Media Reports of our findings
Taste for salt can begin at birth
Mon Jan 29, 2007 6:39 PM GMT
By Amy Norton
NEW YORK (Reuters Health) - Some people with a penchant for salty snacks may have been born with it, a new study suggests.
In a study of 41 children and teenagers who'd been born prematurely, researchers found that those who'd had low sodium levels in their blood at birth had a particular fondness for salty food.
In tests where the children could choose from salty or sweet snacks, those born with low sodium levels reached for a salty snack more often. They also consumed substantially more sodium each day, based on interviews with children and their parents.
The study also found that children with the most severe sodium deficiency at birth weighed 30 percent more, on average, than their peers born with the highest sodium levels.
High salt intake is considered a marker for the risk of obesity, possibly because it signifies a person's consumption of calorie-dense processed foods.
It's too soon, however, to say that sodium deficiency early in life is a risk factor for obesity, according to study co-author Dr. Micah Leshem of the University of Haifa in Israel.
"There is insufficient evidence for parents to take a preference for salty food resulting from early sodium loss, of itself, as a predictor of weight gain in their children," Leshem told Reuters Health.
All of the children in the study had been born prematurely, which increases the chances that a newborn will have low blood sodium levels. Low birth weight itself is thought to promote excessive weight gain later in life, Leshem pointed out, and this may offer a "better explanation" for the link between early sodium deficiency and childhood weight.
He and his colleagues report their findings in the American Journal of Physiology - Regulatory, Integrative, and Comparative Physiology.
Premature newborns are at greatest risk of sodium deficiency at birth and soon after, although it's also sometimes seen in full-term infants -- particularly those with risk factors such as kidney dysfunction.
A number of factors, both before and after birth, can contribute to early sodium loss, Leshem noted.
Before birth, severe maternal vomiting can deplete fetal sodium, for example; after birth, infant vomiting or diarrhea, and infant formulas lacking electrolytes are among the potential causes.
This is not the first study to link low sodium levels in early life to a bigger "salt appetite" down the road, Leshem said. Other research suggests early sodium loss can affect salt preferences even into adulthood.
The current findings, Leshem's team writes, "accentuate the importance of monitoring and balancing sodium levels in premature babies."
But they also hint at the mechanisms that influence people's salt intake, pointing to a direction for future research, Leshem noted. "And that," he said, "is relevant to all of us, not just premature babies."
SOURCE: American Journal of Physiology - Regulatory, Integrative, and Comparative Physiology.
From: evolutionary-psychology@yahoogroups.com on behalf of Robert Karl Stonjek [stonjek@ozemail.com.au]
Sent: Friday, January 19, 2007 12:29 PM
To: Evolutionary-Psychology
Like Salty Food? Chances Are You Had Low Blood Sodium When You Were Born
Science Daily — A new study concludes that low birthweight babies born with low sodium (salt) in their blood serum will likely consume large quantities of dietary sodium later in life. In the study, researchers also found that newborns with the most severe cases of low sodium blood serum consumed ~1700 mg more sodium per day and weighed some 30 percent more than their peers. These data, taken together with other recent findings, make it clear that very low serum sodium in pre-term and new born infants is a consistent and significant contributing factor for long-term sodium intake, a key marker for obesity.
The results are from the study "Lowest Neonatal Serum Sodium Predicts Sodium Intake in Low-Birthweight Children," conducted by Adi Shirazki, Edith Gershon, and Micah Leshem, all of the University of Haifa, Haifa; Zalman Weintraub of the Galilee Medical Center, Nahariya; and Dan Reich of the Ha'Emek Medical Center, Afula, Israel. The study is published in the American Journal of Physiology -- Regulatory, Integrative, and Comparative Physiology. The Journal is one of 11 peer-reviewed research journals published each month by the American Physiological Society (APS).
The Study: Methodology
Forty-one children born prematurely and identified through the archives of the Ha'Emek and Galilee Medical Centers (Israel) participated in the investigation with the written permission of their guardians. The youngsters were admitted to the study based on whether they had received neonatal diuretic treatment during their first month of life (n=23) or were a matched control having received no diuretic treatment (n=18). Of the total, 21 were Arabs (14 boys, 7 girls) and 20 were Jews (11 boys, 9 girls), ranging between 8-15 years of age.
The researchers analyzed each child's sodium appetite according to neonatal diuretic treatment, and used each child's lowest recorded serum sodium levels as an index of sodium loss. The latter was determined by screening all the serum sodium measurements of each infant's postnatal medical record, and selecting the lowest.
Each child underwent a pediatric physical examination. To estimate current sodium appetite, participants were tested for their preferred concentration of salt in soup and sugar in tea, followed by orally administered spray tests involving table salt and table sugar. Between the tests the children and escorting parent(s) were interviewed about dietary and seasoning preferences. The children were then invited to eat freely from a table of salty and sweet snacks.
The researchers used trained experts to collect the above data. The investigators used ANOVA, correlational analysis (Spearman), and SPSS to analyze the data. Alpha was fixed at 0.05 and SEM was the measure of variability.
The Study: Results
Upon review of the data, the researchers concluded that:
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reported dietary sodium consumption in childhood (ages 8-15) was predicted by neonatal lowest serum sodium (NLS) and not by neonatal diuretic treatment, as they originally proposed.
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NLS predicted dietary sodium intake in both ethnic groups and both boys and girls.
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the 14 children with the most severe NLS (serum sodium<130 mEq/L) ate double the number of salty snacks (p<0.05) and their dietary sodium intake was substantially higher -- 4515 ±310 mg/day vs. 3307± 248 (p=0.0054) -- than their peers.
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no relationship was found between neonatal lowest serum sodium and a preference for salt per se. Rather, the preference was for the foods that contain it.
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gestational age and birthweight were not predictors of childhood sodium intake.
Conclusions
The researchers concluded that low sodium blood serum in infants -- not gestational age, birthweight or neonatal diuretic treatment -- predicts an increased intake of dietary sodium later in life. As neonatal serum sodium is a marker of future sodium intake, clinicians may wish to advise families of these children about the increased risk of sodium intake and obesity later in life.
JOURNAL PUBLICATION INFORMATION: Articles in Press, American Journal of Physiology -- Regulatory, Integrative and Comparative Physiology; (doi:10011152/ajpregu.00453.006)
Source: American Physiological Society
http://www.sciencedaily.com/releases/2007/01/070118121146.htm
Posted by Robert Karl Stonjek
file:///C:/Users/user/Documents/Papers/MY%20PAPERS/Media/Low%20salt%20diet%20may%20increase%20anxiety%20levels,%20suggests%20rat%20study.htm
HEADLINES > SCIENCE & NUTRITION
Low salt diet may increase anxiety levels, suggests rat study
By Nathan Gray , 31May2011
Low levels of salt in the diet may contribute to anxiety and help explain our persistent appetite for salty foods, indicates a new study on rats.
The study, published in the journal Physiology & Behavior, suggests that our high appetite for salty foods may be associated with coping with stress, depression and anxiety.
Author of the study, Professor Micah Leshem, from the department of psychology at the University of Haifa, Israel, noted that it has been suggested that the human need for high salt intakes “may be adaptive in coping with daily adversity.”
“Therefore, we investigated the effect of low dietary sodium in models of depression and anxiety, on chronic mild stress (CMS), and on acute unpredictable stressors,” said Prof. Leshem.
“The psychological dimensions of salt intake are only now being addressed experimentally, and the ramifications for its control, and for individuals vulnerable to depression or stress, require clarification,” he added.
The study was funded by grants from the University of Haifa and the US Salt Institute.
Study details Leshem reported that dietary sodium intake of 0.04 per cent (the equivalent of 3 grams per day salt intake in a 70 kg man) slightly reduces body weight, increases adrenal and heart weight, and increases mortality to 55 per cent in rats.
He added that, despite its minimal effect on growth, the sodium deficient diet “exacerbated measures of anxiety, specifically decreasing time, activity, and the ratio of activity.”
The research findings showed that high salt intake may be an adaptive response for coping with adversity, finding that low dietary sodium induces anxiety in rats.
However, Leshem said that rats with induced chronic mild stress (CMS) were found to reduce salt intake by 1.5 per cent. He noted that this reduction is specific to depression “insofar as it did not occur after repeated acute stressors. The reduction occurred despite sodium restriction.”
“Thus while sodium restriction is anxiogenic [induces anxiety], it does not exacerbate preexisting depression or anxiety,” he added.
Salty appetite
Leshem noted that it is commonly believed that salt intake is required solely to maintain mineralfluid balance, and that its excessive intake poses a risk to human health. However, he added that the determinants of human salt intake, in “excess and persistence, are unknown.”
“We do not know why heightened salt appetite persists, why it is so ubiquitous, nor why it is so in the face of [...] health risks and the social pressure to moderate intake ... Hence, there must be additional causes maintaining high salt intake,” wrote Leshem.
Source: Physiology & Behavior
Volume 103, Issue 5 , Pages 453458,
doi: 10.1016/j.physbeh.2011.03.025
“Low dietary sodium is anxiogenic in rats”
Author: M. Leshem
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Reed Business Media SAS All Rights Reserved Full details for the use of materials on this site can be found in the Terms & Conditions
Pass the salt, please. It’s good for you.
By Marta Zaraska May 4 at 4:32 PM
Salt intake that is often deemed high may actually have benefits, scientists say.
“We humans eat more salt than is necessary. But we all do it. So the question is: why?” asks Paul Breslin, a professor of nutritional sciences who researches sodium appetite at New Jersey’s Rutgers University.
In the past, people thought that salt boosted health — so much so that the Latin word for “health” — “salus” — was derived from “sal” (salt). In medieval times, salt was prescribed to treat a multitude of conditions, including toothaches, stomach aches and “heaviness of mind.”
While governments have long pushed people to reduce their intakes of sodium chloride (table salt) to prevent high blood pressure, stroke and coronary heart disease, there are good reasons why cutting down on salt is not an easy thing to do.
Scientists suggest that sodium intake may have physiological benefits that make salt particularly tempting — and ditching the salt shaker difficult. It comes down to evolution. “In biology, if something is attractive and we invest in gaining it, it must be beneficial, adaptive in evolutionary terms,” says Micah Leshem, a professor of psychology at Haifa University in Israel, who spent decades researching salt’s unique appeal.
People tend to consume about the same amount of sodium no matter where they live, and this amount hasn’t changed much in decades. Those facts hint at the biological basis of our sodium appetite.
A 2014 analysis of data that spanned 50 years and dozens of countries (including the United States, France, China and several African nations, including Zimbabwe and South Africa) found that the quantity of sodium that most people consume (and then excrete) falls into a historically narrow range of 2.6 to 4.8 grams per day. (And then there are extremes: In 16thcentury Sweden, for example, people ate 100 grams a day, mostly from fish that had been salted to preserve it.) “Over the last five decades, salt content of commercial food in our food [in the United States] has gone up. But if you look at people’s 24hour urinary sodium excretion, you see that the amounts of salt people consume have been constant,” he says. Irrespective of age, sex or race, between 1957 and 2003 Americans have been eating on average
3.5 grams of salt a day. “This suggests that we are somehow regulating the amount of salt we are eating,” Breslin says.
And, in fact, salt is good for us. Sodium is necessary for preventing dehydration, for proper transmission of nerve impulses and for normal functioning of cells. If we ate no sodium at all, we would die. When they become sodiumdeficient, many animals go out of their way to find the mineral. That’s why, for example, sweaty clothes of alpinists tend to attract mountain goats.
Sodium depletion can develop after severe sweating, diarrhea or vomiting or, if you are a lab rat, after it is induced by a scientist. Pharmacology professor Alan Kim Johnson and colleagues from the University of Iowa gave rats diuretics and found that sodiumdepleted rodents acquired a strong attraction for salted chips. In other
experiments, sodiumdeficient animals hungrily drank ultrasalty solutions that they would otherwise find disgusting.
Lifetime cravings
Once sodium deficiency is experienced, salt cravings can last a lifetime. That happens with humans, too — but only if the deficiency strikes in very early childhood, or even before birth. If your mother suffered frequent vomiting in pregnancy or if you lost significant amounts of sodium as a baby (due to vomiting or diarrhea, for example), chances are good that you eat more salt than other people do, even by as much as 50 percent, as one of Leshem’s studies has shown. This is probably because sodium depletion alters our central nervous system so that we develop longlasting preference for the mineral, Johnson says.
In one of Leshem’s studies, babies who had low concentrations of sodium in their blood in the first weeks of their lives grew up to be teenagers with a penchant for salt, even salt that is seemingly hidden in processed foods. “Even if you can’t taste the salt, apparently your body does. It’s working on an unconscious level to condition a preference for sodium,” Leshem explains.
This makes sense from an evolutionary perspective, says Daniel Fessler, a UCLA anthropologist: If a mother or her infant experiences sodium hunger, it could mean that salt is hard to come by in their environment — and so it is better to be on a constant lookout for it. That is also how humans may have evolved their general liking of salt, Johnson says: “Mankind spent a lot of evolutionary history on the hot African savanna where salt was very scarce and readily lost from the body. Since severe sodium depletion can cause circulatory collapse, there was a selection
for mechanisms to save sodium and to drive us to consume more of it.”
A calming effect?
Eating salt may also help calm us, or reduce our stress. In animal studies, the effects are pretty clear. An experiment published in 1995 showed, for example, that when rats are put in stressful situations, they choose to drink salty water rather than unsalted water. In another study, when wild rabbits were stressed, their sodium intake shot up.
The possibly stress reducing, or moodenhancing, effects of salt in humans are not as well documented, but there is some evidence. In a 2014 study involving about 10,000 Americans, Leshem and his colleagues found a relationship between salt intake and depression: Women whose diets were high in sodium were less depressed than other women. “Maybe people are selfmedicating with salt,” he reasons. “But that’s a small effect. salt is not going to cure anyone of depression.”
Breslin believes there may be another evolutionbased reason why we love salt: “Salt accelerates sexual maturation in animal models, resulting in more offspring,” he says. Male rats on high sodium diets, for example, have increased sperm counts. And in a 1991 experiment, men whose sodium intake was lowered to 2.4 grams a day complained of erectile dysfunction more often than those who consumed three grams a day. “The most problematic was a combination of a diuretic and a lowsodium diet,” says epidemiologist Sylvia WassertheilSmoller,
the study’s lead author.
What’s more, women from the Yanomami tribe in Brazil, famed for their low salt intake (23 milligrams per day — less than 1 percent of what the average American consumes), have fewer children than could be expected, and they often miscarry. Yet according to Tilman Dr.eke, a nephrologist who researches fertility and sodium intake at the French Institute of Health and Medical Research, this observation should be taken “with a grain of salt” because, he says, ”the relatively low fertility and high rate of pregnancy loss in Yanomami women clearly cannot be attributed to their very low salt intake alone. This is only one hypothesis among several others, including the higher prevalence of infectious diseases.”
It’s also possible that sodium aids growth. As scientists from New Jersey Medical School found out, if you put rats on lowsalt diets, their bones and muscles fail to grow as fast as they normally would. In one of his experiments, Leshem
found that children in general reach for more salt than adults do — independent of calorie intake — which may be explained by the needs of their growing bodies.
Finally, there are a few diseases that can turn a few of us into salt gluttons. About 15 percent of people with adrenal insufficiency (Addison’s disease) — which can cause weakness, anemia and low blood pressure — experience acute salt cravings. Hiding saltshakers from them may not be a good idea. In 1940 the case of a little boy was described in the Journal of the American Medical Association. From the time he was a year old, the boy would go out of his way to eat massive amounts of salt. When he started speaking, one of his first words was “salt.” During a hospital stay (unrelated to his dietary habits), he was put on a lowsodium diet. To prevent him from sneaking around the hospital and stealing salt, he was strapped to his bed. He soon died. The reason? Due to severe and undiagnosed corticoadrenal
insufficiency, his kidneys were unable to retain sodium. Only eating huge amounts of salt had kept the boy alive.
Salt sensitivity
Yet most of us do not need huge amounts of salt to survive. Just the opposite: About half of humans are what is called saltsensitive:
If they consume lots of sodium, their blood pressure will go up. But if we do have internal
regulatory mechanisms that tell us to load up on salt when our bodies need it (for growth, for mood improvement or to simply prevent dehydration), does it even make sense to encourage people to try to reduce their dietary sodium?
It does, Breslin says, but only to a point. “If people are regulating their sodium intakes, they are not going to be able to reduce it a lot — say, by 50 percent or more. It would be like putting someone in a room and cutting the amount of oxygen by half: Your body will try to maintain the level of oxygen in your blood and will make you breathe faster.” And so, as Johnson suggests, when it comes to salt intake, “moderation is probably ideal.”
Cut your sodium intake if your health condition requires it and your doctor recommends it, but don’t look at salt as an evil that should be banned from your plate completely: There may be valid reasons why your body craves it.
Zaraska is a writer based in France.
http://www.haaretz.com/life/health-fitness/.premium-1.676489
Haaretz
Eating Salty Food Doesn't Make You Thirstier, Says Haifa Scientist
Should we eschew salt before Yom Kippur? Not necessarily, according to a recent study involving students and nuts by Prof. Micah Leshem of Haifa University.
Ruth Schuster Sep 18, 2015 6:09 AM
There's a tendency to assume that "salt is bad," which is a grave fallacy: Too little is also risky.
Some things seem self-evident: wear tight shoes, your toes will hurt. Eat salty foods, you will crave water. Not so?
Not necessarily, it seems. You may want a drink because of the dry mouth-feel after eating salt, not because your body physiologically aspires to correct its hydromineral balance, postulates Prof. Micah Leshem of Haifa University, based on an admittedly small study involving students and nuts.
In other words, bars that set out bowls of free salted snacks in the hope that their sodium-saturated customers will be biologically induced to drink more are wasting their own money, according to Leshem's findings.
Eat, drink and pee?
"Everybody 'knows' that when you eat salt, you become thirsty," Leshem, a professor in the Department of Psychology, told Haaretz. "But that's what we were investigating here – whether in fact salt makes you thirsty."
The experiment involved 58 students, who underwent testing every few days, following a two-hour abstention from water (and cigarettes). They were divided into three groups. One was given salted nuts, one unsalted nuts and one sugar-coated nuts. The amount of salt in the salted snack was between 30% to 40% of the daily intake, roughly speaking.
Then, during a couple of hours in which the students responded to various questionnaires with bottled water freely available, they rated their own level of thirst every 15 minutes. Their water intake was measured without their knowledge.
The results of this "voluntary, acute intake of a sodium load" are described in Leshem's paper, published in Appetite www.elsevier.com/locate/appet.
Neither the thirst the students reported nor the actual quantity of water they drank was any different after eating salty nuts than after eating unflavored or candied ones. (Why test sugary nuts too? To make sure differences weren't due to changes in taste, Leshem explains.)
Leshem did not set out to test whether, over time, people who eat more salt drink more. He set out to see whether people who eat a salty solid will want to drink more water than people who ate something else.
Dear reader, they did not. Or, in the argot, "our study found little support for the assumption that salt invariably increases drinking,” Leshem stated.
Prof. Micah Leshem wondered, why exactly do people love salt so much?
Treacherous terrain of the Salt Wars
That leads us into the bloody terrain of the Salt Wars: Is salt good or bad for you? "We can put men on the moon but don't know if salt is good or bad for you," Leshem helpfully sums up. "Some say it's clear that it's bad and some say it doesn't do anything to you in normal quantities."Some argue that consuming salted foods causes you bloat because one drinks more, whether water or worse, soda; and may become obese. Leshem doesn't buy that one: any excess salt we eat, or water we drink, doesn't stay in the body. It gets urinated out, and our sweat will become saltier."There are a lot of options to maintain the balance of sodium and water in our bodies," he says, and his student study indicates that immediately heading off to stick one's face in the water cooler after eating peanuts isn't one of them. He also points out that our ancestors and life forms in general couldn't and can't just amble over to the fridge for a cool drink; they had to evolve systems to redress their hydromineral balance that did not involve immediately imbibing.
Hankering for the primordial sea
There is a theory that the balance of salt and water in the human body is what it is because of the primordial sea, where life started, and where the salt concentration was about 0.9% - which is exactly that of our body. It could be coincidence. But, to pursue the theory, as life left the sea for dry land, it had to evolve salt-equilibrium mechanisms. (For an alternative theory: Is the sodium chloride level in the oceans evidence for a biogenesis?) We humans, for all our pretentions and inventions, are merely leaky skin-coated bags of primal sea, Leshem explains happily: and it is that inner concentration that we are maintaining when we eat salt to replenish its loss by that leakage – in urine, in sweat, in feces, and in injury and ailment. We are especially leaky when we are born, and every neonatologist is on the lookout – many newborns require salt supplementation to survive and develop fully."The first thing to do is to maintain that," he sums up. "Only one thing kills us more quickly than lack of salt or water – lack ofoxygen. Without that you can die in minutes. If you don't eat salt or don't drink, you could die within hours."
So we need to eat salt. How much? Stay tuned, because even the iconic U.S. Institute of Medicine is confused enough to have backtracked on its original recommendation, dating from decades ago, to "reduce" sodium input, although the Institute of Medicine isn't saying that salt is good.
"High salt intake may be unhealthy, but there's no good evidence that reducing it helps," says Leshem.
Maybe that's just as well. Data from 2010 shows that worldwide, in general, people eat about twice as much salt as they should 0– albeit that "should" is controversial itself. Armenians were found to have the heaviest salt habit in the world (about 5 grams a day) followed by their neighbors in central Asia.
So should you eschew salt before Kippur?
So, should Yom Kippur fasters forgo salt in the pre-fast meal, as some dietitians recommend? Eat more? Ignore the whole thing?
"Dear Kippur fasters – do not skimp on your salt, and don't overdo it," Leshem spells out. "Salt and water are both necessary to survive the fast properly. Not enough salt, like too much, may dehydrate you more than necessary, and too much water might do the same! So eat and drink as you are used to. Don't overdo it."
Extra food and water you eat in advance won't ultimately make any difference: "You will just jettison it, because that is what you tuned your body to handle, and your liver, kidneys and bloodstream will keep your blood properly balanced and flowing, and will give you the energy you need for 24 hours. Mainly they will keep your brain in charge – because, after all, it's all in your head," he sums up.