Month: December 2020

Altitude: Thin Air, Big Strain

/ Sarah / Leave a comment

If you’ve visited altitude, you’ve noticed that it makes you uncomfortable. If you live up here, you might remember your first month in the sky (bloody noses, constantly itchy skin, headaches, constant dehydration, worse), and you’ve probably noticed that when you leave, even for a week, you’ve already lost that magical adaptation called acclimatization, and you have to work your way back into living the hard but sweet thin air life. We all know that altitude puts a strain on our body, and those of us who live here are always telling tourists not to underestimate it, but how big of a strain is it really? And why?

14,440, not the highest I’ve ever been but I’ve spent the most time here.

Altitude affects oxygen saturation, which is the amount of oxygen the hemoglobin in your red blood cells is carrying at any given time. At sea level, the atmospheric pressure and concentration of oxygen in the air is highest, which is optimal for oxygen saturation in humans. As altitude increases, atmospheric pressure decreases exponentially, while the fraction of oxygen remains the same, which leads to lower saturation. According to Princeton, it takes 1-3 days to begin acclimatizing, and months to adapt fully. The biggest change is the increase in hemoglobin specifically, and red blood cells in general, which is an adaptation that we lose quickly when we lose altitude. Other adaptations include: increased depth of breathing, increased pressure in pulmonary arteries (which increases blood flow in the lungs, and utilizes a higher portion of the lungs than you’d use at sea level), and increased production of enzymes that release oxygen from hemoglobin.

So the reason this is all top of my mind right now is that I’ve just returned to Ouray 7,792ft, after two weeks in southern Missouri, at approximately 1,004ft. You may remember that I’m now wearing a Whoop device 24 hours a day, and the data it’s given me around this trip is astonishing. Obviously, we know that altitude is a big physical stressor, but seeing it quantitatively, it’s bigger than I ever imagined.

I didn’t take a lot of photos on this Missouri trip, here’s a festive mailbox from one of our bike rides.

For simplicity, let’s start with the Whoop’s overall recovery metric. They use an algorithm that takes into account my average resting HR, heart rate variability, and respiratory rate while I slept, and then other stuff like the previous day’s HR variations and the amount of physical strain from previous days, that results in a percentage. I don’t strictly adhere to this number, but it paints a clear picture of my journey from 8k to 1k and back. Here’s three weeks worth of my recovery scores:

The first photo is a full week spent in Ouray (all fairly low, which is average). The second includes my drive to Missouri and a full week there, the third is a full week just in Missouri, then the last photo I started driving on Saturday and arrived home in Ouray on Sunday night. The four days of red, then, were all spent in Ouray. Once I left Ouray, I had subpar recoveries on Saturday, after a stressful day of snowy mountain driving, then there’s two particularly intense cycling days that resulted in low recovery that quickly bounced back, another one of those on 12/22, then you can see the decline starts again after the drive back to CO.

140 million people live above 8,000ft. People who were born and raised in the Andes and Himalayas show particularly impressive evolution, being born with larger lung volumes and excellent oxygen saturation even as high as 16,000ft. High altitude dwellers in Ethiopia are less evolved, and show the same type of adaptations as people from low elevations that moved to high elevations during their life, and of all the high altitude populations studied, only Himalayans can move between altitudes without losing any of their altitude adaptations. Which means a Sherpa could go to Missouri for a month and they would not lose any red blood cells or have a change in stroke volume or cardiac output or anything, then on their return to the Himalayas, they would not need to re-acclimate. While someone born in the Andes would go to Missouri and have a similar reaction to me, then on their return to the mountains, they would have an increased HR and lower HRV and begin the process re-acclimatization. Himalayas also have another leg-up on us, with a sustained increase in cerebral blood flow, low concentration of hemoglobin, and an obvious resilience to chronic mountain sickness (CMS).

In studies of permanent high altitude residents, those that are born into it and those that live high by choice share a decreased instance of all types of cardiovascular disease and obesity, but an unexplained increased rate of suicide, even with controls in place for known suicide risk factors.

Let’s dive deeper into the data. Most people measure resting HR by taking their pulse the moment they wake up in the morning, while the Whoop measures your HR every second while you’re sleeping then takes an average. My resting HR at altitude before OTS was 50. Since OTS, I haven’t seen it get lower than 55, and it’s generally somewhere in the 60’s. Let’s take a look at the trends for the same four weeks:

For the week in Ouray, it was 63-68. It went up during the drive, then decreased steadily over the next two weeks, going all the way down to 50. It starts going back up after a day of driving, 57, then 65-74 over the next four days of being at home in Ouray. This is interesting, because an increase in HR is to be expected, as one of the first short-term adaptations to altitude is a decrease in overall blood volume, my body is trying to increase the ratio of red blood cells, and a decrease in blood volume corresponds to an increase in HR to pump it. My average HR, taken throughout the day, and including any exercise, actually didn’t change that significantly during the trip. It’s generally 70-80, and while I was in Missouri it was 67-78.

Another reason HR increases at high altitude is that hypoxia activates the sympathetic nervous system. This isn’t great news for me, as my tendency towards sympathetic dominance is one of the biggest driving factors for how I got Overtraining Syndrome in the first place, but it’s possible to do things to counteract it. Basically, you can expect your HR and blood pressure both to increase while at altitude, and not just within the first couple of days, because of pulmonary vasoconstriction, particularly during exercise, is caused by sympathetic nervous system excitation (which happens because hypoxia, which is lowered oxygen saturation, which happens because of the change in pressure at altitude). This link, from altitude to nervous system imbalance, was exactly what I hoped to find in my research today, because it is obvious from the Whoop data that I’m having cardiovascular effects, but they’re likely nervous system related, as we’ll discuss in this next section about HRV.

Now, here’s Heart Rate Variability (HRV). It’s a controversial metric, mostly it seems like because since it’s been introduced to the wider world, folks put a little too much stock in it and it’s true that you can’t base all your decisions around a number that’s so squirrelly. What I really like about it though is that it reflects the health of your nervous system specifically. Mostly when you’re training, you’re thinking about your cardiovascular system (resting HR) and the health, feel, and fatigue of your body itself (neuromuscular). Both your parasympathetic and sympathetic nervous systems are exerting control over your heart rate at any given time, and if both sides are healthy, that competition results in a high HRV. Parasympathetic is what’s damaged in OTS, so while you’re in a state of overtraining, your HRV is low because the sympathetic system is dominating the decision making. There’s still plenty we don’t know about OTS, and even in healthy folks it fluctuates rapidly. But these graphs are still telling:

To sum up these graphs, before I left it was typically pretty low. I forgot to mention above that HRV is highly individualized and part of what makes it a squirrelly and controversial metric is because it’s only relevant compared to extended data in the same person. So my HRV is only comparable to my HRV at other times. Moving on, before I left it was low. During my trip, it fluctuated a lot (mostly in relation to exercise) and occasionally skyrocketed, much higher than it’s ever been since I got the Whoop device. Most interesting I think is the steady decline since I’ve gotten back to altitude. When I got up this morning, I thought, it’s so low (19) that am I going to survive the day? (Just kidding, that’s not how HRV works).

So this was all so interesting, I thought I’d look back on our UT/AZ trip in October, and the results at first were uninteresting, there was a period where everything was slightly better for a couple days, probably associated with the relaxation and fun of the trip, but mostly it all was similar to when I’m in Ouray. Then I realized, we were mostly at 7,000ft which isn’t any great improvement to 7,992. 🤷

Thanks so much for reading and following along. If you’re interested in mountain running and coaching for adventure, learn more on my website or check out coaching options and training plans here or on Training Peaks, there’s training plans for the Grand Canyon, general base building, and 14ers up now. Also, Pippa Climbs Rainier is available in paperback, check it out on Amazon.

Rules for Overtraining Recovery & Tips for Recovery in General & Nervous System Health

/ Sarah / Leave a comment

I was listening to an audiobook about training yesterday and while the guy was discussing this study about the effects of different workout intensities, he said, “No one’s ever gotten overtrained from doing too much low intensity, because low intensity doesn’t suppress your parasympathetic nervous system.” And I was like WHAT!? Why is this the first time I’ve heard anyone reference that!? And I thought, over the past year+, I’ve failed so many times, partially because I couldn’t find specifics about how to get back into training after you’ve gone through the initial recovery phase.

Pip looking gorgeous on a short, easy run/hike a couple weeks ago
  1. In case you’re starting at square one (Do I have OTS?) the only thing you can do is take time off, complete rest. They say you’ll just know when you’re ready to start back up again, and they’re right. There will be a phase where you start feeling better, you start noticing your symptoms going away, and then one day you’ll just feel normal again. The most important rule for this time is, do not train at all until you WANT to.
  2. Your first forays back in should be extremely brief with tons of recovery between. As in, 20-30 minute walks, then a rest day, then another 20-30 minute walk, until you can tell for sure that your nervous system is recovering in between. I know there’s a lot of controversy about using HRV as a training metric, it seems mostly uninformed. Heart rate variability is an excellent metric for determining the health of your nervous system, and now that I have a Whoop and I’ve been doing this, I wish I had it at the beginning of my OTS recovery. It helps you tell the difference between fatigue and normal fitness-related tiredness, and the difference between the impact exercise is having on your cardiovascular system and your nervous system, which is critical.
  3. LOW VOLUME: Because I couldn’t find any information on what training should be like after OTS, I eased back in slowly over the winter then starting working my mileage back up in the spring, like I normally would. I was initially feeling good, then three weeks later I relapsed. About a month later, I heard a quote in a general athlete recovery-themed book about an athlete that had OTS and his coach prescribed him low volume with lots of recovery for the first six months. This corroborated with my recent experience, so I got on the low volume train.
  4. SHORT: No long workouts, even if weekly mileage is lower. This ties into low volume, and maybe it was already obvious to you but it was not obvious to me. Once I decreased my volume, twice I went out for runs that were far too long. It was mostly by accident, the local trail group asked my boyfriend to scout remote parts of trails to determine where they should focus trail work efforts, and I went along, and both times they ended up being very long days (19 and 26). Both times, it took over a week of feeling cortisol surges and full-body fatigue all day every day until I could even think about going for an easy walk.
  5. LOW INTENSITY: And ONLY low intensity, zone one. After I accepted low volume, I thought the smart thing to do would be to up the intensity, temporarily, until I could do more volume. This was poorly thought out, but at the time I thought it made a lot of sense. If I could only do a couple runs a week and they had to be shorter, I could do them harder. Like, if I couldn’t do 10 or 12 milers, I could do a six miler with a hard effort on a 2,000 or 3,000ft climb (I live in Ouray, where climbing is always the only option). Perhaps you can see the writing on the wall, it didn’t take long before I relapsed again.
we went on this 8 mile hike, longer than anything I’d done recently but because I literally walked the whole time I felt awesome.

Now that I’ve figured out those last three principles (low volume, short workouts, and low intensity) I’m able to workout regularly and I’m feeling great. I’ve also noticed on the Whoop that my vitals are all better when I’m doing this. Aerobic-level exercise metabolizes cortisol that’s in your system, and during your OTS recovery you’ll almost certainly have too much cortisol in your system, which will continue to adversely affect your recovery. You can learn lots and lots about cortisol if you feel like it, but to sum it up quickly:

CORTISOL: prevent cortisol dumps by not letting your heart rate get too high (by too high intensity of exercise, stress, or otherwise). Metabolize cortisol in your system by getting regular low-intensity aerobic exercise. Look into adrenal fatigue supplements to support your body’s ability to regulate cortisol production (you can find much better info about this elsewhere, too, but I can tell you the difference to me was really noticeable when I started taking them).

Things that are really big stressors on your system:

  1. Elevation Gain
  2. Altitude, even just existing at altitude
  3. Heat
  4. Intensity
  5. Mental stress

I’m bringing this up because it was probably some combination of these things that caused your OTS in the first place, and some combination of these things might sabotage your recovery. It’s been a big struggle for me to keep my intensity low because all the trails here are steep climbs and I’m always at high altitude. It was very eye opening to me since I got the Whoop how much a mentally stressful day, for whatever the reason, put a strain on my body, equivalent to a hard workout. BTW, I have no affiliation with Whoop, and I think it’s very useful and perhaps I’ll write a review post on the pro’s and con’s, but in general I think having more awareness of tracking things like your heart rate (and I’m talking thorough tracking of heart rate, daily average, during workouts, and overnight resting HR average) and heart rate variability give you really good information on how much strain you’re putting on your body (in life and in training), and how well you’re adapting and recovering to that strain, particularly, like I mentioned earlier, the difference between your cardiovascular system’s load and your nervous system’s strain (perhaps I’ll write a whole post sometime just on that). Because ideally, training will put a strain on your cardiovascular system that you then adapt to and recover from, but straining your nervous system is the basis of overtraining, and it’s much harder to bounce back from.

ice coming in at the ice park a couple weeks ago

I’ve actually got some really interesting data about altitude and my health after my recent two week trip to low altitude that I’ll do a whole post on soon. We all already know what a stressor altitude is, but it blew my mind how much healthier my body and nervous system was when I left it and I am stoked to share that. Like of course it affects you, but now that I can say how much quantitatively, it’s bananas.

General tips for promoting the health of your nervous system and high HRV:

  1. your nervous system likes a routine. It’s great for your physical and mental health anyway.
  2. get plenty of sleep, and keep your hours regular. As in, go to bed and get up at the same time. Ideally work it out so you never have an alarm, when you’re recovering from OTS at any stage, it’s best to let your body sleep as long as it wants.
  3. Normatec. They’re so expensive, I almost don’t want to bring it up because they’re out of reach for most (I certainly could NEVER have afforded them and am very lucky to have access to them out of someone else’s generosity). Using them for at least an hour a day both increases my sleep quality and quantity, and increases my HRV by an average of 12%.
  4. Meditation/breathwork/yoga. I put all these in the same category because each one has a significant effect on my HRV but I think it’s all for the same reason, and when I do yoga I generally do breathwork and it’s at least somewhat meditative. Any combination of these also combats mental stresses that are straining your system, and all of them stimulate the parasympathetic nervous system, which is the thing we damaged in OTS, the health of which we’re working to restore.
  5. Drinking enough water. Duh? But then, I’m terrible at it.
  6. Legs up the wall. Also very stimulating to the parasympathetic nervous system, also great for sleep.
  7. Massage: when Tim and I trade massages, the effect on my HRV is noticeable. I suspect but I haven’t input it into my Whoop journal so I don’t have the data to back it up, that if I spent any significant amount of time self massaging like I normally would during training, that would also have a positive impact on HRV.

That’s all for now! Like I mentioned earlier, I’ve got a post just on the quantitative effects of altitude coming up. In the meantime, Pippa Climbs Mt. Rainier is in paperback now, check it out on Amazon. And if you’re interested in personal run coaching or training plans for various adventures (in addition to the Grand Canyon plans, I’ve got more mtn specific plans coming in time for New Year’s) check those out on Training Peaks or alpineruncoach.com

Quotes that Aren’t About Running that Totally Could be about Running

/ Sarah / Leave a comment

Approximately four miles into your weekly long run, that you’ve chosen to do in a new place while you’re on vacation.

You just do it. You force yourself to get up. You force yourself to put one foot before the other, and God damn it, you refuse to let it get to you. You fight. You cry. You curse. Then you go about the business of living. That’s how I’ve done it. There’s no other way. – Elizabeth Taylor

Your pacer says to you at mile 70 of your first 100.

 “The reward for work well done is the opportunity to do more.” – Jonas Salk

You realize right after you pat yourself on the back for having done ALL of your training for a whole week.

“I have come to believe that caring for myself is not self indulgent. Caring for myself is an act of survival.” — Audre Lorde

You say to yourself as you’re chugging Udo’s oil in a hot epsom salt bath while you’re trying to rearrange your budget so that you can afford Normatec boots.

You tell yourself as you enter the Hardrock lottery OR as you step outside for your first day of Nolan’s 14 training.

When everything seems to be going against you, remember that the airplane takes off against the wind, not with it. –Henry Ford

5 minutes into a windy run, when you’ve committed to your new life of positivity vis a vis Joe Vigil.

If you don’t go after what you want, you’ll never have it. If you don’t ask, the answer is always no. If you don’t step forward, you’re always in the same place.– Nora Roberts

This is clear, if you don’t go out for a run, you’ll never have the life you want.

The risk of a wrong decision is preferable to the terror of indecision.”– Maimonides

So pull that trigger on Runsignup.

Hey guys, check out my training plans and winter coaching special, alpineruncoach.com