The Peter Attia Drive - #200 - AMA #33: Hydration—electrolytes, supplements, sports drinks, performance effects, and more
Episode Date: March 21, 2022Become a Member to Listen to the Full Episode View the Show Notes Page for This Episode Episode Description: In this “Ask Me Anything” (AMA) episode, Peter discusses all things related to hydrat...ion, starting with how water is distributed in the body and the important concept of tonicity. He explains the difference between dehydration and volume depletion and their respective health consequences and implications. He describes the different conditions which affect our daily water needs, as well as the signs of dehydration and how it can affect performance. Next, he discusses all the ways in which we can rehydrate and when it makes sense to add electrolytes, glucose—or a combination of both—to rehydration fluids. Additionally, Peter gives his take on the plethora of sports drinks on the market and which ones stand out from the rest. Finally, he concludes with some key takeaways related to hydration. If you’re not a subscriber and listening on a podcast player, you’ll only be able to hear a preview of the AMA. If you’re a subscriber, you can now listen to this full episode on your private RSS feed or on our website at the AMA #33 show notes page. If you are not a subscriber, you can learn more about the subscriber benefits here. We discuss: Peter’s incident leading to a renewed interest in hydration [3:15]; Water in the human body: percentage, location, and implications [6:00]; Defining tonicity—isotonic, hypotonic, and hypertonic [11:45]; Defining dehydration and volume depletion [19:00]; The health consequences of dehydration and volume depletion [21:45]; How do we actually lose water? [25:30]; How much water do we need every day? [28:00]; Signs of dehydration during exercise and how it can affect performance [32:45]; Is it possible to be overhydrated? [43:15]; Electrolytes: benefits and when to include them in rehydration fluids [47:00]; Glucose: benefits and when to include it in rehydration fluids 51:15]; The ability of glucose to improve absorption of sodium [58:45]; The type of carbohydrates in drinks than actually impact performance [1:02:00]; Sodium during workouts: is there an optimal ratio of carbohydrate to sodium? [1:05:00]; Pros and cons of sports drinks and which ones stand out [1:09:15]; How much hydration comes from the food we eat? [1:14:30]; Is there a downside to drinking electrolytes throughout the day even without exercise? [1:15:15]; Key takeaways related to hydration [1:18:15]; and More. Sign Up to Receive Peter’s Weekly Newsletter Connect With Peter on Twitter, Instagram, Facebook & YouTube
Transcript
Discussion (0)
Hey everyone, welcome to a sneak peek, ask me anything or AMA episode of the drive podcast.
I'm your host, Peter Atiyah.
At the end of this short episode, I'll explain how you can access the AMA episodes in full,
along with a ton of other membership benefits we've created. Or you can learn more now by going to peterottiamd.com forward slash subscribe.
So without further delay, here's today's sneak peek of the Ask Me Anything episode.
Welcome to Ask Me Anything episode 33. I'm joined once again by Nick Stenson. In today's episode,
we talk about all things related to hydration. So we've got a lot of questions about hydration,
and personally, this has become something that's a lot more interesting to me in the
past couple of months than it had been previously for reasons I'll explain in the podcast. So we
kind of do, I think, a tour de force on this here. We had actually intended to talk about a few other unrelated topics, but we went so long on hydration that we just decided
to make this a dedicated episode to that. So we kind of get into where does water live in our
body? You got to start from the standpoint of understanding where are the water compartments
of our body. And then you have to get into this idea of tonicity. So it gets a little sciencey
up there, but then once you understand that, and I think it's pretty straightforward to understand,
everything that we start to talk about makes sense thereafter.
So we get into kind of the difference between dehydration and volume depletion, what the health
consequences of that are, how we're actually losing water, how much water we need throughout
the day, how much water versus salt you're losing when you sweat, and how that changes under
different conditions, and therefore what your hydration needs look like under different
conditions of temperature and exertion. Talk about how dehydration affects performance, what the signs
look like of dehydration. And we even get into what happens when you overhydrate. So that's
something that is fortunately rare, but unfortunately can be quite catastrophic.
And then we kind of get into all of the different ways one can rehydrate. So what's the difference
about rehydrating with electrolytes only versus electrolytes plus glucose versus glucose only.
We then get into all of the different sports drinks and how they're put together, which ones
are based on scientific principles, maybe which ones less so even getting into kind of the nuance
around the optimal ratio of glucose to sodium.
So if you're a subscriber and you want to watch the full video of the podcast, you'll be able to see it within the show notes.
If you're not a subscriber, you can watch a sneak peek of the video on our YouTube page.
So without further delay, I hope you enjoy AMA number 33.
One addendum to this podcast since it was recorded. This AMA was recorded in early January
of 2022. At that time, I had no involvement with any company producing any of the hydration
products that are discussed here. However, since recording this podcast, I've continued down the
rabbit hole of getting deeper and deeper into this. I've become particularly enamored with one of the companies that I mentioned here,
and I am now a small investor in that company. That company is Element, L-M-N-T. So understand
that while I now have a financial conflict of interest through my investment in Element,
I did not have that at the time of this podcast.
All right, Nick, we're back for another AMA. This is your second one. So you survived the first one, huh? Yeah, I made it through the first one. So we'll see how this one goes.
All right. I don't know. I think we've got some interesting topics for today. What do we have?
We have a good amount of questions that came through around hydration,
all things that relate to that, which I know is a topic you became a little more interested in,
in the recent weeks and months. I'm sure people, even if they haven't heard the stories,
might've seen the scars on your face and some podcasts and things like that, which are healing
nicely. So why don't you kind of give people a quick rundown of where this interest came from?
Not that you weren't interested before, but where this additional focus.
Yeah. Yeah. It's definitely a renewed interest. Actually, the story you're referring to was
from the time of this recording several months ago, it was kind of a perfect storm of things.
on a Tuesday gave a lot of blood, about three units of blood. And on the Thursday, so two days later, hopped on a long flight from here down to Brazil for the F1 race. And of course, anybody
who's been on an airplane knows how dry they are and how dehydrated anybody gets on an airplane.
On top of that, it was like an overnight flight.
So you're basically asleep most of the time anyway. Get to Brazil, it's Friday morning,
I think. I woke up in the morning when I was there. So it's between the giving the blood,
the being relatively dehydrated, and then just I naturally have very low blood pressure anyway.
And at least once or twice a month when I stand up from bed, I have to take a knee to just not fall. It's not like I never lose consciousness or anything. But
anyway, you can see where this is going. Got up in the morning and this time completely lost
consciousness. Have no recollection of how it happened, but just face planted into a table.
And the only thing I remember was the sound of my neck cracking and then waking up looking
like there was a murder scene in the room. It's funny at the time I didn't put two and two together.
I didn't understand why I could have such a horrible fall and truly lose consciousness.
And then of course after the fact putting two and two together and realizing actually you were
profoundly dehydrated. So that kind of got me
thinking, well, how can I mitigate this sort of thing from happening again? And what does it say
overall about my hydration status? Is that partly what may contribute to why I sometimes feel
lightheaded in the mornings? Yeah. It's kind of funny when you think about it, your biggest injury
from racing an F1 came from travel to a race as opposed to in the race car itself.
That's right.
That is hands down my biggest injury that involves any racing that I've done or observed.
Including in a minivan?
Yes, definitely.
The biggest challenge is just the family screaming at you when you race.
Well, you just got to enjoy the ride.
They just got to sit back and enjoy where
they're headed. Getting into this hydration thing, I think one thing that would be interesting is
oftentimes people, and I've heard this before, your body's 50% water, your body's 70% water,
your body's 60% water. You kind of hear over and over like your body is so much water. And so
when you talk about gaining weight, losing weight, you often hear the term water weight. So just stepping back, what does it even mean that our body makes up
anywhere from 50 to 70% of water? Do we know what percentage it is? Where is it located?
Maybe you lay the groundwork there. This is a bit confusing. First of all,
it does change a little bit. So infants have a higher percentage of their total body in water than
adults. So I think using 60% is a reasonable number because that's about where adults are.
So what does that mean? You want to divide that into two categories broadly. The first is water
that is inside of cells. And the second compartment is water that is outside of cells. So obviously we're made up of trillions of cells.
So the water inside of cells is called, not surprisingly, intracellular fluid.
And that accounts for two thirds of your water weight.
So if we're talking about 60% of your weight is water, then two thirds of that 60% is within
the cells themselves, which of course implies that
one third of that weight is extracellular fluid or fluid that is outside of cells. Now, this is
where it gets a little more confusing because that extracellular fluid resides in different places.
Now, one of those places is pretty obvious, which is the vasculature. So you take blood out of
the vascular system. Obviously water is a non-trivial component of that. And it turns out
it's about 25% of the extracellular fluid is the plasma that makes up the blood, right? So blood
is made up of cellular contents, clotting factors, things like that. And then of course,
plasma. And you'll notice this anytime you spin blood or see blood spun. The tube, it's red,
you spin it and all of a sudden it gets very dark at the bottom. That's like all the cellular
contents. Predominantly what you're seeing is of course the platelets in the red blood cells,
which dominate everything else. And then you see a clearish yellow fraction, depending on how much lipids are in there. That's the plasma,
which is effectively the water. So 25% of the extracellular fluid resides in that space.
About two thirds to 60% of the extracellular fluid resides in what's called the interstitial space. So this is the space that
is between cells, but not in plasma. This is very complicated. This is a space that is under
appreciated. So when you have a cold or you're really, really sick, some people notice they
actually might gain weight. And then they might notice that if they're really paying attention
in the days after they're starting to get better, not only are they losing weight again, but they're peeing like crazy. That's because of the expansion
of that interstitial space. So when we're sick, our blood vessels become very leaky. And the reason
for that is important. That's where we have all the white blood cells and immune cells do something
called extravasate from the vascular system so that they can go and reach the tissues. But that leaking is what leads to this swelling. A more extreme
example of this is somebody in the ICU who's very sick. They almost always look like a puffed up
Michelin man. And that's the reason why. So the remaining part of the extracellular fluid
basically resides in the digestive tract, the CSF, or other small fluid
filled areas within epithelial line spaces. So the way you can sort of put a bow on this is
about 67% of your total body water is inside cells. About 20% is in the interstitium,
this area that exists between everything. And of course that can really
expand when you're sick. About 8% is in the vascular system and about 5% or thereabouts
is basically everything else, including CSF and things like that.
Do those percentages, the overall percent of water and someone's weight, as well as the
breakdown of percent, does that change based on body types? Like if someone's weight, as well as the breakdown of percent. Does that change based
on body types? Like if someone's lean, if someone has more muscle, if someone has more fat,
and maybe even a follow-up is like, does that even matter? If you're 60% compared to 65,
it's probably what your baseline is as opposed to where you are compared to someone else.
But it does change for sure. So muscle is far higher water
content than fat. So fat tissue is about 10% water by weight. We refer to that as being quote unquote
anhydrous without water. Muscle is probably 75% water. So right there, you can see you take two individuals. One of them is 12% body fat.
The other is 35% body fat. There's absolutely going to be a difference in how much water that
person is carrying. The more muscular person has a higher amount of their body weight made up in
water. So I mean, Bob Kaplan, he's probably what, 80, 90% water weight then with all the muscles
he's rocking? I think Bob is pure water.
Pure water.
Just pure water.
Who was it?
Bruce Lee, like this is water, just takes it to a new extreme.
That's right.
Well, this is water, of course, was David Foster Wallace, but I think Bruce Lee was-
Oh, move like water.
Yeah, taking the form of water, yeah.
Yeah, I got my water mixed up.
Another term you hear a lot is tenicity when talking about hydration, water levels,
things of that nature. I thought it may be good to just get an idea of what that is. How does
that play into everything here? Tonicity basically refers to how the concentration of one solution
compares to that of another. And the way we think about this in human physiology is all relative to
the concentration of a cell because the cell is the dominant source of water. So if you ask the
question, I think red blood cells are the easiest way to see this. If you put a bunch of red blood
cells into another fluid, how would the water move between those two? So let's start with the
easiest example of this. The easiest example is something that is isotonic. We have a figure that
shows this, right, Nick? You want to whip that up? I just pulled that figure up so people can
see what we're talking about here. Okay. So what you're looking at are a bunch of
red blood cells in a solution where the surrounding solution has a different concentration of solutes
in it relative to the red blood cell. So in a moment, I'll tell you what the concentration
is of the red blood cell, meaning I'll tell you what the concentration, how much solute, i.e.
electrolyte is dissolved within that. For the purpose of this discussion, you just want to
understand that there's an equilibrium. So if you put those red blood cells into a solution that
has the same tonicity as them, there's a total balance between how much fluid goes from the
outside solution to the cells and how much goes from
the cells to the outside solution. So the red blood cells don't really change in shape at all.
Now, what happens if you put the red blood cells into a very concentrated solution? So we would
call that hypertonic. So if you did that, you would have a net flow of water from the red blood cells into that solution. Why? Because just like water always
rolls downhill, water always moves in the direction of the concentration gradient. There's
a natural equilibrium that's always trying to happen where water is trying to equate the
concentration across the permeable membrane of the cell. So in a hypertonic solution,
the cells would shrivel up as they lose water into the more concentrated surrounding solution.
And of course, the opposite is true. If you put water into a hypotonic solution, there's going to
be an influx of water into the cells and they'll eventually swell, swell, swell until they actually
would rupture. Does that make sense? The difference between hypertonic, hypotonic,
and isotonic? This is an important, if we don't get this right, I think a lot of what we talk
about today will be harder to follow. Yeah, I think that does make sense.
And just as an aside, anyone who's been in a hospital has seen someone getting intravenous
fluids. You've probably noticed you never give somebody water intravenously. Even sterile water, you couldn't give that intravenously because it doesn't have
any tonicity. So the tonicity of pure water is essentially zero. So if you just infused water
into somebody's vascular system, you would rupture all the cells in their body. That would be a
really bad thing to do. So when we give IV
fluids, we have to give them relatively close to isotonic solutions. They don't have to be always
isotonic. They can be a little hypertonic. And that's something that you typically do with people
that have head injuries as you're trying to reduce the swelling in their brains. You're actually
trying to suck fluid out. And then you can also give slightly hypotonic solutions, especially if a person already has too many
electrolytes on board. Their sodium levels are getting too high and things like that.
But as a general rule, you're starting from the baseline of giving an isotonic solution,
which is 0.9% sodium chloride. And then you can adjust up or down with how much sodium chloride is in there
and also how much other minerals ions are in there, along with things like glucose,
which contribute to tenacity as well. Got it. Kind of on that realm then,
one of the follow-up questions we got was, what are some of the most important solutes
for determining the tenacity of blood? Are there certain things that are more important than others?
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