychological/behavioral outputs.”

But after several years of research, I have come to realize that the reasons nose breathing is so helpful for diabetes go far beyond the “obvious ones.” 

Of course, the usual suspects are essential, such as the warming and humidifying of the incoming air and the natural slowing of the breath.  But to fully understand the benefits for diabetes requires a synthesis of research from different fields, such as diabetic complications, the metabolites of nitric oxide, chronic stress, and sleep.

Let’s start with diabetic complications.

Oxidative Stress and Inflammation Reduce Blood Flow

Over time, the oxidative stress and chronic inflammation associated with diabetes can damage blood vessels, resulting in poor circulation

Less blood flow means that less oxygen reaches the cells, tissues, and organs

As a result of this poor circulation (and other complications), people with diabetes have an increased incidence of retinopathy, kidney disease, and foot problems.

Nose breathing—specifically inhaling through the nose—immediately helps with this.  For example, one small study showed that just five minutes of inhaling through the nose and exhaling through the mouth increased tissue oxygenation by 10%.  This increase was due to nitric oxide.

Nitric oxide is continuously produced in the paranasal sinuses.  When you breathe in through your nose, nitric oxide is carried into the lungs, where it opens up the blood vessels and improves blood flow in the lungs.  This results in better gas exchange and better blood oxygenation.

But that’s only the beginning of NO’s benefits.

How Nitric Oxide Helps with Blood Flow and Oxygenation

Typically, the nitric oxide produced in your nose is treated separately from the nitric oxide produced throughout the rest of your body.  Although it is known that that inhaling nitric oxide has effects outside of the lungs, scientists have not known how. Researchers at the Cleveland Clinic have recently shed light on the issue.

In a 2019 study, they did something simple yet meaningful.  The researchers had participants inhale extra nitric oxide, and they measured what happened in the blood afterward.  If nitric oxide’s journey ended in the lungs, they wouldn’t see any signs of it in distant blood samples.

The results showed the opposite

They found that inhaling nitric oxide significantly increased circulating levels of a specific form of the molecule, SNO-Hb.  These findings matter because, in a separate study published in PNAS in 2015, a different group of researchers found that SNO-Hb played an essential role in whole-body oxygenation.  Without it, mice received less blood flow to the heart and even had smaller litter sizes.

Why This is Important to Diabetes

The complications of diabetes also impact nitric oxide.  Sustained high blood sugars alter how hemoglobin stores nitric oxide. 

The end result is that people with diabetes generally have less SNO-Hb

And, as we just learned, SNO-Hb is critical to blood flow and tissue oxygenation. 

So, putting it all together:

  • People with diabetes suffer from poor circulation and insufficient oxygen.

  • Our noses are a source of nitric oxide—breathing through our nose utilizes it.

  • Inhaling nitric oxide increases an essential form of NO called SNO-Hb.

  • SNO-Hb is critical to improving blood flow and increasing whole-body oxygenation.

Therefore, nose breathing could be especially helpful in diabetes by maintaining normal SNO-Hb levels and hence helping improve blood flow and oxygenation throughout the body.*  Mouth breathing would not provide these benefits.

How High Blood Sugars Reduce Oxygen Delivery

In addition to altering how nitric oxide is stored, high blood sugar also modifies the relationship between oxygen and hemoglobin.  Specifically, it tightens the bond between them.

As a result, less oxygen can be delivered to the places it is needed.  (For the breathing nerds out there, it causes a left shift in the oxyhemoglobin dissociation curve.)  This problem might be further exacerbated by stress.

Chronic Stress and Carbon Dioxide Alter Oxygen Availability

Diabetes also causes chronic stress—a less intense but sustained fight or flight stress response.  This stress causes people with diabetes to have anywhere from 14% to 20% more cases of anxiety than those without it.  Moreover, it has been reported that up to 40% of the diabetic population show symptoms of anxiety.  A 2013 meta-analysis, including over 12,000 people with diabetes, also found significant associations between diabetes and an increased probability of anxiety disorder or anxiety symptoms.

Chronic stress and anxiety, such as that experienced in diabetes, are often associated with overbreathing.  Overbreathing, or hyperventilation, simply refers to breathing more than your metabolic demands at any given moment, and is often associated with mouth breathing. Consequently, the body gets rid of too much carbon dioxide, which alters the pH of the blood.

This has a similar effect on oxygen and hemoglobin as high blood sugar. 

That is, it tightens the bond between them, reducing the amount of oxygen that can be delivered to the cells and tissues (this is known as the Bohr effect).

Together, we see that the high blood sugar and chronic stress associated with diabetes combine to reduce oxygen availability to the cells and tissues.

When we switch to nose breathing, the volume of each breath is naturally reduced.  This helps normalize carbon dioxide levels and restore blood pH to normal levels, which will improve oxygen delivery.** 

Combining this with the earlier discussion on nitric oxide, we see how this one simple change (nose breathing) helps offset some diabetic complications.

Nose Breathing, Sleep, and Diabetes: The Missing Link to Better Blood Sugar Control

If we breathe nasally during sleep, all of the benefits of nose breathing continue throughout the night. Of all the things nose breathing helps with, this might be the most critical for diabetes.

We have already discussed that diabetes causes chronic stress, which can lead to more rapid breathing.  Nose breathing helps naturally slow down the breath.  This will help you shift from a stressful sympathetic state to a calming parasympathetic state.  This shift is significant for people with diabetes who exhibit less parasympathetic tone at night than non-diabetics.  Thus, nasal breathing at night helps us increase parasympathetic tone and enjoy better sleep.

Receptors in your nose also act to maintain rhythmic breathing during sleep.  This might help explain why nose breathing reduces the risk of obstructive sleep apnea when compared to mouth breathing.  Diabetes is associated with a significantly increased risk of obstructive sleep apnea. So, if nasal breathing at night can help reduce this risk, it could be especially beneficial.

Lastly, we know that inadequate sleep causes insulin resistance.  By getting deeper, more restorative sleep, insulin sensitivity can be improved.  This could potentially lead to better morning blood sugars (that was my experience), setting you up for a better day of glucose control.

The More Subjective but Most Important Benefit of Nasal Breathing for Diabetes

Altogether, nasal breathing increases blood flow, improves tissue oxygenation, and appears to increase an essential form of bioactive nitric oxide that people with diabetes have less of.  It also improves sleep quality by helping us flip to a more calming state and by reducing the incidence of sleep apnea.  This can help improve insulin sensitivity.

When we combine all of these together, nasal breathing's net benefit can be simply stated as:

It gives you more energy. 

And it’s harder to objectively measure, but perhaps the best aspect of increased energy levels is more motivation to take care of your blood sugars. 

Diabetes is an exhausting full-time job that can lead to physical and emotional burnout.  Having more energy and enthusiasm to manage the disease could be the most valuable aspect of something as simple as breathing through your nose.

Footnotes:

*The levels of NO inhaled in the 2019 Cleveland Clinic study were greater than those produced in the nose.  But, the study validated that there is a mechanism by which NO that is introduced into the lungs can be transported throughout the body as SNO-Hb.  Thus, nasal breathing would only act to bring SNO-Hb up to normal physiological levels, whereas mouth breathing would rob the body of this important physiological process.

**This discussion is centered around the regular blood sugar fluctuations associated with diabetes and not diabetic ketoacidosis.

 
 

Can Overbreathing Cause Osteoporosis?

 

Life-transforming ideas have always come to me through books.” - Bell Hooks

 
 
 
Overbreathing_Osteoporosis_1_New.png
 
 
 

This week, I want to look at a few fascinating passages on overbreathing from “Breath: The New Science of A Lost Art.”

Let’s start with James Nestor’s insight into tissue hypoxia (my bold for emphasis):

In this, chronic overbreathing will not create ‘hypoxia’ in tissues; this is a fact that many Buteyko adherents consistently get wrong.  The real damage from overbreathing comes from the constant energy the body has to expend to run more cells anaerobically and to constantly buffer for carbon dioxide deficiencies.

So James is saying that tissue hypoxia itself is not the problem with overbreathing. The damage occurs because of the body’s response to prevent tissue hypoxia from happening.

Overbreathing and Cell Metabolism

Aerobic = “With Oxygen”

Anaerobic = “Without Oxygen”

This damage occurs partially because of sustained anaerobic metabolism. We have all probably heard of aerobic and anaerobic exercise. Slow and steady is typically aerobic, fast and intense is usually anaerobic. We don’t have to think about it. When we push ourselves, our oxygen supply can’t keep up, and our body naturally switches to anaerobic metabolism.

This anaerobic switch creates a more acidic local environment, which will help release oxygen from the hemoglobin and help restore aerobic energy production.

But, with chronic overbreathing, this aerobic balance cannot be achieved.  So your cells are running as if you’re always doing high-intensity training…not the most efficient way to spend your day.

But that’s not even the worst part of overbreathing.

Restoring pH Balance Causes the Real Damage

The body is always trying to find balance, and this is especially true for pH. Blood pH is kept in a tight range (around 7.4) to allow the body to function correctly.

When we chronically overbreathe, we offload too much carbon dioxide, which increases pH. The body compensates through a process called “buffering,” where the kidneys begin releasing bicarbonate into the urine to restore pH balance. The real damage comes from what bicarbonate takes with it:

This occurs because as bicarbonate leaves the body, it takes magnesium, phosphorus, potassium, and more with it. Without healthy stores of these minerals, nothing works right: nerves malfunction, smooth muscles spasm, and cells can’t efficiently create energy.” - James Nestor

Overbreathing Weakens Our Bones

All of which leads us to how overbreathing can contribute osteoporosis:

Constant buffering also weakens the bones, which try to compensate by dissolving their mineral stores back into the bloodstream. (Yes, it’s possible to overbreathe yourself into osteoporosis and increased risk of bone fractures.)” - James Nestor

Alright, let’s break these steps down to see how this happens:

  1. Overbreathing offloads too much carbon dioxide, preventing adequate oxygen delivery to the cells.

  2. The cells compensate with chronic anaerobic metabolism.

  3. The kidneys compensate by excreting bicarbonate into the urine to balance pH.

  4. The excretion of bicarbonate “steals” important minerals from the blood.

  5. The bones then compensate by dissolving minerals back into the blood, which weakens them.

It is simultaneously amazing and scary what our bodies are capable of.  

There is Always Good News

Although this negative feedback loop is alarming, there is a way to prevent or reverse it: Stop overbreathing.

And the best way to do that? Breathe through your nosebreathe slowly, and breathe slightly less than you think you need.

In good breath,
Nick

P.S. Just Along for the Ride.