Magnesium


Case Synopsis

A 23-year-old pregnant woman at 34 weeks and 3 days’ gestation with severe preeclampsia is brought emergently to the operating room for cesarean delivery under general anesthesia. She is currently receiving a magnesium infusion for treatment of her preeclampsia. Forty-five minutes after uneventful rapid-sequence induction with propofol and rocuronium, followed by an uneventful delivery, the patient has continued profound neuromuscular blockade (train of four 0/4 with no posttetanic facilitation). After waiting 30 minutes in the operating room with no improvement, she is brought intubated to the intensive care unit; she is extubated 6 hours later.

Problem Analysis

Definition

Magnesium Homeostasis

Magnesium is the fourth most abundant cation in the body, with total body stores of about 2000 mEq. Normal serum magnesium (Mg 2+ ) concentrations are between 1.4 and 2.1 mEq/L, equivalent to 1.7 and 2.5 mg/dL, respectively (see Table 90.1 for unit conversions); however, serum Mg 2+ concentrations correlate poorly with total body stores, reflecting less than 1% of the total. Gastrointestinal absorption in the duodenum and jejunum represents the principal source of Mg 2+ (8 to 9 mEq/day). The amount of Mg 2+ lost from the body via gastrointestinal secretions is relatively constant (2 mEq/day). In contrast, the kidney can dramatically affect losses in response to lowered serum Mg 2+ concentrations due to reabsorption of Mg 2+ in the proximal renal tubules and the loop of Henle.

TABLE 90.1
Unit Conversions for Magnesium Compounds and Serum Concentrations
Compound Unit Conversions
Magnesium sulfate (MgSO 4 ) 1 g = 8.13 mEq of Mg 2+
Magnesium oxide (MgO) 1 g = 46 mEq of Mg 2+
Magnesium acetate (MgC 4 H 6 O 4 ) 1 g = 9.35 mEq of Mg 2+
Magnesium chloride (MgCl 2 ) 1 g = 9.75 mEq of Mg 2+
Serum concentrations (all compounds) 1 mg/dL = 0.83 mEq/L = 0.415 mmol/L

Role in Cellular Function

Magnesium serves as an essential cofactor for many important cellular enzymes (e.g., adenylyl cyclase, Na + ,K + -ATPase). In addition, the magnesium complex, with adenosine triphosphate, serves as a substrate for the enzymatic reaction mediating muscle contraction and relaxation. Magnesium also regulates cellular function by antagonizing the effects of calcium and modulating several potassium currents ( Box 90.1 ).

BOX 90.1
Mechanisms for Magnesium’s Effect on Cellular Function

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