Lower Incidence of Hypo-Magnesemia in Surgical Intensive Care Unit Patients in 2011 Versus 2001

Although previous studies in the general population showed that hypomagnesemia is a risk for cardiovascular diseases (CVD), the impact of magnesium on the prognosis of patients on hemodialysis has been poorly investigated. To gain information on this we conducted a nationwide registry-based cohort study of 142,555 hemodialysis patients to determine whether hypomagnesemia is an independent risk for increased mortality in this population. Study outcomes were 1-year all-cause and cause-specific mortality with baseline serum magnesium levels categorized into sextiles. During follow-up, a total of 11,454 deaths occurred, of which 4774 had a CVD cause. In a fully adjusted model, there was a J-shaped association between serum magnesium and the odds ratio of all-cause mortality from the lowest to highest sextile, with significantly higher mortality in sextiles 1-3 and 6. Similar associations were found between magnesium and both CVD and non-CVD mortality. The proportion of patients with a baseline intact parathyroid hormone level under 50 pg/ml was significantly higher in the highest sextile; however, after excluding these patients, the CVD mortality risk in the highest sextile was attenuated. Thus, hypomagnesemia was significantly associated with an increased risk of mortality in hemodialysis patients. Interventional studies are needed to clarify whether magnesium supplementation is beneficial for improving patient prognosis.

Magnesium (Mg) is the second most abundant intracellular cation and is a cofactor in more than 300 enzymatic reactions involving energy metabolism and protein and nucleic acid synthesis. Ionized Mg is the physiologically active form of the element. Protein-bound and chelated Mg buffer the ionized pool. Approximately half the total Mg in the body is present intracellularly in soft tissue, and the other half is present in bone. Less than 1% of the total body Mg is present in blood. However, the majority of our clinical laboratory information comes from the determination of total Mg in serum. Currently, the clinical laboratory evaluation of Mg status is limited primarily to the total serum Mg concentration and a 24-hour urinary excretion. Instrumentation to determine ionized Mg in serum (ion-selective electrode) and in soft tissue (nuclear magnetic resonance spectroscopy) should be available in the near future. Magnesium may be a factor in the treatment of acute myocardial infarction and the rate of atherosclerosis. Chronic changes of Mg status, that may be latent, are poorly understood and require a better knowledge of ionized Mg metabolism.

Magnesium deficiency and hypomagnesemia remain quite prevalent, particularly in patients in intensive care units, and may have important clinical consequences. Magnesium should be measured directly in clinical circumstances in which a risk for magnesium deficiency exists and appropriately corrected when found. This commentary reviews the current knowledge of magnesium homeostasis and the risk factors and clinical consequences of magnesium deficiency and outlines approaches to therapy.