The Benefits of magnesium
Magnesium (Mg) deficiency is a big problem in the United States. Likely due to poor farming practices and erosion, the food we eat has become depleted in magnesium.1
There are epidemic rates of high blood pressure in the United States and the fact that magnesium helps relax blood vessels make magnesium a very important mineral.
Imagine how many fatal heart attacks and other diseases could be delayed or prevented with this simple and inexpensive mineral. The problem is that when you take it as a supplement it is likely to cause more loose stools and even diarrhea.
“Aging is very often associated with Mg inadequacy and with increased incidence of many chronic diseases, with muscle loss and sarcopenia, altered immune responses, and vascular and metabolic conditions, such as atherosclerosis, diabetes and the cardiometabolic syndrome. The most common cause of Mg deficit in the elderly population is dietary Mg deficiency, although secondary Mg deficit in aging may also results from many different mechanisms.”2
Magnesium & prostate cancer
Prostate cancer risk increases as men age and research has shown that magnesium levels effect prostate cancer risks. A 2011 study, conducted at Vanderbilt University Medical Center, concluded that, “Low blood Mg levels and a high Ca/Mg ratio were significantly associated with high-grade prostate cancer. These findings suggest Mg affects prostate cancer risk perhaps through interacting with Ca.”3
Acid Reflux & Magnesium
Proton pump inhibitors (PPI) have been linked to decreased magnesium. If you take a drug that decreases your stomach acid production then you will have less acid in your stomach to digest your food. In some cases, acid reflux is actually caused by low stomach acid in the stomach. Yes! If you produce too little stomach acid it can actually cause the sphincter muscle that prevents acid reflux to weaken.
A 2009 review published in The Netherlands Journal of Medicine found that, “While awaiting additional studies, we suggest that magnesium loss in proton-pump inhibitor users should be considered in the differential diagnosis of hypo-magnesaemia of any age. This newly recognized side effect may not even be extremely rare once prescribers become aware of its existence.”4 Meaning, most doctors are totally unaware that low magnesium can be caused be anti-acid reflux treatments.
Magnesium at the hospital
One in ten people in the hospital have low magnesium levels in their bodies and there is no easy lab test for low magnesium. “Magnesium deficiency is a common problem in hospital patients, with a prevalence of about 10%. There are no readily available and easy methods to assess magnesium status.”5 Magnesium use in hospitals is rare despite the evidence for its need.
Lab testing for low magnesium
Measuring magnesium in the blood can be helpful but may tell little about how much magnesium is being transported into the cells. Some people appear to have a problem where there cells don’t transport magnesium into the inner cell space optimally.
Researchers at the Kidney Research Centre (University of Ottawa), agree that, “Much research is still needed to clarify the exact mechanisms of Mg(2+) regulation in the cardiovascular system and the implications of aberrant transcellular Mg(2+) transport in the pathogenesis of cardiovascular disease.”6 Meaning, some people are unable to transport magnesium into their cells effectively.
Magnesium IV after a stroke
In a recent study, published this year in the journal of Clinical Neurology and Neurosurgery, researchers founds that magnesium given by IV after stroke improved the outcome. “Patients receiving MgSO(4) showed significant recovery compared with the group of patients receiving placebo.”7
Magnesium may prolong life
In another 2012 article, published in Clinical Interventions In Aging, “The International Space Station provides an extraordinary facility to study the accelerated aging process in microgravity, which could be triggered by significant reductions in magnesium (Mg) ion levels with, in turn, elevations of catecholamines and vicious cycles between the two.”8
“With space flight there are significant reductions of serum Mg (P < 0.0001) that have been shown in large studies of astronauts and cosmonauts. The loss of the functional capacity of the cardiovascular system with space flight is over ten times faster than the course of aging on Earth. Mg is an antioxidant and calcium blocker and in space there is oxidative stress, insulin resistance, and inflammatory conditions with evidence in experimental animals of significant endothelial injuries and damage to mitochondria.” The author, William J. Rowe, MD, concludes, “The aging process is associated with progressive shortening of telomeres, repetitive DNA sequences, and proteins that cap and protect the ends of chromosomes. Telomerase can elongate pre-existing telomeres to maintain length and chromosome stability. Low telomerase triggers increased catecholamines while the sensitivity of telomere synthesis to Mg ions is primarily seen for the longer elongation products.” “Mg stabilizes DNA and promotes DNA replication and transcription, whereas low Mg might accelerate cellular senescence by reducing DNA stability, protein synthesis, and function of mitochondria. Telomerase, in binding to short DNAs, is Mg dependent. On Earth, in humans, a year might be required to detect changes in telomeres, but in space there is a predictably much shorter duration required for detection, which is therefore more reasonable in time and cost. Before and after a space mission, telomere lengths and telomerase enzyme activity can be determined and compared with age-matched control rats on Earth. The effect of Mg supplementation, both on maintaining telomere length and extending the life span, can be evaluated. Similar studies in astronauts would be fruitful.” references: 1. Evidence of decreasing mineral density in wheat grain over the last 160 years. Fan MS, Zhao FJ, Fairweather-Tait SJ, Poulton PR, Dunham SJ, McGrath SP. J Trace Elem Med Biol. 2008;22(4):315-24. Epub 2008 Sep 17. 2. Magnesium and aging. Barbagallo M, Dominguez LJ. Curr Pharm Des. 2010;16(7):832-9. 3. Blood magnesium, and the interaction with calcium, on the risk of high-grade prostate cancer. Dai Q, Motley SS, Smith JA Jr, Concepcion R, Barocas D, Byerly S, Fowke JH. PLoS One. 2011 Apr 25;6(4):e18237. 4. Hypomagnesaemia due to use of proton pump inhibitors – a review. M.T. Kuipers, H.D. Thang, A.B. Arntzenius. Neth J Med. 2009 May;67(5):169-72. 5. Magnesium metabolism and its disorders. Swaminathan R. Clin Biochem Rev. 2003 May;24(2):47-66. 6. Vascular Biology of Magnesium: Implications in Cardiovascular Disease. Tayze T. Antunes Ph.D., Glaucia Callera Ph.D., Rhian M. Touyz M.D., Ph.D. Magnesium in Human Health and Disease. Nutrition and Health 2013, pp 205-220 7. Evaluation of the intravenous magnesium sulfate effect in clinical improvement of patients with acute ischemic stroke. Afshari D, Moradian N, Rezaei M. Clin Neurol Neurosurg. 2012 Jun 30. [Epub ahead of print] 8. Correcting magnesium deficiencies may prolong life. Rowe WJ. Clin Interv Aging. 2012;7:51-4. Epub 2012 Feb 16.