Andrew Huberman • AMA #7: Cold Exposure, Maximizing REM Sleep
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ANDREW HUBERMAN: Welcome to the Huberman Lab podcast where we discuss science and science-based tools for everyday life. I'm Andrew Huberman, and I'm a professor of neurobiology and ophthalmology at Stanford School of Medicine.
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The first question asks, is it possible to get a cold or to get sick from deliberate cold exposure? And I suppose a related question is, should you even do deliberate, cold exposure if you have a sniffle, a cold, or a flu?
So answer both of those questions. And I will also touch on some of the immune enhancing effects of deliberate cold exposure. But just to make sure that we answer the specific question asked here right off the bat, is it possible to get a cold or to get sick from deliberate cold exposure?
Well, assuming that you're not doing the deliberate cold exposure for more than, say five or six minutes at one stretch, probably not directly from the deliberate cold exposure. I mention that because most people are doing anywhere from about a minute to three minutes, sometimes five or six minutes. And maybe for those of you that are really pushing it, 10 minutes of deliberate cold exposure.
We can safely say that if you warm up after a relatively brief, meaning one minute to, let's extend out to 10 minutes, 10-minute deliberate cold exposure, although, I really want to caution people to not do 10-minute deliberate cold exposure right off the bat. If you are somebody who is not accustomed to it, don't jump right up to that long exposure to cold water. Start with shorter exposures.
But if you're doing that one-to-10-minute deliberate, cold exposure, and then you're getting warm afterwards and heading about your day, I can't see how the deliberate cold exposure itself would enhance your susceptibility to getting sick.
That said, we know from an enormous number of studies that have looked at cold virus transmission and other forms of viral and bacterial transmission that the environment that you happen to be in does impact your susceptibility to colds and other types of viruses and to bacterial infections in the following way.
There have been controlled studies in which people go into laboratories. Those laboratories have rooms, which they can very tightly control the humidity, so essentially, the water content in the air, as well as the temperature in the room. And if you look at the total mass of those data, we can say a couple of specific things in kind of bullet point fashion. First off, cold, dry air does seem to increase our susceptibility to viral and bacterial infections.
In fact, one of the ways you are constantly fighting off bacterial and viral infections that you're exposed to all the time is by way of those viruses and bacteria getting trapped in the mucous lining of your nose or your mouth, most notably in the back of your throat.
So if you spend time in cold, dry environments, there is a tendency for that mucosal lining to be thinner. There is a tendency for that mucosal lining to not be as robust in general. And when I say robust, what I mean is that if your mouth breathing, for instance in a cold, dry environment, I'm thinking from the time I spent in Cambridge, Massachusetts in winter at the T station. If you're breathing through your mouth or having gone for a run, and your mouth isn't covered, or even if you're deliberately nasal breathing, you are drying out your nasal passages and making them more susceptible to infections.
Does that necessarily mean that every time you go out in cold, dry air that you're going to get an infection? No, of course it doesn't. But to relate this back to the question we have before, there are a lot of data pointing to the fact that more humid, warm environments are going to make your mucosal lining and the general upper respiratory area more, I don't want to say immune because I don't want to conflate that word with the other meaning of immune. It's going to make it more robust against bacterial and viral infections.
So if you get into a cold shower or a cold plunge or a cold ocean or a cold lake, and then you get out, and you're out there shivering and shaking, trying to boost your metabolism or whatever it is that you're doing it for, and it's cold, dry air, and especially if your mouth breathing in that cold, dry air, yes, I could see how that might lead to a higher probability of getting a cold or other type of infection.
But there's nothing specific about the deliberate, cold exposure itself that can induce a cold or other type of infection assuming that the water is clean, right? We're not talking about bacterial infections of cuts on the skin, et cetera. We're talking about colds and other forms of being sick, namely upper respiratory infections.
OK, now with that said, I often get asked whether or not for people who already have a little sniffle, they're feeling a little run down or perhaps a lot run down, should they do deliberate cold exposure? And what's a little tricky to give a one size fits all answer, but I think we can safely say that if you are feeling malaise, if you're feeling like you have to rest you're tired, you're not feeling good because of a cold or because of a flu or because of a bacterial infection, now, I'm not saying just feeling not good, I'm saying feeling not good due to a cold or other form of virus or bacterial infection, then I would say stay out of deliberate, cold exposure. Don't use it. Now, why would I say that?
Given the data I'll talk about in a few minutes showing that regular deliberate cold exposure if done correctly, can in fact increase immune system markers and perhaps even make you much more robust to combating different types of infection through the release of adrenaline. We'll talk about what all that looks like in a moment in terms of protocols and some of the science. But to just be very clear and very direct, if you're sick, stay out of deliberate cold exposure.
There, I, would instead recommend warmer hot baths warmer hot showers, the sauna, et cetera. But I also would caution that if you are getting into saunas that are too hot, saunas they're so hot that it's stressful for you, and again, a lot of people use deliberate heat exposure because of the stress it induces, they're doing some heat induced, for instance, heat shock proteins and different ways of increasing heart rate. That's a different sort of thing. That's hard, stressful in order to generate an adaptation.
I don't recommend doing that. In fact, I don't recommend doing deliberate cold exposure, exercise, or deliberate heat exposure if you're feeling really not well. Now, if you're feeling just a little bit not well, you're feeling a little bit rundown, a little bit of sniffle, a little bit of malaise, well then, it's kind of an edge case where we could say, all right you know what? Just take a hot shower and go to sleep. That's probably the best advice, that good old-fashioned advice.
But if you are determined to do your deliberate cold exposure anyway, then I would say definitely get warm or take a hot shower afterwards, hot bath, or hot sauna, but, not too hot that it's stressful, of course. And keep in mind that one of the variables that's been measured quite a lot in laboratory studies of deliberate cold exposure is the increase in immune system markers.
So I'll provide a few links to some of these studies. Although, nowadays there are many, many of them. But it's very clear that deliberate cold exposure can increase the release and the production of different immune molecules and immune cells. One slightly older study, but nonetheless a good study that has relevance here is entitled "Immune system of cold exposed and cold adapted humans."
Keep in mind that this study is a little bit extreme. And there are reasons for that. I guess to make a long story short, oftentimes, in order to quote unquote "see an effect in a study," scientists will use conditions that are pretty extreme compared to control group. Oftentimes, you'll see a dose response to, but it's a little bit trickier to do with human studies of deliberate, cold exposure. It can be done, but not too common.
But here, they used a pretty what I would call extreme stimulus. It was exposing people to 14 degrees Celsius water, so that's 57.2 degrees Fahrenheit, which isn't that cold. It's like cool, I would say very cool water, but not what you might consider cold depending on how well you tolerate cold. And that will vary, of course.
But they had people exposed to that for an hour, which is a pretty long time. Most people, as I mentioned, are using colder temperatures of deliberate cold exposure, so even high 30s, low 40s, maybe upper 40s for anywhere from one to 10 minutes, depending on how conditioned they are. And again, don't just jump into 10 minutes of deliberate, cold exposure, please at 35 degrees or 40 degrees or even 45 degrees if you aren't familiar with deliberate cold exposure. You have to ease into these sorts of things over time.
In any event, this study, "Immune system of cold exposing cold adapted humans," as I mentioned, had people in 14 degrees Celsius water for one hour. And basically what they found is that one exposure to cold did not change immune system function in any kind of significant way. However, what they found was if people did deliver cold exposure repeatedly over a period of about six weeks, and by repeatedly, I mean three times per week, what they found were trends.
And again, trends are not statistically significant, but trends towards increases in plasma concentrations of things like IL 6, interleukin 6 or total numbers of T lymphocytes and T helper cells and T suppressor cells and activated T and B lymphocytes, these are all immune cells and immune molecules that roughly correspond to an increase in immune system function.
This study, which we will link to in the show note captions is but one study of several other studies showing that deliberate cold exposure can increase immune system markers, especially when deliberate cold exposure is done repeatedly over time, so in this case, three times a week over a period of six weeks. But again, I want to highlight these aren't highly significant effects. These are trends in the direction of increased numbers of immune cells and immune markers.
Now, what's impossible to know is how those trends translate to actual resistance to specific concentrations of, say cold virus or flu virus or any other virus or bacteria. That would be great, but that's a very difficult study to do, especially in the context of deliberate cold exposure as well.
Now, we can all be scientists about this and say, what is it about deliberate cold exposure that would increase immune system function? And there, we can confidently say the molecules epinephrine and norepinephrine, which are released in both brain and body in response to cold water exposure, as well as things like deliberate hyperventilation, the release of norepinephrine and epinephrine into the brain and body is known to have a number of different effects related to the immune system. It can be pro-immune, at least in the short term.
And in the long term, meaning if noradrenaline and adrenaline, again those are just different names for norepinephrine and epinephrine. I'm sorry, those are the same thing, but that's why I use them interchangeably so that you don't get confused.
Deliberate cold exposure or deliberate hyperventilation will increase those molecules, norepinephrine and epinephrine. And their increase is pro-immune. It can trigger the activation of immune cells and immune molecules that can make you more resistant to certain forms of infection. However, if norepinephrine and epinephrine are elevated chronically, and especially if they are elevated late in the day repeatedly over many, many days, that can cause reductions in the number and efficiency of immune cells in combating infections.
So getting cold in this context of whether or not you can get sick from it should really be considered more as what happens when you spike your adrenaline and norepinephrine? And there's one other study that we can look to, which is now really a famous study published in proceedings of the National Academy of Sciences looking at so-called Wim Hof breathing.
But really, that just translates to cyclic hyperventilation. So this is inhaling through nose, exhaling through the mouth repeatedly 25 times or so. If you do that, you notice you feel quite warm, lots to do with some things relate to vasodilation, has some things to do with release of norepinephrine. And epinephrine, we know that pattern of deliberate hyperventilation, much like deliberate cold exposure, deploys or releases noradrenaline and adrenaline into your brain and body.
And we know from this study entitled "Voluntary activation of the sympathetic nervous system and attenuation of the innate immune response in humans" showed really nicely, I think. That if people are injected with E. coli, a bacteria it's actually an end-- they did this through endotoxin injections. People got really sick. They'd get feel like they had the flu, they vomit, diarrhea, get a fever, et cetera.
However if they did the sorts of breathing that I talked about just a moment ago, prior to that, they were able to ward off a lot of the symptoms associated with the endotoxin infection. And you would say, OK wow, their immune system just fired up, and they were able to fight it off. But it's trickier than that, actually. What happened was the release of epinephrine and norepinephrine from cyclic hyperventilation, which is really what really is, cyclic hyperventilation, also called Wim Hof breathing, also called tummo breathing, et cetera, that actually had a suppressive action on certain arms of the immune system in a way that allowed people to avoid symptomology such as fever, nausea, et cetera.
And we would imagine the same thing would occur with deliberate cold exposure done prior to bacterial infection or viral exposure. So if you're sensing that I'm saying two things at once, I am.
I'm saying deliberate cold exposure, and cyclic hyperventilation can both cause deployment of molecules such as epinephrine and norepinephrine that lead to enhanced immune system function if done repeatedly. I'm also saying that increasing norepinephrine and epinephrine too much can suppress your immune system.
In this study, the PNAS study that I mentioned a moment ago, that suppression of the immune response was actually one of the reasons people avoided symptomology. But they were still injected with endotoxin, so they just weren't fighting off the endotoxin with fever. Remember, fever is an adaptation to fight infection. It's designed essentially to heat up the infection and kill it. So what are we to take away from this?
Here are what I think are the key takeaways. One, if you are feeling good to great, do your deliberate cold exposure. And perhaps don't worry so much about using your body's natural metabolism and thermogenic abilities to heat back up afterwards. But I don't suggest anyone ever allow themselves to stay really cold after deliberate cold exposure for more than 10, 15 minutes or maybe half an hour, right? Get bundled back up, or put on clothes. If it's a nice hot, sunny day, get out in the sun and warm up. Again, temperatures and conditions will vary for different people, different locations, et cetera.
If you are not feeling great, you're feeling a little rundown, and you really want to do your deliberate cold exposure, do it, but then warm up really well afterwards. Maybe even drink some hot tea or other fluid afterwards as well.
And if you are not feeling good, you're feeling malaise, you're feeling run down. Despite what you read about deliberate, cold exposure or cyclic hyperventilation, allowing for the deployment of immune molecules or increasing the number of immune cells that you're making, avoid anything that's stressful or challenging whether or not it's a cold challenge, a heat challenge, or an exercise challenge when you're feeling run down. Because under those conditions, what you really want to do is slow your circulation down, probably find and take a little walks or something provided you're not doubled over in bed and vomiting, and things like that. A little bit of movement, probably good to circulate your blood.
But in general, the advice that you get to rest when you're sick and not push yourself, that's really good advice because you want all of your body's resources to be devoted to getting over that infection.
And if you're interested in sickness and sickness behavior and the sorts of behaviors that can combat infection, check out the episode I did on the immune system. We'll link to it in the show note captions. Because it talks about how when we have a viral or bacterial infection, a whole set of brain circuits get activated that encourage us to be more in the fetal position, to move less, to be eyes down, to kind of slump down. That's not a coincidence. That's because of the activation of these so-called sickness circuits that are really designed to help you heal yourself.
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