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Query: UMLS:C0020473 (
hyperlipidemia
)
15,891
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Investigation of coronary heart disease manifesting as sudden death has highlighted the role of electrolyte disturbances in arrhythmogenesis. The identification of the 3 major cardiac risk factors--
hyperlipidaemia
, hypertension and smoking--does not fully explain sudden death in asymptomatic patients with an abnormal ECG. Sudden death is usually ascribed to cardiac arrhythmia whose pathogenesis has 3 possible mechanisms affecting the electrical properties of the heart. Thiazide diuretics are known to deplete potassium and magnesium in the body and while
magnesium deficiency
has been especially associated with cardiac rhythmicity, potassium levels modulate the cellular effects of calcium in the myocardium. In patients with ischaemic heart disease, both hypokalaemia and hypomagnesaemia correlate with the frequency of serious arrhythmias and even in ambulatory hypertensive patients on diuretics, it is important to preserve electrolyte homeostasis. There is, however evidence to suggest that some patients are more susceptible to diuretic-induced arrhythmias and in these patients even mild hypokalaemia can cause ventricular arrhythmias, and age may be a contributory factor. The risk of thiazide-induced arrhythmias has yet to be confirmed.
...
PMID:Electrolyte abnormalities and ventricular arrhythmias. 352 91
In studies concerning risk factors for cardiovascular diseases, a number of reports have emphasized the influence of lipids, but the role of dietary minerals other than sodium has been less studied. However, epidemiological studies have suggested that dietary intake of magnesium and potassium may be involved in such pathogenesis. Studies of the influence of
magnesium deficiency
on arteriosclerosis include its effect on the initial lesion, altered metabolism of elastin, proliferation of collagen, calcification, lipid metabolism, platelet aggregation and hypertension. Magnesium and potassium metabolism are closely related and magnesium is required for maintaining the level of cellular potassium. As a consequence, magnesium and potassium deficiency frequently occur together and potassium deficiency may be an aggravating factor in pathogenesis. The development of the initial lesion in the arterial wall may be facilitated by loss of cellular magnesium and potassium. Experimental
magnesium deficiency
induces arterial damage, a loss of magnesium and potassium and an increase in the calcium and sodium content of the cell. Experimental models that have been used to produce cardiovascular lesions induce similar changes and losses of major intracellular cations may affect the main metabolic processes of the cell. This report summarizes the experimental evidence that
magnesium deficiency
may affect several different stages involved in arteriosclerosis and that potassium deficiency may exacerbate this.
Magnesium deficiency
results in vascular calcification. Experiments indicate that elastin is the site of the initial calcification and the metabolism of elastin is altered. This vascular lesion then brings about an increase in the collagen content of the wall. Low magnesium status could probably affect this process by slowing collagen resorption and lead to an irreversible accumulation of connective tissue. Results showing a different distribution of the various types of lipoprotein during experimental
magnesium deficiency
strongly suggest that lipid exchange between the vessel walls and blood can be modified. Severe
magnesium deficiency
in weanling rats produces a marked hypertriglyceridemia, a decrease in the percentage of cholesterol transported by HDL lipoprotein and a reduction in LCAT activity. The decreased clearance of circulatory triglycerides appears to be the major mechanism contributing to
hyperlipemia
.
Magnesium deficiency
could therefore contribute to accumulation of vascular lipid. Magnesium and potassium depletion have also been reported in diabetes and the vascular implications of this should be considered.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Role of magnesium and potassium in the pathogenesis of arteriosclerosis. 639 44
Weanling Wistar rats were pair-fed for 8 days control and magnesium-deficient diets. Acute
magnesium deficiency
increased plasma triglycerides and free cholesterol levels and decreased esterified cholesterol levels. The plasma activity of lecithin--cholesterol acyltransferase was markedly diminished in fasting magnesium-deficient rats (54% reduction) and plasma high density lipoprotein (HDL) free cholesterol was significantly increased in the HDL fraction. The results of this study showing that dietary magnesium affects the activity of the enzyme involved in the esterification of free cholesterol to cholesterol ester provide a possible basis for the reduced plasma cholesterol esterification and
hyperlipidemia
associated with acute
magnesium deficiency
.
...
PMID:Reduction of plasma lecithin--cholesterol acyltransferase activity by acute magnesium deficiency in the rat. 674 30
Ageing constitutes a risk factor for magnesium deficit. Primary magnesium deficit originates from two aetiological mechanisms: deficiency and depletion. Primary
magnesium deficiency
is due to insufficient magnesium intake. Dietary amounts of magnesium are marginal in the whole population whatever the age. Nutritional deficiencies are more pronounced in institutionalized than in free-living ageing groups. Primary magnesium depletion is due to dysregulation of factors controlling magnesium status: intestinal magnesium hypoabsorption, reduced magnesium bone uptake and mobilization, sometimes urinary leakage, hyperadrenoglucocorticism by decreased adaptability to stress, insulin resistance and adrenergic hyporeceptivity. Secondary magnesium deficit in ageing largely results from various pathologies and treatments common to elderly persons, i.e., non-insulin dependent diabetes mellitus and use of hypermagnesuric diuretics. Magnesium deficit may participate in the clinical pattern of ageing, particularly in neuromuscular, cardiovascular and renal symptomatologies. The consequences of hyperadrenoglucocorticism-the simplest marker of which is non-response to the dexamethasone suppression test-may include immunosuppression, muscle atrophy, centralization of fat mass, osteoporosis, hyperglycaemia,
hyperlipidaemia
, atherosclerosis, and disturbances of mood and mental performance through accelerated hippocampal ageing particularly. It seems very important to point out that magnesium deficit and stress aggravate each other in a true 'pathogenic vicious circle', particularly in the stressful state of ageing. The importance of magnesium deficit in the aetiologies of insulin resistance, and the adrenergic, osseous, oncogenic, immune and oxidant disturbances of ageing is still uncertain. Oral physiological magnesium supplementation (5 mg Mg/kg/d) is the best diagnostic tool for establishing the importance of
magnesium deficiency
. Too few open and double blind studies on the effects of the treatment of
magnesium deficiency
and of magnesium depletion in geriatric populations have been done. Further study is necessary to assess the true place of magnesium deficit in the pathophysiology of ageing.
...
PMID:Magnesium and ageing. II. Clinical data: aetiological mechanisms and pathophysiological consequences of magnesium deficit in the elderly. 815 90
Ageing constitutes a risk factor for magnesium deficit. Primary magnesium deficit originates from two etiological mechanisms: deficiency and depletion. Primary
magnesium deficiency
is due to insufficient magnesium intake. Dietary amounts of magnesium are marginal in the whole population whatever the age. Nutritional deficiencies are more pronounced in institutionalized than in free-living ageing groups. Primary magnesium depletion is due to dysregulation of factors controlling magnesium status: intestinal magnesium hypoabsorption, reduced magnesium bone uptake and mobilisation, sometimes urinary leakage, hyperadrenoglucocorticism by decreased adaptability to stress, insulin-resistance and adrenergic hyporeceptivity. Secondary magnesium deficit in ageing largely results from various pathologies and treatments common to elderly persons: i.e. non insulin dependent diabetes mellitus and use of hypermagnesuric diuretics. Magnesium deficit may participate in the clinical pattern of ageing: mainly neuromuscular, cardiovascular and renal symptomatologies. The consequences of hyperadrenoglucocorticism--whose non response to dexamethasone suppression test appears the simplest marker--may concern immunosuppression, muscle atrophy, centralization of fat mass, osteoporosis, hyperglycemia,
hyperlipidemia
, atherosclerosis, disturbances in mood and mental performances through accelerated hippocampal ageing particularly. Treatment of
magnesium deficiency
requires simple oral physiological magnesium supplementation. Treatment of the different types of magnesium depletion leads to a more or less specific control of pathophysiological disturbances of the required magnesium substrate. Open and double blind studies on the effects of the treatments of
magnesium deficiency
and of magnesium depletions in geriatic populations are too scarce. Further study is necessary to assess the accurate place of magnesium deficit in the physiopathology of ageing.
...
PMID:Magnesium status and ageing: an update. 959 47
Magnesium is the fourth most abundant cation in the body and is present in more than 300 enzymatic systems, where it is crucial for adenosine triphosphate (ATP) metabolism. Deficiency states result in increased insulin resistance, as well as increased smooth muscle and platelet reactivity.
Magnesium deficiency
has been shown to correlate with a number of chronic cardiovascular diseases, including hypertension, diabetes mellitus, and
hyperlipidemia
. Intravenous magnesium has been used therapeutically in critical situations such as status asthmaticus, torsades de pointes, and preeclampsia. Few controlled studies exist regarding the therapeutic uses of oral magnesium supplementation in chronic cardiovascular diseases. Randomized clinical trials are urgently needed to determine whether magnesium supplementation will alter the natural history of these disease states.
...
PMID:Magnesium: its proven and potential clinical significance. 1260 35
The metabolic syndrome is a cluster of common pathologies: abdominal obesity linked to an excess of visceral fat, insulin resistance, dyslipidemia and hypertension. This syndrome is occurring at epidemic rates, with dramatic consequences for human health worldwide, and appears to have emerged largely from changes in our diet and reduced physical activity. An important but not well-appreciated dietary change has been the substantial increase in fructose intake, which appears to be an important causative factor in the metabolic syndrome. There is also experimental and clinical evidence that the amount of magnesium in the western diet is insufficient to meet individual needs and that
magnesium deficiency
may contribute to insulin resistance. In recent years, several studies have been published that implicate subclinical chronic inflammation as an important pathogenic factor in the development of metabolic syndrome. Pro-inflammatory molecules produced by adipose tissue have been implicated in the development of insulin resistance. The present review will discuss experimental evidence showing that the metabolic syndrome, high fructose intake and low magnesium diet may all be linked to the inflammatory response. In many ways, fructose-fed rats display the changes observed in the metabolic syndrome and recent studies indicate that high-fructose feeding is associated with NADPH oxidase and renin-angiotensin activation. The production of reactive oxygen species results in the initiation and development of insulin resistance,
hyperlipemia
and high blood pressure in this model. In this rat model, a few days of experimental
magnesium deficiency
produces a clinical inflammatory syndrome characterized by leukocyte and macrophage activation, release of inflammatory cytokines, appearance of the acute phase proteins and excessive production of free radicals. Because magnesium acts as a natural calcium antagonist, the molecular basis for the inflammatory response is probably the result of a modulation of the intracellular calcium concentration. Potential mechanisms include the priming of phagocytic cells, the opening of calcium channels, activation of N-methyl-D-aspartate (NMDA) receptors, the activation of nuclear factor-kappaB (NFkB) and activation of the renin-angiotensin system. Since
magnesium deficiency
has a pro-inflammatory effect, the expected consequence would be an increased risk of developing insulin resistance when
magnesium deficiency
is combined with a high-fructose diet. Accordingly,
magnesium deficiency
combined with a high-fructose diet induces insulin resistance, hypertension, dyslipidemia, endothelial activation and prothrombic changes in combination with the upregulation of markers of inflammation and oxidative stress.
...
PMID:High fructose consumption combined with low dietary magnesium intake may increase the incidence of the metabolic syndrome by inducing inflammation. 1740 91
Magnesium is the fourth most abundant cation in the body and is involved in over 302 enzymatic reactions. Basic science research has implicated
magnesium deficiency
as a cause of insulin resistance which is related to hypertension, diabetes,
hyperlipidemia
and increased cardiovascular risk. Research in
magnesium deficiency
states has been hindered because magnesium is an intracellular ion and difficult to measure. Our goal was to develop a reproducible assay to measure intracellular magnesium in platelets. Healthy volunteers agreed to have blood drawn for magnesium measurement. Platelet rich plasma was harvested from a venipuncture specimen and run through the flow cytometer. A standard titer curve using known increasing concentrations of magnesium chloride was created for each specimen, and then with the other half the specimen was run to measure the true intracellular free magnesium concentration. 15 adults agreed to volunteer for this experiment. All standard titer curves for all specimens had a correlation of > 0.99. The mean concentration of intracellular free magnesium was 450.05 microM with a range of 203.68 microM to 673.50 microM. Intracellular free magnesium can reliably and reproducibly be measured in platelets using Mag Green fluorescent dye and flow cytometry. This should advance our ability to study magnesium deficient states.
...
PMID:A method for measuring intracellular free magnesium concentration in platelets using flow cytometry. 1797 63
The scientific literature provides extensive evidence of widespread
magnesium deficiency
and the potential need for magnesium repletion in diverse medical conditions. Magnesium is an essential element required as a cofactor for over 300 enzymatic reactions and is thus necessary for the biochemical functioning of numerous metabolic pathways. Inadequate magnesium status may impair biochemical processes dependent on sufficiency of this element. Emerging evidence confirms that nearly two-thirds of the population in the western world is not achieving the recommended daily allowance for magnesium, a deficiency problem contributing to various health conditions. This review assesses available medical and scientific literature on health issues related to magnesium. A traditional integrated review format was utilized for this study. Level I evidence supports the use of magnesium in the prevention and treatment of many common health conditions including migraine headache, metabolic syndrome, diabetes,
hyperlipidemia
, asthma, premenstrual syndrome, preeclampsia, and various cardiac arrhythmias. Magnesium may also be considered for prevention of renal calculi and cataract formation, as an adjunct or treatment for depression, and as a therapeutic intervention for many other health-related disorders. In clinical practice, optimizing magnesium status through diet and supplementation appears to be a safe, useful, and well-documented therapy for several medical conditions.
...
PMID:The Importance of Magnesium in Clinical Healthcare. 2909 83
