nose breathing during sleep

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.

 
 

Could nasal nitric oxide help to mitigate the severity of COVID-19?

 

We have too many high sounding words, and too few actions
that correspond with them.
” - Abigail Adams

 
 
 
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When the pandemic began, many people in the “breathing community” immediately started talking about nasal nitric oxide because of its antiviral and antimicrobial effects. Nose breathing seemed like washing your hands: Of course, no scientific studies were showing it worked for this specific virus yet, but it made it common sense to practice it anyways.

Now that we’re getting back to normal (despite the record number of cases in some parts of the world), nose breathing is more important than ever. And it looks like many in the scientific community agree.

Last month, a Commentary was published in Microbes and Infection titled “Could nasal nitric oxide help mitigate the severity of COVID-19?” [1]. (I saw this article through the Oxygen Advantage newsletter…thanks, Patrick!) It’s a short and easy read that I highly recommend. 

Click here to read the full commentary

Here’s one of my favorite quotes from it:

 
 

“Mouth breathing during sleep may therefore worsen the symptoms of COVID-19, consistent with the observation that symptoms of respiratory infections are usually worse in the morning.”

 
 

 
 

LA Times Article on Inhaled Nitric Oxide for COVID-19

About two months ago, a good friend, and reader of this newsletter, shared this article from the LA Times with me. I think it pairs nicely with the commentary above:

How a discovery that brought us Viagra could help those battling the coronavirus

Click Here to Read the Article

Here’s my favorite quote from that one:

In 2004, researchers at the University of Leuven in Belgium discovered yet another property of nitric oxide: It killed coronaviruses.

More specifically, it killed the coronavirus that leapt from bats to humans and sparked the 2003 epidemic of severe acute respiratory syndrome, the disease better known as SARS.


Here’s to putting science into action by simply breathing through your nose while you’re out and about.

In good breath,
Nick

P.S. How to Enunciate Correctly in 4 Steps.

[1] Martel, J., Ko, Y. F., Young, J. D., & Ojcius, D. M. (2020). Could nasal nitric oxide help to mitigate the severity of COVID-19?. Microbes and infection, 22(4), 168–171. Advance online publication. https://doi.org/10.1016/j.micinf.2020.05.002

 

Two Simple Ways to Improve Your Sleep Tonight

 
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Charles Dickens just walked into a hotel room. The year is 1860. As arguably the most famous author alive, you might think he set up his writing station and poured a glass of Brandy. Instead, he pulled out his compass and rearranged the place [1].

Dickens’ Odd Fix for Insomnia

Dickens believed that sleeping with his head toward the north helped with his insomnia. This sounds funny but is probably more helpful than his previous solution, which was to walk all night, sometimes covering up to 30 miles [2].

Although Dickens’ sleeping habits were peculiar, it was his keen observations of others that changed sleep science.

Joe’s Snoring and Sleep Science

In 1836, Dickens began writing The Posthumous Papers of the Pickwick Club, also known as The Pickwick Papers. In it, Dickens’ character “Joe” displayed all of the classic characteristics of sleep apnea. Joe was always tired, he fell asleep during the day, and he snored loudly.

Sleep scientists credit this work as being the first accurate observations of sleep-disordered breathing [3], recording it 120 years before the science caught up.

Modern Sleep Science Catches Up

Today, estimates of sleep-disordered breathing are, well, breathtaking. The term “sleep-disordered breathing” itself is rather generic. It covers a wide range of issues related to sleep and breathing (most commonly, obstructive sleep apnea).

However, in 1996 a review study was published that sheds light on the mechanisms that cause sleep-disordered breathing. This research helps explain why it is so common and provides suggestions as to what we can do about it.

Sleep and Breathing State-of-the-Art Review: Sleep-Induced Breathing Instability

(Published in Sleep in 1996 — Click Here to Read Full Summary)

The main conclusion from this study is that your breathing system does not work the same during sleep as it does during wakefulness.  

For example, there is less input to the muscles that keep your upper airways open, which can narrow or collapse them. This narrowing of the upper airways also increases breathing resistance. Additionally, sleep dampens the chemoreflexes that usually keep blood pH in a tight range. 

Interestingly, this “State-of-the-Art Review” concluded that carbon dioxide (CO2) could potentially help with sleep-disordered breathing. CO2 could stimulate the chemoreflexes that keep breathing steady. Additionally, CO2 is a smooth muscle dilator, which would help increase blood flow to the muscles that keep the airways open.

Two Ways You Can Start Tonight

1. Tape Your Mouth

You can start adding CO2 to your breathing tonight by taping your mouth during sleep, which will reduce breathing volume and increase CO2.

Paradoxically, while nose breathing increases resistance during the day, it reduces upper airway resistance during sleep. This small change will help you breathe better during sleep and wake up feeling refreshed and energized.

2. Breathe Less During the Day

You can also practice light breathing during the day to train your body to tolerate more CO2. By doing this consistently, you can reset your baseline CO2 back to normal values and ultimately improve your breathing during sleep.  

In good breath,
Nick

P.S. I think we all need a smile like this right now.

References

[1] Source: https://www.pharmaceutical-journal.com/opinion/blogs/how-dickens-got-a-good-nights-sleep/11074673.blog (I made up the little hotel story to go with it…he might have in fact poured some Brandi too…)

[2] Source: https://academic.oup.com/sleep/article/15/3/264/2749285 

[3] Source: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3365094/

 

Breathing and COVID-19 (Plus 4.5 Ways to Increase Nitric Oxide)

 
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I’ve stated previously that nitric oxide (NO) is my favorite gas. Recently, the breathing community has jumped on it for its antiviral effects. The thought is that nasal NO could serve as our first line of defense against COVID-19.

While I see how that argument makes sense, I don’t think anyone really believes nasal breathing alone will stop COVID-19. Yes, it might help, but to think it will stop it completely is rather naive. So, please, wash your hands AND breathe through your nose :)

But none of that is the point of this week’s post. We know nitric oxide has amazing benefits (it’s still my favorite!). But what if your blood sugars are stopping you from realizing its full potential?

Vasorelaxation by Red Blood Cells and Impairment in Diabetes. Reduced Nitric Oxide and Oxygen Delivery by Glycated Hemoglobin

(Click Here to Read the Full Summary)

I uploaded this paper to The Breathing Diabetic on December 11, 2018! I knew it was important, but re-reading my notes emphasized just how meaningful this research is.

Here are the important points:

  • Diabetics suffer from a lack of bioavailable nitric oxide. Because bioavailable NO is critical for whole-body oxygenation, this could play a major role in diabetic complications.

  • High blood sugar changes the configuration and binding properties of blood proteins. This changes how they store NO, explaining the lack of bioavailable NO stated above.

The net outcome is that sustained high blood sugar reduces oxygen delivery to the tissues.

I think you can immediately see the importance of this finding. Luckily, there are things we can do to increase our nitric oxide and oxygenation.

1. Control Your Blood Sugars

No surprise here, but you need to get your blood sugars in range. Breathing can help (I might be a little biased…).

There is also a positive feedback loop that speeds up the process. Better blood sugars will increase bioavailable NO and enhance blood flow, which will lead to better oxygenation, which will improve insulin sensitivity, and so on.

2. Breathe Through Your Nose 24/7

The second thing you can do is start breathing through your nose 24/7. The paranasal sinuses continuously release NO into the airways. That NO travels into your lungs, redistributes blood flow, and improves oxygen uptake. Nasal breathing is an easy and proven way to increase NO and whole-body oxygenation.

3. Start Humming

Humming can significantly increase nitric oxide. I haven’t dug into the papers yet (they’re on my list), but people I trust, like Patrick McKeown, have.

I now do 7-8 minutes of humming before bed every night. I set my breathing app to 4 breaths/min and hum on the exhale. Despite making me feel silly, humming has a mind-calming effect that I enjoy before falling asleep.

4. Supplement with Beetroot Powder

Finally, you can supplement to increase NO. I am a novice here, but I have tried BeetElite by Human after hearing Tim Ferriss recommend it. It seemed to give me a slight boost of energy while I was sitting in the sauna (which is another way [#4.5] to increase nitric oxide, but I’ll leave that science to Rhonda Patrick). As with any supplement, make sure you have no contraindications before taking it.

In good breath,
Nick

P.S. If you want to learn more about breathing, nitric oxide, and COVID-19, Patrick McKeown is holding a free 20-minute Zoom meeting to discuss the topic.

Here are the details:

Topic: Breathing Exercises to help defend against CoVid19
Time: Mar 26, 2020 05:00 PM Dublin (1:00 PM EDT)
https://zoom.us/j/542438957
Meeting ID: 542 438 957

Learn more here: https://www.instagram.com/p/B-ANbRfgE_v/

 

Obstructive Sleep Apnea Lowers Nitric Oxide (plus a big backpack)

 
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The 100 Mile Ruck webpage is almost ready. The folks at HHPF plan to have it up by Wednesday. I’ll send you a super quick email when I hear it’s ready.

In the meantime, here is this week’s dose of breathing science.

Circulating nitric oxide is suppressed in obstructive sleep apnea and is reversed by nasal continuous positive airway pressure

(Read the Full Summary)

This study found that:

  • Obstructive sleep apnea was inversely correlated with nitric oxide

  • Meaning that, as OSA indices increased, NO decreased

  • And as NO decreased, blood pressure increased

However, just one night of nasal CPAP restored NO to normal levels.

We know from previous studies that inhaled NO can have positive impacts throughout the whole body.  And we also know that the nasal cavity is warehouse for NO.  Together, these results suggest that the nasal CPAP machine might be restoring NO concentrations by simply encouraging nasal breathing during sleep.

Obviously, there is more to it than that, as CPAP machines do a lot more than just promote nasal breathing. But, I think a key take home message from this study is: Breathe through your nose at night.

Read the full summary to learn more.

In good breath,
Nick

P.S. How the rucksack will feel by mile 50:

 
 
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