Magnesium

Question 1

What is the function of Magnesium Metabolism?

Answer 1

After K+ is most abundant intracellular cation.Within cells Mg is co-factor in over 300 enzymatic reactions

• Energy metabolism
• Calcium & potassium channels
• Membrane stabilisation & neuromuscular excitability
• Protein & nucleic acid synthesis
• Oxidative phosphorylation
• Particular importance in formation & utilisation of ATP

Question 2

What is the ranges for Plasma Magnesium?

Answer 2

0.7 – 1.0 mmol / L

Question 3

What are plasma magnesium levels with in the blood?

Answer 3

• Less than 0.5% of total body Mg is in plasma
• 60% ionized form
• 15% complexed (phosphate, citrate or bicarbonate)
• 25% protein bound

Various forms can be effected by protein concentration & pH

Question 4

What is involved in Magnesium Homeostasis?

Answer 4

• Daily intake ranges from 6-20 mmol/day
• Green vegetables, hard water. Absorption in small bowel by active transport & passive diffusion
• Between 3-5% of filtered Mg appears in the urine. Evidence that kidneys can conserve Mg excretion when Mg is low
• Also intestinal adaptation when Mg is low

Question 5

How is Magnesium managed by the kidneys?

Answer 5

• Non–protein bound Mg2+ is filtered freely at the glomerulus, and the approximate percentages of filtered Mg2+ absorbed at different locations are shown.
• Under most physiologic conditions, about 10% of filtered Mg2+ is excreted.
• Final regulatory segment, the DCT, controls approximately 5% of filtered Mg2+, 25% in PCT and 60% in Loop of Henle
• Mg2+ is transported by both the paracellular and transcellular pathways.

Question 6

What are some congenital causes of magnesium disorders?

Answer 6

• Mutations in paracellin-1 and claudin-19 are involved in familial hypomagnesemia with hypercalciuria and nephrocalcinosis (FHHNC).
• Mutations in TRPM6 are involved in HSH.
• Mutations in NaCl cotransporter are involved in Gitelman syndrome,
• Mutations in the γ subunit of Na,K-ATPase are involved in autosomal dominant renal hypomagnesemia with hypocalciuria (ADRHH).

Question 7

How are Mg and PTH related?

Answer 7

• Mg required for PTH release and action
• Mg can regulate PTH secretion in a manner similar to calcium but much less potent.
• PTH stimulated by modest hypoMg and suppressed by hyperMg
• Profound hypoMg inhibits PTH release

Question 8

What are symptoms of Hypomagnesaemia?

Answer 8

• Neuromuscular excitability with tetany and seizures
• Hypocalcaemic
• Anorexia & nausea
• Tremour
• Apathy
• Depression, agitation & confusion
• Hypokalaemic

Question 9

What cardiac effects of hypomagnesaemia?

Answer 9

• Striking relationship between moderate hypomagnesaemia and dysrhythmias
• Reduced levels of ATPase activity, loss of intracellular potassium and subsequent urinary loss
• Ratio of intra to extracellular is reduced so increased electrical excitability
• Some drug therapies for dysrhythmias are less responsive if patient hypomagnesaemic

Question 10

What are causes of hypomagnesaemia?

Answer 10

• Inadequate intake (Alcoholism, Protein Calorie Malnurition, Prologed Infusion or ingstion of low Mg diet)
• Malabsorption (Inflammatory bowel disease, Gluten enteropathy, Intestinal bypass, Radiation enteritis, Familial primary hypomagnesaemia)
• Intracellular shift (Post MI, Recovery from DKA, Refeeding syndrome, Acute pancreatitis)
• Renal tubular dysfunction
• Drugs (Proton Pump Inhibitors, Nephrotoxic drugs (amphotericin, cisplatin, laxatives), Diuretic (non-potassium sparing))

Question 11

What are conditions that benefit from magnesium supplementation?

Answer 11

• Acute myocardial infarction with: (recurrent ventricular fibrillation, recurrent ventricular tachycardia, complex ventricular tachycardia, supraventricular tachycardia)
• Digoxin intoxication with arrhythmia
• Torsades de pointes
• Low K+ unresponsive to K+ supplementation
• Low Ca++ unresponsive to Ca++ supplementation
• Diuretic therapy

Question 12

What types of patients do you expect to have hypomagnesaemia?

Answer 12

• Alcoholics
• Low Calcium
• Low Potassium
• Nutritionally Compromised

Question 13

What is refeeding syndrome?

Answer 13

• Chronic starvation leads to prolonged deficiency,
• Upon Calorie provision on feeding there is Insulin secretion
• This leads to synthesis of glycogen / fat / protein using Mg/ K/ PO4 and secretion drives Mg, K and PO4 in to cells

Question 14

What are causes of Hypermagnesaemia?

Answer 14

Usually only a problem in patients with kidney failure.

Iatrogenic

• Oral (generally + CRF) – i.e. laxatives, antacids
• Rectal - purgation
• Parenterally (Pre-eclampsia, Treatment of magnesium deficiency)

Renal failure

• Chronic (& admin Mg) – antacids, cathartic, enema, infusion, dialysis
• Acute - rhabdomyolysis
• Cardiac surgery

Question 15

What are symptoms of the Hypermagnesaemia?

Answer 15

• Asymptomatic up to 1.5 -2.5 mmol/L
• >2.5 mmol/L – areflexia, ECG changes (prolonged PR and QRS interval, peaked T waves)
• Higher levels – respiratory paralysis & cardiac arrest
• At very high levels Mg blocks acetylcholine release causing peripheral blockade

Question 16

How is Hypermagnesaemia treated?

Answer 16

• Stop I.V administration

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• I.V calcium gluconate
• Dialysis

Question 17

How is Hypomagnesaemia treated?

Answer 17

• Oral supplement Magnaspartate - Each 6.5g sachet of Magnaspartate® contains magnesium-L-aspartate 10 mmol of magnesium
• Mg sulphate IV in a litre of 5% dextrose or saline 0.9% over 24 hours. May reduce the dose in renal impairment