sports mask

How I Trained for Altitude (it's not what you might think)

View of Mount Audubon from Mitchell Lake

View of Mount Audubon from Mitchell Lake

Everyone has a plan 'till they get punched in the mouth.

- Mike Tyson

I live in Florida, basically below sea level : ) So when my best friend invited me to hike up to 13,200 ft, I put a ton of pressure on myself to do it. I thought, “I’m The Breathing Diabetic. I better be able to handle some altitude.”

But I didn’t train how you might think. Of course, I initially started with more breath holds. But I realized that the issue at altitude is lower air pressure. To breathe, our lungs expand, the pressure decreases in our lungs, and air flows in from the atmosphere due to the pressure difference. However, at altitude, the lower air pressure will make that process harder.

If each breath is harder, your diaphragm and other breathing muscles will fatigue quicker, and you’ll feel out of breath. Maybe I’m wrong, but that seemed like the biggest issue when I considered everything I’ve learned.

So I decided to focus on lung capacity. With greater lung capacity, the lungs can expand more, pressure can decrease more, and breathing can be easier at altitude. Is this proven? I don’t know. But it made sense to me.

So I did a lot of Wim Hof breathing, a lot of work with the Oxygen Advantage Sports Mask, and a lot of extended exhalations. I also used ocean breathing during my morning breathing practice for added resistance.

Did it work? I’m not sure since I don’t have a control to compare against. But I made it. It was extremely challenging, and all of my plans went out the window once we hit about 11,000 ft. The winds were insane, my hands were freezing, and the continuous uphill was way more brutal than I expected.

To cope, I did some periodic breathwalking, and every few minutes, I took 10 massive Wim Hof style breaths. Going up, I was probably around 40% nasal, 60% mouth breathing (I went into it not caring which hole I used, as long as I made it). Going down was about 90% nasal and 10% mouth.

When I got to the summit, my oxygen saturation was steadily 81-85%. Crazily, my blood sugar was 404 mg/dL (!), which wasn’t helping the situation. But I made it. Mission accomplished.

If you have any thoughts about altitude or my training approach, please send me an email at nick@thebreathingdiabetic.com with the subject “High Altitude.” It was my first time, so I have no clue if what I’m saying makes sense : )

More Pictures

SpO2 was hovering around 81-85% right when we reached the summit. This was with normal nasal breathing.

SpO2 was hovering around 81-85% right when we reached the summit. This was with normal nasal breathing.

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“Strategically” giving my diaphragm a rest before we started one of the last pushes. I wasn’t tired, just meditating 😂😂😂

“Strategically” giving my diaphragm a rest before we started one of the last pushes. I wasn’t tired, just meditating 😂😂😂

Me (left) and James (right) at the peak hiding from the insane winds. Gusts felt like they were over 60 mph.

Me (left) and James (right) at the peak hiding from the insane winds. Gusts felt like they were over 60 mph.

James taking in the view.

James taking in the view.

The benefits of resistance breathing

Hi all,

When I first saw the breathing mask from the Oxygen Advantage, I swore I’d never use it. I thought wearing a mask for breathing was silly. What I love about breathing is its simplicity.

However, because I got the Sports Mask as part of the training a couple weeks ago, I gave it a shot. And now I’m hooked.

What the mask does:

  • Adds resistance to your breathing

  • Increases carbon dioxide tolerance

  • Helps drop oxygen saturation

Your diaphragm is probably one of your most underworked muscles. The added resistance of the mask helps strengthen your diaphragm, leading to more efficient breathing.

The mask is also designed to pool carbon dioxide (CO2). If you’ve been following my work at all, you know the importance of CO2. The mask makes it easy to feel ‘air hunger’ without even trying. This will help build CO2 tolerance over time.

Lastly, because the mask limits air inflow, it also makes it easier to practice intermittent hypoxia. A brisk walk on the highest resistance setting easily drops me into mild hypoxia (SpO2 ~95%).

How I Use The Breathing Mask

I am currently using the breathing mask 2 times a day, for a total of ~10 minutes.

In the morning, I take around 15 big breaths (nasally) on the highest resistance setting as “inspiratory muscle training”. After this, I do a 4-minute workout of squats, push-ups, and plank, with the mask on the lowest resistance setting. This is surprisingly difficult.

At night, I do a series of stretches with the mask on the highest resistance setting.

———

Over the past 3 weeks, I’ve noticed that the exercises with the mask have gotten easier. I’m sure it’s partially a mental adaptation, but I also feel that my breathing is easier and my CO2 tolerance is increasing. (Note: My CO2 Tolerance Test score has increased from ~45 sec to around 67 sec, but I have made other changes, especially to my sleep, which have also helped.)

If you are at all interested in resistance breathing, I recommend you give it a shot. The benefits are real and quickly noticeable. Obviously, I’m a fan of the Oxygen Advantage® Sports Mask, but there are plenty of others out there. Just make sure you get one that supports nasal breathing.

In good breath,
Nick

P.S. The change I made to my sleep was to add 2-2.5 hours after dinner before going to sleep. The author of The Longevity Paradox recommends 4 hours, but that isn’t practical with my schedule. However, adding just 2 hours between dinner and bedtime has substantially improved my sleep and breath hold times. Besides taping, this might be the 2nd easiest change I have made that has substantially improved my overall quality of life.