HYPERMAGNESEMIA
Definition
Hypermagnesemia is defined as a serum magnesium concentration > 2.4 mg/dL
(> 1.0 mmol/L or > 2.0 mEq/L)
|
Severity |
Serum Mg (mg/dL) |
mmol/L |
|
Mild |
2.5–4 |
1.0–1.6 |
|
Moderate |
4–6 |
1.6–2.5 |
|
Severe |
>6 |
>2.5 |
|
Life-threatening |
>10–12 |
>5 |
Normal Magnesium Physiology
Distribution
- Total body Mg ≈ 25 g
- Bone: 60%
- Muscle/soft tissue: 39%
- Extracellular fluid: <1%
Normal Serum Magnesium
- 1.7–2.4 mg/dL (0.7–1.0 mmol/L)
Intestinal Absorption
- Passive + active (TRPM6 channels)
- Increased when Mg deficient
Renal Handling
- Primary regulator of Mg balance
- 70% reabsorbed in thick ascending limb (TAL)
- PTH enhances reabsorption
- Loop diuretics ↓ Mg reabsorption
👉 Hypermagnesemia almost always implies renal failure or excess intake
Etiology of Hypermagnesemia
1. Renal Causes (MOST COMMON)
|
Condition |
Mechanism |
|
Acute kidney injury |
↓ Mg excretion |
|
CKD (GFR <30 mL/min) |
Accumulation |
|
ESRD |
Severe hypermagnesemia with intake |
|
Hyporeninemic hypoaldosteronism |
↓ distal Mg excretion |
📌 Hypermagnesemia without renal failure is rare
2. Excess Magnesium Intake
Iatrogenic
- Magnesium sulfate (eclampsia, torsades)
- Mg-containing IV fluids
- TPN with excess Mg
Oral / GI Sources
- Antacids (Mg hydroxide)
- Laxatives (milk of magnesia)
- Bowel prep solutions
- Herbal medications
⚠️ Elderly + constipation + renal dysfunction = classic risk
3. Increased GI Absorption
|
Condition |
Mechanism |
|
Ileus / bowel obstruction |
Prolonged contact |
|
Inflammatory bowel disease |
↑ absorption |
|
Chronic constipation |
Increased uptake |
4. Endocrine / Metabolic Causes
|
Condition |
Mechanism |
|
Hypothyroidism |
↓ renal clearance |
|
Adrenal insufficiency |
↓ Mg excretion |
|
Hyperparathyroidism |
↑ intestinal absorption |
5. Cellular Release / Shifts (Rare)
- Tumor lysis syndrome
- Rhabdomyolysis
- Hemolysis
- Acidosis (Mg shifts extracellularly)
Pathophysiology
Magnesium is a physiologic calcium antagonist and neuromuscular depressant.
Key Mechanisms
- Inhibits presynaptic acetylcholine release
- Blocks calcium channels
- Suppresses PTH secretion
- Decreases Na-K-ATPase activity
- Vasodilation (↓ SVR)
👉 Results in:
- Neuromuscular paralysis
- Cardiac conduction defects
- Hypotension
- Respiratory failure
Clinical Features (Mg Level-Based)
Neuromuscular
|
Mg level |
Manifestation |
|
3–4 mg/dL |
Nausea, flushing |
|
4–6 mg/dL |
↓ DTRs, lethargy |
|
6–10 mg/dL |
Loss of reflexes, muscle weakness |
|
>10 mg/dL |
Flaccid paralysis, respiratory depression |
|
>12–15 mg/dL |
Coma |
📌 Loss of deep tendon reflexes = early and sensitive sign
Cardiovascular
|
Mg level |
Effect |
|
4–6 |
Bradycardia |
|
6–10 |
Hypotension, PR prolongation |
|
>10 |
Heart block |
|
>15 |
Cardiac arrest (asystole) |
Respiratory
- Hypoventilation
- Respiratory muscle paralysis
- Apnea (severe)
CNS
- Confusion
- Somnolence
- Coma
ECG Changes
|
Mg Level |
ECG Findings |
|
Mild |
PR prolongation |
|
Moderate |
QRS widening |
|
Severe |
Complete heart block |
|
Extreme |
Asystole |
Laboratory Findings
- ↑ Serum magnesium
- Hypocalcemia (Mg suppresses PTH)
- Hyperkalemia (renal failure)
- ↑ Creatinine / urea
📌 Always check Ca²⁺, K⁺, ABG
Diagnosis
Confirmatory
- Serum magnesium level
Supportive
- Renal function tests
- ECG monitoring
- Neurological examination (DTRs)
Differential Diagnosis
|
Condition |
Key Difference |
|
Hyperkalemia |
Peaked T waves |
|
Hypocalcemia |
Tetany (opposite of Mg) |
|
Guillain–Barré |
Ascending paralysis |
|
Myasthenia gravis |
Preserved reflexes |
MANAGEMENT OF HYPERMAGNESEMIA
Principles
- Stop magnesium intake
- Stabilize myocardium
- Enhance magnesium elimination
- Provide ventilatory support if needed
Step-Wise Management
1. Asymptomatic / Mild (Mg <4 mg/dL)
- Stop Mg-containing drugs
- Monitor levels
- Ensure hydration
- Normal renal function → usually self-limited
2. Symptomatic or Mg ≥4–6 mg/dL
A. IV Calcium – FIRST LINE ANTIDOTE
|
Drug |
Dose |
|
Calcium gluconate 10% |
10–20 mL IV over 5–10 min |
|
Calcium chloride |
5–10 mL (central line only) |
📌 Mechanism: Antagonizes Mg at neuromuscular junction & myocardium
📌 Effect lasts 30–60 minutes → may need repeat dosing
B. Enhance Renal Excretion (If kidneys working)
- IV isotonic saline
- Loop diuretics (furosemide)
👉 Increases urinary Mg loss
3. Severe Hypermagnesemia / Renal Failure
C. Hemodialysis – DEFINITIVE TREATMENT
Indications:
- Mg >6–8 mg/dL with symptoms
- Renal failure
- Life-threatening arrhythmias
- Respiratory depression
- Refractory to medical therapy
📌 Mg is small, water-soluble, minimally protein bound → dialyzable
4. ICU Support
- Continuous ECG monitoring
- Ventilatory support if respiratory depression
- Vasopressors if hypotension