Intake of salt is a biological imperative inextricably woven into physiological systems, human societies, and global culture.

However, excessive salt intake is associated with high blood pressure.

The crucial question is whether salt exerts a causal influence on patient centered health outcomes such as myocardial infection, stroke, and death.

However, this issue is controversial and fiercely debated.

Despite the controversy, two broad points of consensus exist.

The first is that the uncertainty could be resolved by better quality data, that is, large, randomized clinical trials with sufficient follow up to assess robust cardiovascular outcomes.

The second is that the barriers to performing such trials are so substantial that they will be rarely, if ever surmounted.

Okay, so many questions.

What was that?

From?

When was that?

From?

Who wrote that?

I can't wait to tell you?

Okay?

So that was I pulled clips like little bits from the intro and from later in a paper, from a very very recent paper.

I have just scrolled.

Why didn't I put this up?

I'm scrolling all the way to the bottom of my notes from Nature Reviews Nephrology from twenty twenty two by hunter at All titled the Impact of Excessive Salt Intake on Human Health, and this paper that little intro, that's the end of my.

I mean, that's what like, That's what kills me, is that I feel like since that could The reason I asked where when is it from?

Is because that could have been from so many different points in history over the salt debate.

We need better data, we need randomized control trials, we need long term data sets and follow up.

And it is from twenty twenty two.

So that's what we're going to talk about today in this episode.

Hi, I'm Aaron Welsh.

And I'm Aaron Allman updight.

And this is this podcast will kill you.

Welcome back to Salt Salt.

Here we go again, Yeah.

We go again.

I'm really excited about today's episode.

I don't know how many answer any of your questions, but I think I think we'll come to some clarity.

I honestly really actually do at the end of this.

I am hopeful.

I know that if there is a thread to be pulled, you will find it and yank it out from the yank Yeah, yeah, I do.

I'm thrilled for this.

Yeah, I already want to start asking questions, and that is a first like that is early for me, so good.

I can't wait.

I can't wait for you to ask me questions and then I'll be like that's the one I don't have an answer for, or like, oh my god, now I have to scroll one hundred years in my notes.

I can't wait.

I have fifteen pages of notes here erin so like, I've got to have answers to something.

But firstarantiny time it is?

It is we're again drinking the grains of salts, which is based on a salty dog.

I mean it is a salty dog, which is great fruit juice and vodka or gin, whichever you prefer.

Make sure your rim is salted unless you're dealing with high blood pressure.

No, just kidding, I don't know, but that is the technical recipe.

Also, this reminds me that if you are just now tuning in, then you didn't see at the top that it says Salt Part two.

You really don't have to listen to the first episode, but you should.

It's not like there's a narrative that you'll miss, but you'll miss a lot.

You'll miss some.

It'll help you with trivia.

It's got some cool It's a great episode.

Do you want to learn where the term grain of salt comes from?

Check it out.

You've got to listen to that episode.

We're not going to tell you now.

Yeah.

Anyways, we'll post the recipe for the drink on our website.

This podcast with you dot com and our social media is so make sure you're following us there.

You find lots of other cool stuff on our website too, like trans scripts and a bookshop dot orgiphiliated account, and a good Reads list and merch and all the sources from all of these episodes.

Boy do I have a long list for this one bloodmobile?

Who does our music?

You know?

Contact us form.

Lots of things.

I'll check it out.

Is there any other business or can we like get straight to things?

Let's do this?

Oh yes, very short break life evolved in the oceans, which are salty.

I loved this.

I'm like, wait a second, have I said this before?

No, you haven't, but it is the most Aaron Welsh way to start the thing.

Ever that I was like thrilled that you didn't start that way and that I could do it.

I did think about going into the evolutionary origins and then I was like stop.

Yeah, no, no, I'm not going any further than that.

Life evolved in the oceans.

Yeah, the oceans are salty, and with the evolution from single celled organisms to multicellular organisms, salt became a major component of our extracellular fluid, that is, the fluid that is on the outside rather than the inside of our cells.

Our bodies are basically just made up of tiny little water balloons bathing in more water.

Yeah, okay, and all of the water inside and outside of our cells is salty water.

Yeah, but the salt on the inside of our cells is mostly potassium.

So the ions that make up the salt mostly are potassium, and the salts outside of our cells most are made up of sodium.

So, as we moved from our ocean homes to land, and by we I mean like, you know, creatures and not like humans.

Global evolutionary we yeah.

Exactly, we were no longer bathing in sodium all the time, right, and thus we had to find ways to ingest it.

Yeah.

So animals evolved taste receptors to be able to detect salt, and in general, like you kind of mentioned, Aaron, most animals have actually a pretty consistent like upside down U shaped preference curve for saltiness, right, but I think it's yeah, upside down you so like it's delicious right in the middle.

If it's not salty enough, it doesn't taste good.

If there's too much salt also doesn't taste good.

Right.

So when we talk about salt in this episode, like you said last week as well too, I'm talking about sodium chloride NaCl uh huh.

I mean when I set it in the bodies where there's other salts in your bodies, and there's other ions that are important, But from now on out, I'm just talking about sodium chloride.

Okay, Can I already ask a question?

Yeah, Garby, you mentioned potassium is on the inside and sodium is on the outside.

Huh.

And what happens then?

Like okay, yeah, let me let's sorry.

Yeah, well it's not a question.

It was more just like tell me more.

Yes, let me continue setting the scene and then I will I will get into that, okay, very shortly.

Well, we're talking mostly about sodium chloride today.

Lots of other salts exist in chemistry, salt like table salt, Sodium chloride is about forty percent sodium.

Yeah, like by weight, so ten grams of salt.

This is important for one work because like all of the dietary guidelines and things talk about sodium, right, But then a lot of studies just talk about salt.

So we can use these interchange ten grams of salt four grams of sodium.

That's the equivalence there.

Okay, guess what there are like online calculators that I had to use to be like how much sodium are wet?

I would be like how much salt does the average American eat?

Oh?

You know, however thirty two hundred milligrams of salt or sodium, So like right, no, but how much salt are we eating?

How much salt does that?

Yeah?

Exactly.

Also, then some studies like to use millimals just to make them sound more smart, and you're just like, now I have to take it from mills to milligrams, Like stop it, it's unnecessary.

But so the questions that I want to answer today in this episode are number one, why do we give a crap about sodium?

And that's going to get it your question of like sodium potassium, what does that mean?

What does it do in our bodies?

Why do we actually need it.

What is the problem or is there a problem with excess sodium and how much?

What does excess actually mean?

And why is there so much debate about this?

Yeah, that's going to be a big part of the episode.

What I am not going to talk about is hypo and hyper natremia.

That is when your blood sodium is too low or too high.

I'm not going to talk about it in any great detail.

If you are a medical student or a resident, you're welcome for not making you listen to that.

If you don't know what that means, you can watch some doctor Glalcum Flecken videos because they sum up both my knowledge and also why I have no interest in talking about those things, because.

Are those acute stages.

They can be acute or chronic.

Okay, okay, yeah, and it's all just a mess.

But you will understand why it's important when I tell you why do we have to give a crap about sodium?

Right at its core, at its most important, sodium is what determines our total body fluid balance.

So because it is the most abundant cat ion, positively charged ion in our extracellular fluid, it is what determines how much fluid volume we actually have in our bodies.

Right, Because the salt on the inside of our cell bags is mostly potassium and the salt on the outside is mostly sodium, it doesn't matter which is which as long as their concentrations are the same.

Our bodies have to keep a balance of these fluids.

So the concentration of particles on the inside of our cell has to match the concentration on the outside if they don't, Like if you were to dump a bunch of sodium into your bloodstream into your extracellular fluid, then your body would have to compensate by extracting fluid from cells in order to make up for that.

Right, Okay, And the identity of sodium versus potassium doesn't necessarily matter, I imagine it does at a point.

It does, absolutely, but it doesn't for the purposes of just understanding that, like at its core, you just have to have balance.

It so happens that potassium is what exists inside of our cells, and sodium primarily exists outside of our cells, And our cells do a lot of transmitting sodium and potassium back and forth through these atp ion channels, and that is all very important.

But to understand fluid balance.

You need to know that potassiums on the inside and sodiums on the outside, and they got to be concentration wise balanced.

Right.

Sodium is also an incredibly important cad on outside of fluid balance.

It's a neurotransmitter.

It is essential for our muscles to be able to contract, and so it's something that our cells also use in communication with other cells.

So, make no mistake, we cannot exist without sodium.

It's necessary for life.

It is necessary for life, and the volume of our fluid in our bodies is proportional to our total body content of sodium.

Right, So, in order to if you lose a bunch of volume, for example, if you're bleeding, or if you're even just peeing out way too much, or you're sweating or you're having diarrhea, in order to replace the volume that you've lost of fluid, you have to also replace sodium.

You cannot replace it with just water, it will not work.

Right.

We lose sodium predominantly through our kidneys.

In fact, shout out to our kidneys.

They are so stellar at this that they excrete about ninety to ninety five percent of what we ingest regardless of how much we ingest.

Isn't that interesting?

Wait?

So okay, but you said it's a proportion that they excrete out or.

Is it ninety to ninety five percent of what you ingest you're going to pee out in your kidneys.

So let's say we're talking about sodium sodium.

Yeah, so let's say that you, you know, going back to last week's episode when the ridiculous estimate, shocking estimate of one hundred grams of salt a day a day, let's say, so, that's forty grams of sodium oday.

Yeah, that ninety percent that's excreted out.

You've got a lot more salt remaining in your body than if you're.

Oh, Aaron, you're so right.

Thank you for leading me perfectly to that.

You did it all on your own.

Oh my god, Yes, exactly, exactly right.

Proportionally percent of what we ingest, regardless of what we're ingesting.

Right, we're gonna lose some through our gi tract, via your poop.

You're gonna lose some via sweat, et cetera.

Okay, most of its kidneys, Most of it's kidneys, and our kidneys.

They do a really good job of deciding how much to kick out and how much to keep depending on how much we eat, because it is going to be variable.

Right, if you're not getting enough, if you are deficient in your sodium intake, or if you've got other reasons that your body decides, hey, we need to hold onto this.

Your kidneys can actually keep almost all of it.

They can They can keep almost one hundred percent of your sodium if they need to.

Two questions, Okay, what are some of the conditions that your kidneys might keep more sodium than is necessary?

And how often does someone actually not consume enough sodium in like the your like a normal day to.

Day you know, such great questions.

How often in the year twenty twenty five is someone not getting enough sodium?

Very rare?

Okay, it's very hard to not get enough sodium for most people.

You If you, for example, were to lose a lot of blood or lose a lot of volume for any reason, then your blood pressure would probably drop.

Then your kidneys would say, hey, we need to hold onto blood pressure.

We're going to do that by holding on all of our sodium.

We're not going to let any sodium go, and that's going to help.

You're going to need to ingest sodium, either via like ivy fluids or just eating salt in order to make up for those losses.

But your kidneys are also going to react very quickly to hold on to as much as possible.

There's other like disease states.

For example, if you have issues with your adrenals where you're not producing certain hormones.

Because it's a lot of very complicated it's your kidneys, it's your brain, it's your blood vessels and sensors that are in your blood vessels.

It's hormones that are controlling all of this.

So if you have deficiencies in certain hormones, then your kidneys might flip on and say, hey, we need to hold on to all the sodium that's possible because we are you know, at risk of losing it or whatever.

Or maybe you have deficiencies and hormones and you can't do that and so you're losing a lot of sodiums.

So then you might have what so many animals have big bone lick stake park and that is what's called sodium appetite.

Yes, and sodium appetite is this idea that we know exists in animals that in a state of sodium deficiency.

Animals will exhibit these pretty extreme sodium seeking behaviors and they will do extra work to seek out and consume salt.

And we see this in a lot of different animals, mice, rats, rabbits, pigeons, goats, we learned, kangaroos, sheep, cattle, monkeys, horses.

So the question is does this sodium appetite exist in humans, And we think probably yes, though the data is based on a few cases of like, for example, kids who had no functional adrenals, so they were salt wasting.

Their kidneys could not hold on to salt, and so they had an increased need for salt and exhibited these kinds of salt seeking behaviors.

In the literature, these are like really old single case type studies.

Yea, but then yeah, so those individuals in those studies did exhibit that kind of sodium seeking what we would call sodium appetite.

That's not the same thing as what we experience now, which is sodium preference where we like it so we eat it because it tastes good.

That does not mean that we are sodium deficient.

Right, even though it feels sometimes like the same thing.

Right, hard to distinguish perhaps.

Okay, I have a question about you said like salt appetite, this instinctual drive to find salt, and you said that they tested out in kids that lacked adrenals.

Tell me why that would.

What's happening there is their kidneys aren't holding on like yeah.

Yes, exactly that.

So your adrenals they do a lot, but one of the hormones that they make is called aldosterone, which is a very important part of mediating the resorption of sodium in your kidneys.

And so without being able to make that particular hormone, then you can't have a signal to tell your kidneys to hold on to sodium, and so you're basically sodium wasting.

And there's other conditions as well too.

There's like genetic conditions, or there's maybe damage to the kidney.

There's medications that can make you lose more sodium in your urine through your kidneys.

Okay, yeah, but a lot of it is under that hormonal control.

So that's why it was in kids who had like not either they didn't have adrenals or they had non functional adrenals.

I can't remember which one.

Okay, And your drenals do a lot more than just teldosterone, but that's important for salt.

And your kidneys do a lot more than just sodium too, yes, Vato.

But so this all begs the question how much sodium do we actually need?

How much?

Aaron?

This is my favorite question that I've asked myself, yeah, in a while, and it is very hard to come to an actual answer on this.

So you mentioned, and I'm so glad that you did in last episode, that our early hominid ancestors, their estimated amount of salt intake was about one gram of salt per day or less.

That's four hundred milligrams of sodium.

Now, there also was a study that came out in the late eighties called inter Salt, and this was this one of these big, big observational studies that first showed a relationship.

Not first because you said it was like you know, in the early nineteen hundreds.

Twenty six, if you're talking, you know, correct hard hard pulse that hardens.

Yeah, But this was one of like a big important observational study that looked at a bunch of different populations with variation in their average salt intake and found a very strong relationship between higher salt intake and blood pressure.

In this study, they also looked at several remote human populations in Brazil, Kenya, and Papula, New Guinea, and in those populations, people, yes, had very low blood pressure, but they also had substantially lower sodium intakes compared to what we see today, one to three grams of salt on average, which is four hundred milligrams to one point two grams of sodium per day.

I mean, it's to be hard, I feel like, in our like in the US, to eat that, to select that diet, right.

Listen, we'll get there.

It's very hard, Okay, But this all becomes really important because, as I'm going to talk about later, there is a lot of weird debate about what our quote unquote physiologic need actually is.

Okay, and we'll get into the people who are claiming things that they're claiming, but it is very clear from these early you know, these estimates of early hominid we can't we can't have exact data on that, right, but these estimates based on the sodium content of the types of foods that early hominids would be eating, plus the fact that there are, or at least in the eighties and seventies were societies in which people were consuming very minimal amounts of salt and they were living, surviving, maybe thriving, I don't know, but their bodies were functioning just fine.

So physiologically, most estimates say we need at a minimum about five hundred milligrams of sodium a day in order to continue our bodily functionings, to keep up with losses from our kidneys, from our sweat, from our GI tract.

And that's going to vary based on how much you're sweating, how much you're pooping, and how great your kidneys are at retaining sodium.

What about potassium, great question.

Potassium is incredibly important and actually plays a huge role in this sodium blood pressure, et cetera debate.

And I didn't write down the exact like what the RDA the recommended amount of potassium that you get is, so I don't know the exact numbers of that, but potassium is absolutely essential to consume every day as well.

And we're but I'm asking about the intrasalt study.

Were those populations, the remote populations, were they consuming some other types of salt, you know, potassium or whatever.

They were probably consuming more potassium than what we consume or what a lot of other populations consume.

Because foods that tend to be low in sodium are often high in potassium.

That's very interesting, because whole foods are very high like fruits, vegetables, these kinds of things tend to be very high in potassium.

Harm.

Okay, we'll get there, Okay, okay, So that's how much salt we need, like bare minimum to survive.

We think, right, how much salt do we get?

On average?

Global daily salt intake is estimated.

Most estimates and by the World Health Organization are about ten grams of salt per day, which is about four grams of sodium.

There is a lot of variation, so the average ranges from just over two grams to just over five grams per day based on different populations, and of course there's a lot of individual and day to day variation.

Now, the World Health Organization recommends a limit of no more than two grams of sodium a day two thousand milligrams, that's five grams of salt.

The American Heart Association in the US recommends for all adults absolutely no more than two point three grams of sodium, and for anyone with high blood pressure or at high risk for cardiovascular disease.

They recommend a limit of one point five grams of sodium.

Other countries have slightly different recommendations, but they're all in this ballpark of around two grams of sodium, around five grams of salt, and yet globally, on average, we are getting more than double the amount of what most major medical societies recommend.

Why is that?

What impact is this having?

And why is there so much controversy about this?

Still?

This is so fascinating because I think question being how much salt do we need?

Versus how much salt is too much?

I feel like is really different.

Those are two entirely different questions.

They are, And I.

Also want to understand how we arrived at this number, these recommended numbers, which have been revised down over the past fifty years.

Yes, they have been revised down.

To me, most of the data that has led to the revising down of these numbers is based on blood pressure, because there is honestly very little at this point controversy left about the data that pretty clearly shows that a reduction in salt intake from that about four grams of sodium, which is our average.

Reduction from that reduces blood pressure, especially on a population level, and in most studies it reduces it to what would be considered a clinically relevant to so like about the same amount that you would see if you were starting someone on an anti hypertensive medication at a low dose, right, so not quite as good as blood pressure medicine, but you know at a population level you're going to be reducing blood pressure by reducing sodium intake from that current average of about four grams.

The exact amount that you're going to get is going to very study to study.

There's a lot of individual variation.

Not every person gets the same degree of benefit, but across the board, like studies don't argue that lower sodium diets, Both interventional studies and observational studies agree that a reduction in sodium intake and lower sodium diets reduce blood pressure.

Now, blood pressure is one of the major risk factors for cardiovascular disease, including heart attack, heart failure, stroke, and death from cardiovascular disease.

High blood pressure is one of the major risk factors, so the biggest risk of diets that are high in sodium is an increased risk of cardiovascular disease, and this is where so much of this controversy lies.

Is now the time to ask what the mechanism is between sodium intake and blood pressure?

Great question?

Yes, now is a great time to ask.

So there's a complicated answer, which is a lot of like we don't quite know and the mechanisms da da da da.

And then there's a simple answer, which is that when you consume more salt, because you're not excreting one hundred percent of it, some additional salt is going to stay in your body and that is going to tell your kidneys to hold not even tell your kidneys, kind of force your kidneys to hold on to water because water follows sodium yep.

And so as your blood volume spans and your extracellular fluid volume expands because it will because you're holding on to water.

By holding on to sodium, that is going to cause an increase in your blood pressure because you're increasing the volume in your blood and.

Just more is shooting through those vessels.

Right, you've got more sodium or holding onto more water, So now you have more fluids, so you have more pressure.

Okay, Now, most of the time, if you're kidneys, which sense this increase in volume and sense this increase in blood pressure.

What they should do is excrete more sodium because they can sense this and they can say, oh, we need to get rid of some sodium in order to get rid of some water because our pressure is too high.

So what exactly happens in these especially long term high sodium diets, because this is not like a today tomorrow type of situation.

This is like a long term trend that we see, Okay, especially in places where there are high sodium diets for a very long time.

There's in like an increasing effect of high sodium diet with age and with time, And so what exactly is going on and what other miscommunications are happening between you know, our reunnin and geotensin system and aldosterone and all of these hormones and our kidneys and the receptors in our carotids that are also telling our kidneys in our brain how much blood pressure we have.

Like there's some miscommunication that's going on that leads to over time and increase in blood pressure.

And so our kidneys are just is it our kidneys that aren't responding as well?

Or is it that's part of what we think is that it's like, for some reason or another there's a loss of some of this feedback where they're not able to sense this increase in blood pressure, or in some cases they even maybe go, hey, let's activate this system and actually increase blood pressure more or something weird, like a like a paradoxical kind of response.

So it's not like a super clear cut but and it's most basic.

You can think of it as you're increasing the amount of sodium, therefore you're increasing fluid, therefore you're increasing pressure.

Why does age play a role?

I mean, age plays such a huge role in our cardiovascular health overall.

We see like a decrease in elasticity of the vessels.

So is it that they're not able to expand to that increasing volume.

There's a chronic inflammation that's going on, Like there's so there's so much So that's that's a different question.

But yeah, so that's how we think that blood pressure is like involved with sodium.

Right, So then the question is if we know that blood pressure is such a huge risk for cardiovascular disease, and diets that are high end sodium increase your blood pressure, do they increase the risk of cardiovascular disease, and that question has been fracked with so much controversy.

Yeah, it has, so let me try and break it down a little bit.

Okay, nearly all of the large scale meta analyzes that have been done to look at this question, does reducing sodium intake decrease cardiovascular mortality?

All of these large scale meta analyzes do show a significant reduction in risk of stroke, heart attack, cardiovascular disease, and mortality from cardiovascular disease.

The quality, though, of this data is not as good as the strength of the data that we have for this direct association between sodium and blood pressure.

We don't have long term randomized clinical trial because that is very hard to do.

As I said, at the first hand account, the estimates that I have seen are that to get really good data on this, you would have to enroll between seventeen thousand and thirty seven thousand people.

You'd have to follow them for a number of years because you need to have enough unfortunately bad cardiovascular outcomes to be able to get that data, and it would cost between four hundred and nine hundred million dollars.

So I know some people who could fund that, you know what I'm saying.

Not like personally.

But but are they willing?

Are they willing?

No?

But what it also seems to me is that a lot of this controversy about the strength of this data and whether it is real or not hinges on a couple of types of data and a couple of studies that have come out.

One of them is not just one study but a few studies.

Like one type of study has found that there might be an increased risk of cardiovascular disease or death from cardiovascular disease at very low sodium intakes, closer to that one point two grams of sodium that a lot of people actually recommend, right right right, So there are some studies that suggest who have looked at like the lowest, the intermediate, and high sodium intake levels, some studies suggest that actually the risk of cardiovascar disease is very clear above like four to five grams of sodium intake a day.

Okay, so like eight to ten grams of salt that is too much, But the recommendation should be more like three to four grams of intake and not this super restrictive one point five to two point three grams of sodium intake.

That's what some of these studies say, okay, now the critics, I know you have questions like why what the critics, what's the mechanism?

Yeah, yeah, what's the mechanism?

Great question.

I don't know.

Okay, I don't know.

They have not offered a mechanistic explanation.

And some of the critics of these studies that have looked at what they call this J shaped curve right where like lowest intake is potentially harmful and higher intake is potentially harmful, so there's a sweet spot in the middle.

Some of the critics of this say, look, in those studies that have looked at low intake or that have shown low intake to be potentially dangerous, that could actually be from what's called reverse causality, because in those studies they included a lot of people who also already had known cardiovascular disease or high blood pressure or heart failure.

Those people might be more likely to be on a low sodium diet because they've been advised to cut out salt from their diet, and then they die from cardiovascular disease.

It's very interesting that that is not something that would have been controlled for or right, you know, in those studies.

Yeah, yeah, exactly, so mays like, actually need some better studies on this stuff.

It's bananas.

They also criticize some of the like methodological issues with some of those studies because they relied more on like spot urine rather than twenty four hour urine, which is how we measure sodium intake more reliably.

But that's just like a lot of like it all just points to the fact that like these people say this data is not strong enough to show a strong link, and these people say this data is not strong enough to show a strong link, and it's like, my goodness, Okay, oh.

It's really interesting.

I think, like also in the context of evolutionary history, like our hominin ancestors.

But at the same time, though, like how cardio of I don't even want to like this is like such a can of worms.

Okay, listen, Yeah, there's multiple kinds of worms that you're about to talk about, and I want to get at one that you're saying this evolutionary history thing, because listen, the other camp of people who seem super adamant that we should not be pushing for lower sodium, that we should not be having our medical societies have a push for sodium.

It should not be a public health goal.

They seem to be in this group.

Get ready for this?

I get I'm too excited, they claim based on their data, they have done all these studies.

They've looked at like fifty thousand people using these really great, high quality twenty four hour year in studies across a number of different countries with different cultures, et cetera.

And over the last fifty years they say there's been no substantial change in our salt intake over time, and it follows a normal distribution between about two point six grams and four point eight grams of sodium a day.

And therefore they say that is our physiologic need of salt because for the last fifty years it hasn't changed, and because it follows a normal distribution, that is what our physiological requirements are.

This is a true argument that people are making in a bunch of studies.

It seems to be mostly one dude who makes this arm and then get cited over and over and over in all the studies that are saying, well, this J shaped curve and don't you know our physiologic need?

And I'm like, you cannot tell a human's physiologic need from fifty years of data.

That's a post industrial revolutionary You're kidding me, m I was aghast.

I mean, I'm not surprised the this is one of the most heated debates.

I really is.

It's like it also doesn't feel like a debate too it or like it feels like the arguments for we are like that is a ridiculous claim.

To me, and yet Aaron, it is so cited.

Okay, this J shaped curve, it seems like we need to investigate a little bit more.

What is the ideal amount of assault consumption?

That is, at its core the major question.

There is no doubt that diets very high in sodium, especially over that four g of sodium, which is what's average, are going to increase your risk for blood pressure, and almost all the data also agrees that that will increase your risk for cardiovascular disease between this like one point five to four grams.

There's people who just want to like fine tune this debate, which makes sense at a public health level, like we need to have recommendations, right, sure, but like I just the arguments that are trying to be made, I just I'm like, I get.

I mean, in the past fifty years, how many people are smoking cigarettes?

Like, does that mean that that's a physiological need?

Right?

Do you know what?

Also, the rates of hypertension have also been stable over that exact same time period in which our salt consumption has been stable.

So like, that doesn't tell us anything.

It literally doesn't tell us anything.

Our awareness and treatment have actually improved.

So that's nice, but like, come on, it's not just blood pressure.

Also, there are more and more studies and more and more data coming out that dietheset a high end sodium are also linked to a number of other potential diseases or whole body system changes that might result in disease.

We see increases in inflammation, we see a potential for increased risk in autoimmune diseases.

We see changes in the gut microbiome, and we see associations with certain cancers, especially stomach cancer.

And we don't fully understand the mechanisms of these, but we know that more and more data is coming out that these exist, and so people are looking into like what could these mechanisms be.

It seems to be that there's like changes in our T cell response, there's this like pro inflammatory state there's an increased in scret muscle contraction, et cetera.

That's I think that's that's interesting too, This argument about well, this is our physiological need.

If we have less than this, then we'll die and this is what we whatever.

Like that also, I think, doesn't it dismisses these health these potential health res as something that is not linked to salt.

But it because otherwise we would be eating less salt, right because otherwise, or we would have adapted to consume more salt somehow, the human species over the past five thousand years.

But the other thing too, is that these all of these chronic conditions for the most part, like you said, there's this age component to it, yes, and so in which case, like it just is, yeah, it doesn't make sense.

I know.

It's there's also an argument that's like, well, we can't consume a lower sodium diet in our current society and it would require such a societal shift that therefore we shouldn't recommend it.

Like what, it's too hard to do, so we shouldn't do it.

High sodium intake is also associated with an increased risk of osteoporosis and kidney stones, and we think that it's by a similar mechanism, because when you are consuming more sodium, then you will have increased excretion of sodium, and calcium follows sodium the same way that water does soday.

Okay, and overall, the World Health Organization estimates that there are nearly two million, the most reason data I saw said one point eight nine million excess deaths every year that are due to excessive sodium consumption.

Okay, So I have some questions now, uh huh, give it to me.

So, like we talked about, there is variation in individual sensitivity to sodium and the impact of sodium.

What are some of the reasons for that, and how does that sort of just come out in the wash when we're talking about the levels of sodium that we're talking about.

This is a really important question.

So there's this phenomenon that is talked about in the literature of like salt sensitivity, so called salt sensitivity, right, And the thought is that maybe it's like fifty percent or or less, or some studies say more of people whose blood pressure specifically actually responds to an increase in dietary sodium.

So they call those people salt sensitive.

That is not a term that can be easily measured.

There is not an agreed upon degree of salt sensitivity.

How much of an increase in your blood pressure do you need to have to be considered salt sensitive.

That's not a there's not a metric for that.

But overall, yes, it is the case that not everyone's blood pressure is going to increase necessarily as a result of an increase in salt intake.

Some people might have very low blood pressure on average, and in fact need more salt in their diet in order to maintain their blood pressure, and they could be at risk of hypotension having too low of blood pressure if they're not getting enough dietary sodium.

What is clinical hypotension?

Oh, it depends on your age, but and it depends on your if you're symptomatic or not.

But yeah, okay, symptomatic meaning you're faint or like you could.

Faint, you could pass out.

But it kind of depends.

Usually if you're talking about like under an nineties over sixties, that's that's pretty low, ok But someone who's you know, always quite a lot higher than that and suddenly drops, then you might consider that hypertensive.

It kind of just cost okay, Okay, but yeah, so it does depend.

But there it is the case that not every person needs the exact amount of salt in their diet.

Public health recommendations don't apply exactly to every single individual.

Equally, if you have certain conditions, you might need to follow slightly different recommendations.

Then what is like the World Health Organization, the CDC, the FDA, they are making recommendations for the general public, and it's estimated that over seventy to eighty percent of adults are consuming significantly more than two point three grams of sodium per day.

So the advice to reduce sodium applies to most people, not to everyone, which is also why you shouldn't be taking medical advice from podcasts or Instagram content creators because it doesn't apply to everyone.

There's also another huge confounder that we haven't even talked about yet, and that is that this is true of all nutritional studies.

But it's very true in all of these studies that look at blood pressure and cardiovascular disease and sodium, and that is that you cannot change only your sodium intake.

Yeah, how different?

Like what, Yeah, the foods that you're eating.

The foods that you eat will change there is a very solid amount of data that shows an inverse relationship between potassium intake, for example, and blood pressure and cardiovascular disease, meaning for most people.

Not true for everyone, because if you have kidney disease, this might not apply.

But for most people, increasing your potassium intake can reduce your blood pressure and in some cases offset some of the effects of sodium.

A lot of our nutrient dense whole foods, like fruits, vegetables, legumes, whole grains, these are high in potassium.

Also, many of our salt substitutes.

If people are going to swap out their salt that they're sprinkling or cooking with for a salt substitute, they're switching their sodium for potassium.

What are some of these salt substitutes.

Oh, I don't know.

You just buy them at the grocery.

Toot.

It's called like substitutional substitute.

It's a potassium salt.

Sometimes it's just like pure what they're Yeah, sometimes they're pure potassium.

Sometimes they're like a mixture of sodium chloride and like a potassium chloride or a potassium another potassium salt.

There's been some really interesting data actually on using those, and then some of the really strong data is from like a big study in China where they took entire villages and they were like, you guys are getting salt substitute and you guys are getting real salt.

And they saw significant decreases in cardiovascular mortality and strokes and all of these things, and decreases in blood pressure in the salt substitute group.

But you can't quite disentangle the effects of potassium and sodium in that right, because they're connected.

They're connected.

And also, like you do a sub salt substitute, but most people don't.

Most of the dietary salt that we consume is not from salt that we sprinkle on foods.

It's from the salt that's in the foods.

In the US, that's absolutely true.

In this part of China where they were doing it, most of their sodium actually does come from discretionary sources.

So that's why it's an interesting study in that case.

But yes, you're right, for us, for most people in the US, in Canada, in Europe, our sodium consumption is mostly coming from things that are not the salt shaker on our table.

I think it's most estimates are like fifteen percent or something of our sodium intake comes from adding salt to our foods.

Most of it comes from the fact that every single food that comes in a package has sodium added to it.

Yeah.

Yeah, And so there is something to be said for the fact that all of the trials that have looked at long term sodium trends do not find that people are able to reliably stick to low sodium diets.

Usually less than ten percent of people in these studies can stick to these limits of less than two grams or so.

I do not buy the argument that this is physiologically driven at like an evolutionary level.

This is a reflection of our food systems and the fact that it is very difficult even when you're trying to avoid sodium.

But that doesn't mean it's not an important conversation, right, because if you're recommending fifteen hundred milligrams of sodium and it's impossible to do that in our grocery stores, you're setting people up for failure.

So that's a problem too.

Yeah, And it's also like more time consuming, more expensive.

Often it's like you're yeah, it's hard.

Yeah, here, and like at the bottom line, to me, okay, Kenna, if I can conclude, please, the biggest problem, the unspoken piece in all of these conversations about sodium and health and blood pressure is the same story as food dies.

Yeah, what about food?

Does single piece of our food system arin?

Yeah?

Yeah, there's some really interesting data that there's these long term studies that have been done on Japanese Americans living in Hawaii and Japanese people living in Japan, and they look at cardiovascular disease and blood pressure and all of these rates.

We have and die from cardiovascular disease in the US at substantially higher rates than people in Japan.

Like when you compare US to japan data, Japan has some of the best health metrics out there.

They also consume so much sodium, significantly more sodium on average than in America than in the US.

And in these studies that have looked at Japanese men and women and Japanese American men and women living in Hawaii, we see higher blood pressure in Japanese populations living in Japan, and yet higher cardiovascular disease in Japanese Americans living in Hawaii.

Because guess what, it's not just sodium that's different in their diets.

There's higher intakes of omega three fatty acids, there's higher total cholesterol intakes.

There's also interestingly higher rates of smoking and alcohol use, but lower intakes of total calories and protein and fat including saturated fatty acids.

Nothing that we eat is in isolation.

Ye right, Yeah, so, yes, it is important to have these dietary guidelines, but these exist in the context of so many other foods, and it is one single part of your overall food system.

This is fascinating and I feel like there is a to me, there is like a clear answer in many ways.

Your sodium, yeah, am I Yeah, Honestly, while I was reading, I was trying to use less.

I use a lot of salt.

But I think I think you're right, Like my Yes, I can reduce my discretionary salt, but am I still gonna want, you know, salty crackers and stuff.

Yeah, so I'm going to try to less or at least try to eat more whole foods.

Like I mean, we all need to be doing that, that's true.

Yeah, but yeah, I think I think it's like because I feel like I have.

The more salt I eat, the more I want, and then it becomes like a problem.

So maybe I'll try you know what, you know what, I do kind of want to try it.

To the salt alternatives, Yeah yeah.

My husband Trek got really into those for a while.

We had a lot of potassium salt in the house for a while.

Yeah, I'm intrigued.

Yeah yeah, Well, if you're also intrigued and want to learn more about this debate or whether you should reduce your salt intake or not.

My favorite paper, honestly was the one that I pulled that first hand account from, and it was by Hunter at All in Nature of Views and Nephrology twenty twenty two, The Impact of Excessive Salt Intake on Human Health.

I thought that they did a really good job of explaining all of the controversy of providing the data.

I know, not on quote unquote both sides, but like providing all of the data.

They definitely have a bent, they think that we're eating too much salt.

But I really enjoyed that paper.

I also read it piecemeal, and I wish I had just read it all the way through at the beginning, because it was most of my stuff ended up putting from there.

But I was like reading it and then I found others.

Anyways, it's a great paper.

There's also some interesting ones about like our regulation of salt appetite and like the you know, the salt drive and everything.

So I have a couple of papers on that.

And then literally, I mean so just so many papers.

I think.

Another great one was from twenty eighteen by he at All the Role or He and McGregor.

It was the role of salt intake in prevention of cardiovascular disease Controversies and challenges.

I enjoyed that one, but there's so many, including all of the controversial ones.

You can find them on our website this podcast wkay dot com under the episode's tab.

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Let us know what you think.

Yeah, I'm very curious.

Yeah, how much sodium do you eat?

You don't have to tell me that you don't.

There's no judgment here.

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