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| Image 1: "Minerals? Yeah that's the stuff you need to avoid cramping" While this is certainly true, the mineral loss during "normal" workouts is largely overblown, the most important and actually only necessary ingredients in respective drinks, even for Ironman Triathletes, are salt, water and sugar and what's worse this prejudice conceals the importance of electrolytes for our general health. |
Don't forget your minerals or they'll soon be just one of the many things you tend to forget
While the studies and reviews on the effects of minerals, especially calcium (and as of late also magnesium), on cardiovascular health is about as abundant as the assessments of their individual and joint benefits and / or pitfalls, their role in the etiology of another, quieter, but not less prevalent pandemic is still insufficiently studied. Against that background, the results Ozawa et al. present in a recently published paper in the Journal of the American Geriatric Society could well provide some novel insights on whether or not forgetting to keep an eye on your mineral intake now will make you forget more than just a couple of minerals in the more or less distant future - and that even if none of the 1081 community dwelling elderly (>60y) Japanese the scientists followed up for 17 years is even remotely related to you ;-)
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| Figure 1: Hazard ratios for all-cause, vascular and Alzheimer's dementia for patients in the lowest to highest quartiles of potassium (≤1,856 / 1,857–2,149 / 2,150–2,559 / ≥2,560), calcium (≤431 / 432–531 / 532–638 / ≥638) and magnesium (≤147 / 148–169 / 170–195 / ≥196) intake in mg/day (top) and difference in intake of selected foods in the highest vs. lowest quantile of overall mineral intake (bottom; all calculated based on Ozawa. 2012) |
- a higher mineral intake was had a more pronounced beneficial impact on vascular compared to Alzheimer's dementia (-77% vs. -46% max. reduction)
- for potassium and calcium the general rule of thumb is "the more, the better" (the deviation from that rule in the individual analysis for Alzheimer's is statistically nonsignificant), but I don't this is mediated by the overall low intake of both and thus only valid within the given range of ~700-900mg of calcium and ~2600-3000mg of potassium - intakes you can by the way easily get from your diets alone
- aside from the usual suspects, i.e. (green) vegetables, fruits and fish, dairy is among the most important source of minerals and high dairy eaters tend to be high mineral consumers, while low / no dairy eaters tend to be in the lowest quartiles of overall mineral intake
- women had significantly higher mineral intakes than men, i.e. 68.3% of the persons in Q4 for overall mineral intake were women
- age had no effect whatsoever on the overall intake of potassium, calcium and magnesium
- a low(er) education (<6 years of schooling) was a good predictor of low total mineral intakes, just as it is by the way in view of an overall worse diet quality (this is however less pronounced than conventional wisdom would suggest)
- intriguingly, people with diabetes had on average higher mineral intakes than people without diabetes, almost certainly a non-causative relationship that is probably mediated by supplements and nutritional counseling the diabetics received
- contrary to the US, there was no association between high salt and low Ca, Mg, or K intakes, this is also surprising because the "average" middle aged Japanese consumes way more than 5g of salt (Nagata. 2004) and thus 2x more than the US "tolerable upper intake level" of 2300 mg (Cogswell. 2012)
- Donfrancesco et al. report higher potassium and magnesium intakes were associated with lower BMIs in 1168 men and 1112 women aged 35-79 yrs from 12 Italian regions (Donfrancesco. 2012)
- almost identical results in a study by Shay et al. that found associations with lower BMIs for potassium and magnesium 1794 men and women (ages 40-59 y) from 8 US population samples (Shay. 2012)
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| Figure 2: Percentage of the population mineral intakes below the EAR for individuals aged ≥2y (data from NHANES 2003–2006; n = 16,110; Fulgoni. 2011). |
I mean, you will probably remember from "On Short News on July 28, 2012" that each milligram of magnesium per liter drinking water could decrease the heart disease risk of people with an unbalanced mineral intake by 5%! But, alas, who am I to make such bold suggestions?
Potassium, check; magnesium, check; calcium, ... wait a minute! What about phosphorus?
Aside from the mere possibility that we could already be consuming way too much calcium (which is not supported by science as long as those 1,000mg come from your diet and not from supplements; cf. "Higher Calcium Intake Greater Fatty Acid Oxidation"), the most straight forward explanation would be an imbalanced intake of phosphorus. For the average European the latter is at about 1,675mg/day (mostly from dairy, cereals and meats - 27.9, 23.4, 17.4.% of daily intake, respectively) and thus clearly twice the amount our (the European) version of the well-meaning policy makers are telling us each and every one of us should be consuming on a daily basis.
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| Figure 4: Relative potassium intake in European countries according to source; note: with 4,110mg/day the average potassium intake in the Euopean Union is much higher than in the US, highest intakes were observed in Spain, lowest in Germany (Welch. 2009) |
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| Figure 3: Hazard risk analysis based on the Cholesterol and Recurrent Events (CARE) study (n = 4127; Tonelli. 2005) |
These are only two selected examples of the available evidence that suggests that we are still totally underestimating the effects of "electrolytes", in general, and their ratios, in particular, on our neurological and metabolic health - and, even worse, doctors, policy makers, experts and gurus keep making mostly unwarranted recommendations to increase our intake of one and decrease the intake of another mineral, when in fact the lack of synergists (e.g. normal amounts of dietary magnesium to complement calcium) and absence or abundance of antagonists (e.g. potassium and magnesium for salt and calcium, magnesium and potassium for phosphorus) are the actual problems we are dealing with.
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| Figure 5: Don't forget that there are personal, regional and historical difference in total and relative mineral intakes and never supplement, high amounts of isolated minerals simply because Mr or Mrs average would benefit, without checking how "average" you actually are in terms of your solid, fluid and supplemental mineral intake (data for image based on Crawford. 1971; data on US water hardness according to the Water Research Center) |
Individualization, evaluation are therefore obligatory steps which must necessarily come before supplementation, which would - as some of the data in the figure 4 did already suggest - rarely be necessary, if the average inhabitant of the Western hemisphere did not top his sugary, salty and phosphate-laden fast-food diet with beverages that are either devoid of any minerals or will simply exasperate the existing imbalances.
Too many people (and I believe this is particularly true for the US) seem to have forgotten that we have not always been forced to filter all the minerals out of our water just to make the chlorinate, fluorinated, and "estrogenated" sludge that streams out of the faucet suitable for human consumption. Think of that and the data in figure 5, the next time the as of late often second-guessed recommendation that you got to have "at least X cups of water per day" resurfaces and of how little use each of them is, when it does not contain any of the electrolytes your body needs to handle the water appropriately.
- Cogswell ME, Zhang Z, Carriquiry AL, Gunn JP, Kuklina EV, Saydah SH, Yang Q, Moshfegh AJ. Sodium and potassium intakes among US adults: NHANES 2003-2008. Am J Clin Nutr. 2012 Aug 1.
- Crawford MD, Gardner MJ, Morris JN. Cardiovascular Disease and the Mineral Content of Drinking Water. Br. Med, Bull. 1971; 27,1: 21-24.
- Donfrancesco C, Ippolito R, Lo Noce C, Palmieri L, Iacone R, Russo O, Vanuzzo D, Galletti F, Galeone D, Giampaoli S, Strazzullo P. Excess dietary sodium and inadequate potassium intake in Italy: Results of the MINISAL study. Nutr Metab Cardiovasc Dis. 2012 Jul 24.
- Fulgoni VL 3rd, Keast DR, Bailey RL, Dwyer J. Foods, fortificants, and supplements: Where do Americans get their nutrients? J Nutr. 2011 Oct;141(10):1847-54.
- Ozawa M, Ninomiya T, Ohara T, Hirakawa Y, Doi Y, Hata J, Uchida K, Shirota T, Kitazono T, Kiyohara Y. Self-Reported Dietary Intake of Potassium, Calcium, and Magnesium and Risk of Dementia in the Japanese: The Hisayama Study. J Am Geriatr Soc. 2012 Aug 2.
- Ritz E, Hahn K, Ketteler M, Kuhlmann MK, Mann J. Phosphate additives in food--a health risk. Dtsch Arztebl Int. 2012 Jan;109(4):49-55. Epub 2012 Jan 27.
- Shay CM, Van Horn L, Stamler J, Dyer AR, Brown IJ, Chan Q, Miura K, Zhao L, Okuda N, Daviglus ML, Elliott P; for the INTERMAP Research Group. Food and nutrient intakes and their associations with lower BMI in middle-aged US adults: the International Study of Macro-/Micronutrients and Blood Pressure (INTERMAP). Am J Clin Nutr. 2012 Aug 1.
- Tonelli M, Sacks F, Pfeffer M, Gao Z, Curhan G; Cholesterol And Recurrent Events Trial Investigators. Relation between serum phosphate level and cardiovascular event rate in people with coronary disease. Circulation. 2005 Oct 25;112(17):2627-33.
- Water Research Center. Hard Water Hardness Calcium Magnesium - Water Corrosion Mineral Scale. < http://www.water-research.net/hardness.htm > retrieved Aug 16, 2012.
- Welch AA, Fransen H, Jenab M, Boutron-Ruault MC, Tumino R, Agnoli C, Ericson U, Johansson I, Ferrari P, Engeset D, Lund E, Lentjes M, Key T, Touvier M, Niravong M, Larrañaga N, Rodríguez L, Ocké MC, Peeters PH, Tjønneland A, Bjerregaard L, Vasilopoulou E, Dilis V, Linseisen J, Nöthlings U, Riboli E, Slimani N, Bingham S. Variation in intakes of calcium, phosphorus, magnesium, iron and potassium in 10 countries in the European Prospective Investigation into Cancer and Nutrition study. Eur J Clin Nutr. 2009 Nov;63 Suppl 4:S101-21.