How do we actually measure dehydration? Now you hear different things like if you pinch the skin
on the top of your hand and it takes more than three seconds to lay down again flat,
then you're dehydrated. You hear that. You hear, okay, if you are
to press on your fingernail and see a change in
the color of the tissue just below your fingernail,
which indeed does happen, and it does not go back
to its original color within one to three seconds,
then you're dehydrated. You hear things like this. If your ankles are swollen
when you're wearing socks, you take off the socks and you can see the imprint of the socks on your lower limbs, that
means you're dehydrated. You hear this kind of stuff, and you should probably be
wondering, is any of that true? To some extent, it is true, although it can vary quite
a bit by how old you are, whether or not the skin
on the top of your hand tends to be looser or not, depending on whether or
not you're leaner or not. So, in other words, those are not absolutely
objective measures of dehydration. Now, it is true that if normally you can pinch the skin
on the top of your hand and it returns to its
normal flattened position within about one to two or three seconds, and it does not do that
within five or more seconds, there's a decent probability that you're a little bit dehydrated, that you need to ingest some fluid, or that if you press down on your nail and you see the depression
causes a transition from kind of a pink color to a white color, and then you release and it doesn't go back to
its original pinkish color within a few seconds, well, then there's a chance
that you're dehydrated. But again, these are not
perfect measures of dehydration. You may be surprised to learn,
and I was surprised to learn, that most of the basis
for these statements, like even a 2% dehydration state can lead
to significant reductions in cognitive physical or performance are based on not direct
measures of hydration, but rather on measures of
reductions in water intake, which is a different thing, right? It's saying that ordinarily a person of a given body weight needs X amount of fluid per day, and when they get even just 2% less than that amount of fluid, then their cognitive and or
physical performance is impaired rather than focusing on
dehydration of tissues. Now that might seem like
a subtle distinction, but it's actually a meaningful distinction when you think about it. However, it's a meaningful distinction that we can leverage toward understanding how much water or fluid
we need to drink each day. Now, there we can really
point to some solid numbers that, believe it or not, are fairly independent of body weight. Now, I say independent of body weight, I'm referring to the amount of fluid that most healthy adults need at rest. What do I mean by at rest? I mean when not exercising and when not in extremely
hot environments. So I'm leaving aside you
desert ultra marathoners or people that are doing
any kind of movement or living in environments
that are very, very hot. Here, I'm mainly referring to people that live most of their daily
life in indoor environments, could be air conditioned
or not air conditioned, heated or not heated. What we're trying to arrive
at here are some numbers that can work across the board because of course there
are an infinite number of different conditions that each and all of you are existing in. So I'm not going to attempt
to give you a body weight by activity, by environment, by humidity formula calculation. In fact, no such calculation exists. However, there are formulas that can put you into
very stable frameworks. That is levels of water intake for periods of rest when
you're not exercising and for when you are exercising that will ensure that you are hydrating, with the one exception
being if you are exercising or if you are living in
very, very hot conditions and you're not heat adapted
to those conditions. So what are those numbers? In other words, what is the
answer to the question of how much fluid do we need each day? And here I'm referring to fluid. I'm not distinguishing between
water, caffeinated beverages, soda, tea, and so on. I'll discuss that in a moment. We can reasonably say that for every hour that you are awake, in the first 10 hours of
your day, this is important. In the first 10 hours of your day, you should consume on average
eight ounces of fluid. Now, for those of you that
are using the metric system, not ounces, eight ounces of fluid is approximately 236 milliliters of water. And for those of you that
exist in the metric system and aren't used to thinking
about ounces and vice versa, just think about a typical can
of soda in the United States, it's 12 ounces. In Europe, sometimes the cans of soda are a little bit smaller. That's a whole discussion unto itself. But eight ounces of fluid, that is 236. So let's just say 240 milliliters, 'cause we don't need
to be too precise here, of fluid on average every hour for the first 10 hours of your day, which translates to an
average of 80 ounces of fluid for the first 10 hours of your day, or 2,360 milliliters of water. In other words, approximately
two liters of water plus a little bit more for the
first 10 hours of your day. Now, I want to be very clear that this does not mean that you need to ingest eight ounces or
236 milliliters of fluid on the hour every hour for the
first 10 hours of your day. I'm certainly not saying that. And in fact, most people are going to find that they're going to
ingest water in boluses. That is, they're going to have
perhaps 16 ounces of water, 500 milliliters of water
at one portion of the day, and then maybe a couple hours of later they'll drink some more water or some more coffee or
soda or some other beverage in another portion of the day. I do think, however, it's
important for most of us to take a step back and ask ourselves whether or not independent
of any other activity or environmental conditions, whether or not we are in
fact ingesting 80 ounces, or basically 2.4 liters of water for that 10 hours of the day that spans from the time we
wake up until 10 hours later. Now, why am I setting
this 10 hour framework? The reason I'm setting
this 10 hour framework is that it turns out that
your fluid requirements, even just at rest, are vastly different in the
time from when you wake up until about 10 hours later as compared to the later
evening and nighttime. And here I'm referring to people that are not doing night shifts, but if you are requesting a number of how much fluid to drink
independent of our needs for fluid for exercise, that's going to be eight ounces of fluid or 240 milliliters of fluid on average for every hour from the
time when we wake up until 10 hours later. That's the simple formulation
that should basically ensure that you're getting
sufficient baseline hydration for the cells and tissues of your body. Now, if you are engaging in exercise, whether or not it's endurance exercise or whether or not it's
resistance training exercise, you are going to need additional fluids in order to maximize the
effects of that exercise and to avoid dehydration. And there too, we have some excellent
numbers that we can look to, excellent because they
arrive from research. And this is largely
peeled from the episode that I did with Dr. Andy Galpin, Professor of Kinesiology
at Cal State Fullerton. We did a six episode
series all about exercise, everything from strength
training, hypertrophy, endurance, nutrition, supplementation, recovery, everything related to exercise. You can find all of
that at hubermanlab.com. And one of the components of those episodes that was discussed, but that some of you may have not heard, is that there is a simple formula for how much fluid to ingest, on average, keep in mind this is on average
when you are exercising, and I refer to this as the
so-called Galpin Equation. The Galpin Equation states that you should take your
body weight in pounds, divide that by 30, and that will give you the
number of ounces of fluid to ingest every 15 to
20 minutes on average while exercising. Your body weight in pounds divided by 30 equals the number of ounces
of fluid to consume on average every 15 to 20 minutes. When I say on average, what
I mean is it is not the case that you need to stop
every 15 or 20 minutes and consume that volume of fluid. You could sip it from moment to moment. You could wait half an hour or an hour and then consume a larger bolus
of fluid, a larger amount, although it is recommended
for performance sake that you sip or consume beverages fairly consistently
throughout your training. One's ability to do that is going to depend on a number of things like gastric emptying time, whether or not the particular
exercise you're doing, whether or not it's running or jumping, is compatible with ingesting
fluid on a regular basis, or whether or not you need to
do it at different intervals than every 15, 20 minutes. Maybe it's every five minutes,
maybe it's every half hour, you have to adjust for you. But if you were to take
the hour of exercise or the half hour of exercise or the three hours of exercise and ask how much fluid to ingest, it's going to be that Galpin Equation of body weight and pounds divided by 30 equals the number of ounces
for every 15 or 20 minutes. And of course, I can already
hear screaming from the back. What about for those of us
who follow the metric system? And there there's a simple translation of the Galpin Equation, which is that you need approximately two milliliters of water
per kilogram of body weight every 15 to 20 minutes. Again, the Galpin Equation
converted into the metric system is going to be two milliliters of water per kilogram of body weight every 15 to 20 minutes on average. I'm sure a number of you
are asking whether or not hydration prior to
exercise is also important. It absolutely is. And if you follow the numbers
that I talked about before, approximately eight ounces or 240 milliliters of
fluid intake per hour in the first 10 hours of waking, that should establish a
good baseline of hydration heading into exercise, which then prompts the next
question I often get which is, is the amount of water
that needs to be consumed according to the Galpin Equation
during exercise on top of or separate from, that is does it replace the
amount of fluid that one needs at a basic level, that eight
ounces or 240 milliliters? And there the answer
sort of goes both ways. I think if you're going to exercise, then obviously follow the
Galpin Equation in some way. Again, you don't need to be
ultra specific about this. These are ballpark figures
that will ensure hydration. So we've set them a little
bit higher perhaps than needed to ensure more hydration
rather rather than less. But basically the short answer is, if you're exercising for about an hour, most people are exercising
for an hour or two, probably not more than that. Most of my workouts are, certainly the resistant training workouts last about an hour. Well, then you can
replace the eight ounces or the 240 milliliters of water
that's required at baseline with what you consume according
to the Galpin Equation during that about of exercise. [MUSIC PLAYING]
