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Why Are We So Scared of Salt?

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Over the past several decades, the general consensus of health professionals has been to recommend that all people lower their salt intake. Without the recognition of the effects of lifestyle and dietary choice differences, this avalanche of low salt advice hit the general public and as a direct result many became ill. Differences in individual genetic, lifestyle, and dietary factors have completely been ignored in the broad-brush campaign for lowering salt intake. Today, it is unmistakably obvious that a large segment of the population followed the low salt regimen with disastrous consequences.

The professionals who first introduced and propagated the low salt diets had good intentions. They did not know any better. Now we do know better and there is no excuse for not revising a failed treatment regimen in the face of new countervailing evidence. The process of correction needs to begin on a large scale. My work is part of this very much needed correction.

Why Are We Scared of Salt?

In the 1960’s, scientific studies linked salt consumption to hypertension and obesity. I am not quite sure why it was salt they picked on as “enemy number one.” I suspect the reason was the proliferation of precooked and canned food, all of which were salt preserved. To me, it was not logical that only salt was picked on. There were many other dangerous food items that could have been singled out: sugar, margarine, preservatives, pesticides, etc. The American Heart Association still has some of these salt reduction articles on their website. Even today, when waiting for an appointment at my medical institution, the forever-on TV was showing how to cut salt out of kids’ daily lunch to be “healthy.” Indeed, once something is ingrained in our brains, it is habit forming. Habits are very hard to break, particularly when the medical research relied upon showed that salt is something dangerous that may kill you.

Is Salt or Sugar the Enemy?

The problem is that hypertension and obesity are not and have never ever been caused by salt! They are caused by sugar—I am saving the sugar discussion for my next article.

Why not salt? Consider: human fetuses are floating in salt water and are typically not born with heart attack or hypertension. Our bodies are made of over 7% salt, our brains, heart, and all of our cells use salt to function. Humans have always consumed salt. Do they all have hypertension and heart attacks? No, they don’t. In fact, for some time now, studies have been surfacing suggesting that reduced salt does not eliminate the chances for hypertension and heart attack but may even contribute to the problem.

It is scientifically irresponsible to analyze biological processes in the human body involving salt without accounting for the effects of sugar and sugar substitutes and the amount of water consumed.

Probably not many of you have the handbook “Harrison’s Manual of Medicine” (18th edition McGraw Hill Medical by Longo et al.,) but I do. Page 4

…serum Na+ [sodium] falls by 1.4 mM for every 100-mg.dL increase in glucose, due to glucose-induced H2O efflux from cells.

Let me explain this sentence for you: Sodium is part of salt. Salt is Sodium (Na+) and Chloride (Cl-) where the + and – represent the ionic state in which there is either one extra or one fewer electron (electrons have negative charge) and so the atom is looking for another atom it can attach to and form a bond creating a molecule. According to the medical handbook, Na+ drops if glucose, which is blood sugar, increases. If you eat glucose, it causes “H2O efflux from cells” which means that sugar attracts water to the point that it pulls it out of the cells, thereby emptying the cells of sodium, and thus, the cells are dehydrated.

Sugar causes a very serious problem that can result in hypertension and heart attack. The volume of blood inside the cells reduces by dehydration of the sugar and higher pressure is required to pass the dehydrated blood to traverse the same route and be able to oxygenate organs at the same rate as hydrated blood cells. Think of a water hose when suddenly the pressure drops (unfortunately we cannot replicate reduced water molecule size the same way dehydrated cells become smaller). You instinctively squeeze the hose end to increase pressure so the water can continue to reach to the same distance. You have just given a hypertension to your water hose!

Note that if sodium (page 3 in same book) falls below 135 mmol/L, it is an electrolyte abnormality whose symptoms include “nausea, vomiting, confusion, lethargy, and disorientation”; if Na+ falls below 120 mmol/L it is a life threatening emergency that may cause “seizures, central herniation, coma, or death.” Not having enough salt (sodium) in the body is called hyponatremia and is “primarily a disorder of H2O homeostasis” meaning too much water and not enough salt. In common parlance, this is called water toxicity. Water toxicity can be caused by drinking too much water—e.g. drinking only water.

Interestingly, in the same book under the section of hypertension (page 834-835), the causes of hypertension are listed. Increased salt (or sodium) is not mentioned at all, but glucose intolerance is. However, under treatment, on page 836, it recommends lifestyle modifications that include lowering salt intake. So increased salt did not cause hypertension but lowering will cure it? I do not understand. Do you? Seems the authors of even this highly respected medical reference book could not escape the fallacy of the low salt campaign. Hypertension is clearly listed to be caused by sugar under the causes. So for heaven’s sake, if something is caused by sugar, treat it with removing sugar from our diet and not salt.

Confusion in the Ranks

In recent years a major fight started between the academic groups, not-for-profit organizations, and the government. Test after test shows that earlier hypotheses were all wrong about salt. Not only is added salt not hurting us, reduced salt does. Even the American Heart Association (AHA) and other heart organizations are in complete confusion. Next to the article of “lower your salt for health” are articles saying “that is all wrong and increase your salt.” I find this kind of funny. Here is an article from the AHA suggesting to increase salt. Here is another from the HealthAffairs organization; one from the American Journal of Hypertension, one from the Journal of the Association of American Medical Colleges, and there are now dozens more proving that indeed, reduced salt is actually bad for you.

How Bad is Reduced Salt on Health?

This particular article is my favorite because it shows how bad reduced salt diets really are on the heart. In detail, for a healthy individual reduced salt diet reduces BP by 1% (that means your systolic BP of 120 just dropped to oh my 118.5!!! gasp) and in patients with hypertension it reduced their BP by 3.5% (that is if it is say 160 systolic, which is high, it is reduced by a whopping 5.6 to 154.4! gasp again) but at the same time triglycerides, which contains the accurate measure of the sticky type of bad cholesterol in the LDL increased by 7% in people with hypertension (triglyceride should be less than 149). So if an individual with hypertension and triglyceride levels at 150 went on a low salt diet, that low salt diet would increase their triglycerides by 10.5 to 160.5, which is a significant jump for bad cholesterol. In a healthy individuals, the triglycerides jumped by 2.5%. Armed with such details, do you still believe that salt is bad for you?

Which Would You Rather Eat?

If I handed you 2 teaspoons: one was full of table sugar and the other full of table salt, which would you chose? For taste, we all would choose the sugar. What happens to our salt levels when we eat sugar? Refer back to the Harrison’s Medical Manual I mentioned earlier: eating glucose drops salt in our body because it sucks up all water and dehydrates. Eating a teaspoon of sugar will effectively dehydrate you and put you at risk of hyponatremia. By contrast, what will happen if you chose the teaspoon of salt? You will be thirsty, drink a couple of glasses of water and will feel like you are on top of the world.

My Recommendation

Stop being scared of salt and start being scared of sugar!

Sources

Longo et al., Harrison’s Manual of Medicine; 18th Edition, 2013; McGraw Hill Medicine

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More people than ever are reading Hormones Matter, a testament to the need for independent voices in health and medicine. We are not funded and accept limited advertising. Unlike many health sites, we don’t force you to purchase a subscription. We believe health information should be open to all. If you read Hormones Matter, like it, please help support it. Contribute now.

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This article was first published on June 13, 2015.

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Hydration, Thirst, and Drinking Water

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Most of us equate the expression “hydrate extra” with drinking more water but – unfortunately – this is incorrect. In any online dictionary “to hydrate” means to create “…a substance that is formed when water combines with another substance…” In other words, water alone is not a hydrating fluid but it must be combined with something to become one. We do not have water in our body on its own; we have a substance we call electrolyte. I wrote substantially on the topic of hydration, mixing water with minerals, as part of the protocol that prevents migraines. However, a new problem has surfaced: when to drink water? Several articles have recently published water drinking instructions on the internet. Most of these articles consider it bad practice to drink water when one is not thirsty and recommend drinking water only when thirsty. There are several serious flaws with this argument.

Sweat

The first flaw is that most research is aimed at athletes, but athletes are not representative of the majority of the population. Furthermore, athletes should not be drinking “water” to hydrate. Drinking water cannot be absorbed by cells without adequate sodium to hold onto it. When athletes sweat, the content of sweat is not water but electrolyte. Many sports drinks aim at re-hydrating athletes but their problem is their sugar or sugar substitute content, defeating the purpose — see how much sports drink one needs to drink to make up the content of sweat for an athlete. Then add up the sugar in a typical sports drink: 1 teaspoon of sugar is 4 grams of carbs. An average serving of a typical sports drink provides between 14 grams to 54 grams of carbs, all sugar, which converts to 3.5 to 13.5 teaspoons of sugar per serving. Drinking sugar substitutes is even worse because sugar substitutes fool the body like it is receiving glucose so insulin spikes but there is no glucose. This creates insulin overflow in the blood causing you to become hungry! Sugar substitutes may lead to obesity and metabolic syndrome. Drinking sports drinks with sugar substitutes actually reduces muscle energy.

Moreover, anything that converts to glucose in the body removes both water and sodium from the cells1 so drinking/eating sugar with sodium (salt is the form in which sodium is available to us) and water is worse than not drinking anything at all. Many athletes have smartened up and drink pickle brine rather than water. Pickle brine is great, assuming the brine is of salt and water and not vinegar. Vinegar is fermented ethanol (alcohol). Thus, drinking vinegar-processed pickles will dehydrate further. Look for pickles made with salt rather than vinegar.

Best Hydrating Fluid

Whole milk is an ideal hydrating fluid because it has a perfect electrolyte balance in sodium, potassium, water, blood sugar (lactose), calcium, phosphorus, magnesium, and protein. Whole milk is THE perfect electrolyte. Some athletes drink water and take salt pills (also called electrolyte pills). That is also a great option, particularly since they are easy to carry around and take when needed.

The second flaw in the argument of “drink water when thirsty” is that many people feel thirst after eating sugar when it is the least advisable to drink water. Since about half of sugar converts to glucose, and glucose pulls water and sodium out of the cells1, if one is thirsty after eating sugar and drinks water, the metabolic process will remove more water from the cells. This can cause edema. Although most articles today blame salt for causing edema, the opposite is true.

While sodium retains water inside the cell, glucose removes water and sodium from the cell and forces the water to be retained in extracellular space2. Eating salt when one has edema reduces edema by the sodium bringing water back into the cell. This was easily demonstrated by a previous article showing how this works.

The problem with most studies that blame salt on retaining water is that no studies have ever controlled for both salt and sugar at the same time in the same experiment. All studies I could find only looked at the effects of salt on the body regardless of the amount of sugar, water, or protein the subjects had consumed before the experiment. Since the body can easily be tipped out of balance and is never in a vacuum for a pristine controlled experiment, one cannot say with certainty that one element makes a particular change without looking at what else is affecting the body. No such studies exist except in my migraine group where we control for all variables. We found that being thirsty often means the person does not have enough salt to keep water where it belongs3. A migraineur should never drink water when she is thirsty, particularly not if carbohydrates were consumed.

The final problem with only drinking water when thirsty is the population of people who have diabetes 2; they are always thirsty. Being thirsty can be a sign of diabetes mellitus and not the need for more water.

Should You Wait Until You Are Thirsty Before You Drink?

Absolutely not, and for sure drinking water alone will not get you hydrated. How much water you should drink is a question I will address in another article. Drinking the minimum 8 glasses of water is a myth; people vary in size, age, and activity, implying that each person needs a different amount of water. Many online water calculators go into detail of weight, climate, activity, altitude, your health, pregnancy, nursing, etc. For each person the amount of water and thus hydration needed (not just water) will differ and for that hydration level you need to make sure you drink adequate amounts of water as part of your hydration protocol.

Sources

  1. Longo DL, Fauci AS, Kasper DL, Hauser SL, Jameson JL, Loscalzo J. Harrison’s Manual of Medicine 18th Edition. New York: McGraw Hill Medical; 2013.
  2. Millar T. Biochemistry Explained: A Practical Guide to Learning Biochemistry. Vol reprint edition: CRC Press; 2002.
  3. Stanton, Angela A. Fighting The Migraine Epidemic: A Complete Guide: How To Treat & Prevent Migraines Without Medicine

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Pregnancy Toes – What Sugar Does to Feet

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Pregnancy toes are really swollen feet and swollen toes. The name stuck in my mind because one of my daughter-in-laws is pregnant and I was sent a photo from her winter vacation in her flip flops in the snow and winter coat—she was not able to put her boots on because of her swollen feet (swollen even in the cold!).

I did not think much about it until she came to visit me yesterday and I noticed the flip flops and her chubby toes. She had “pregnancy toes” again she said. It then suddenly all became clear. I asked her: did you by any chance have any sugar today? And she said “as a matter of fact, yes!”

I reached for my salt pills that I use for my migraines as do all members in my migraine group on Facebook and handed her one. I really should have photographed what happened but I did not think the effect was going to be so fast and so big. Less than 15 minutes after she took the salt pill and a glass of water, her toes went back to normal. We ended up laughing it away. Had she known this, she could have worn her boots in the snow after all!

So what did her pregnancy toes have to do with sugar and salt you may ask? Previously, I quoted from the Harrison’s Manual of Medicine an important paragraph that I repeat here:

…serum Na+ falls by 1.4 mM for every 100-mg/dL increase in glucose, due to glucose-induced H2O efflux from cells. (page 4)

The above means glucose (part of sugar) and sodium (part of salt) are in inverse relationship. As you increase sugar, salt drops and water is sucked out of your cells by sugar like a giant Slurpee machine. The water then collects on the outside of your cells rather than the inside, thereby dehydrating your cells and at the same time make your body swell. Edema is often associated with too much salt, but in fact, it is too much sugar. Being always thirsty is associated with Type 2 Diabetes but it is also associated with not having enough salt in the body since without salt the cells cannot get hydrated.

In light of this fragile balance between sodium and glucose in the blood, are we treating pregnancy edema, gestational diabetes, and other maternity complications, the way we should? Consider that with pre-eclampsia (gestational hypertension), women are told not to eat salt. You can see what happens when we reduce sodium: glucose increases and we also induce an ionic imbalance. This ionic level imbalance is visible (like the swollen toes) and may lead to further complications. There are two problems that we are facing here: first if she does not eat salt, her sodium-potassium pumps cannot work–this may cause migraines and headaches as I often see in my migraine group. Secondly, as you saw the fragile balance between the see-saw action of glucose and sodium, if she stops eating sodium her glucose may increase, causing swelling. This is an interesting theory to ponder – one that merits research.

Sodium and Glucose Work Together

Salt breaks up in the body into sodium and chloride. Sodium attracts water and holds onto it inside the cells. It keeps chloride outside of the cells to ensure proper voltage and electrolyte balance with the aid of potassium. When you eat sugar, the glucose part of it removes the water from the cells via osmotic channels that are too narrow for the sodium ions to exit. Thus, one ends up with a ton of water outside the cells with sodium inside hugging a tiny amount of water. Swelling occurs as the water leaves the cells but remains between cells.

Given the inverse nature of glucose and sodium in the blood, if one is swollen as a result of too much sugar, eating salt will take the water back from sugar and move it back into the cells–as it did for my daughter-in-law’s pregnancy toes. What is important in this information is this:

  1. If you feel swollen after eating sweets, you need to eat salt and drink a bit of water to reduce your swelling.
  2. If you have Type 2 Diabetes or are hypoglycemic, eating a salty meal can give you a major sugar crash and land you in the hospital!
  3. Eating sugar of any quantity will dehydrate your cells and you and make you run to the toilet every 30 minutes.

Because glucose takes water out of the cells, the edema that follows increases extra-cellular water and causes swelling in the body. This extra-cellular water needs to be reabsorbed into the circulation for the kidneys to be eliminated. To be reabsorbed, sodium is necessary since without sodium, the cells cannot operate their voltage gated sodium pumps and so the gates cannot open to grab glucose to take it into the cells and to get the water back into the cells. I think you can already see the contradictions in the logic of reduced salt: the mom-to-be is told to not eat salt, this causes extra-cellular water and swelling, which needs salt to be reabsorbed into her cells for clearance by the kidneys but which she is not allowed to eat. This way ionic level balance is not possible and chain reactions may occur with negative consequences. She may have protein leaching into her urine, extra hard kidney work, and a whole other long chain of complex events may kick in to make pregnancy a rather unpleasant experience risking the health of the fetus.

The amount of extra-cellular water is very hard for the body to get back into circulation without salt and may take days, taxing the kidneys with the volume of water leaving and increasing pressure on the blood vessels from the outside, causing high BP. However, as the volume of water is leaving the body finally, this reduces blood pressure. When a pregnant woman’s blood pressure drops as a result of all that water leaving, the dehydrated blood cells carry less oxygen. This indicates reduced oxygen for both her and the baby.

By telling mothers to reduce salt intake, glucose increases, which increases blood pressure (BP) rather than reduces it. The similar phenomenon happens in gestational diabetes. In gestational diabetes (and gestational hypoglycemia as well) the sugar level is unstable and is either too high or too low, respectively. Should the mother-to-be eat a salty pickle (as cravings always dictate pickles), she may end up in a major sugar crash and in the hospital for immediate treatment.

The balance between sodium and glucose is very fragile and extremely quick changing as you could see on my daughter-in-law’s foot. Interestingly we now also know that salt does not increase blood pressure but sugar does and so a reduced salt diet automatically increases blood pressure because of the glucose and sodium inverse connection and sugar’s dehydrating properties. Reduced salt also increases triglycerides (Graudal, 2011), causing a lot of problems for people with preexisting heart conditions. So by reducing the salt intake of the mothers to be, are we creating diabetic mothers and/or babies? Babies have been born with diabetes 2!

Is it possible that we are giving the wrong advise to pregnant women about salt and sugar? It’s an interesting question to pose and further research is badly needed. Knowing that salt and sugar are in inverse proportion in the blood, one may suggest eating them together. In fact, eating them together is a much better idea than eating sugar alone. It is best to not eat sugar at all but if you must eat sugar, consider eating salt too.

Sources:

Effects of low sodium diet versus high sodium diet on blood pressure, renin, aldosterone, catecholamines, cholesterol, and triglyceride. Graudal et al., Cochrane Database Syst Rev. 2011 Nov 9; (11).

This article was published originally on Hormones Matter on February 15, 2015. 

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More people than ever are reading Hormones Matter, a testament to the need for independent voices in health and medicine. We are not funded and accept limited advertising. Unlike many health sites, we don’t force you to purchase a subscription. We believe health information should be open to all. If you read Hormones Matter, like it, please help support it. Contribute now.

Yes, I would like to support Hormones Matter. 

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