Potassium is primarily an intracellular ion, and the normal range for potassium is very low (see Ready References). Any change in the content has a significant effect. Both hyperkalemia and hypokalemia cause cardiac dysrhythmias and possible cardiac arrest.

9-10.5 mg/dL

Fluid could be drawn out of the cells into the ISF by osmosis.

Hypomagnesemia can be caused by malabsorption syndrome or malnutrition.

Hyponatremia causes a movement shift of water into cells, resulting in muscle cramps, weakness and fatigue, abdominal cramps, and nausea. Increased intracellular fluid in the nervous system causes lethargy, confusion, and headache. Hypokalemia causes muscle weakness and paresthesias, nausea, abdominal distention, and decreased bowel sounds. Hypokalemia causes serious cardiac arrhythmias, polyuria, and metabolic alkalosis.

3.5-5 mEq/L

Hypocalcemia increases neural excitability, causing skeletal muscle spasms. Calcium is stored in skeletal muscle; therefore, it is readily available for muscle contraction. Contraction of cardiac muscle depends on the movement of calcium from the blood into muscle fibers; therefore, hypocalcemia results in a weak cardiac contraction and arrhythmias. Nerves are not involved in cardiac contraction.

Excessive loss of water from the vascular compartment has resulted in a relatively higher proportion of sodium and RBCs in the blood.

1.3-2.1 mEq/L

Decreased blood flow through a diseased kidney stimulates renin secretion and increased aldosterone levels, resulting in higher sodium and water levels in the ECF (including the ISF) and general vasoconstriction, which increases vascular hydrostatic pressure. Usually plasma proteins are lost in the urine with kidney disease, causing decreased plasma osmotic pressure. If kidney disease causes a significant drop in the GFR, the resultant fluid retention increases blood volume and hydrostatic pressure.

Patient who has sustained a traumatic burn due to massive cell destruction

decreased heart rate, hypotension, diminished peripheral pulses, irritable skeletal muscles, painful muscle spasms, hyperactive deep tendon reflexes, anxiety, hyperactive bowel sounds, increased gastric motility, cramping, diarrhea

Aldosterone would likely increase serum sodium levels or maintain a normal value if an equivalent amount of water is added. (The total amount of sodium in the body would increase.) ADH would decrease serum sodium levels because increased water reabsorption reduces the concentration of sodium.

Diarrhea, which can cause further magnesium loss

Fluid loss would occur with hyperventilation and perspiration. Sodium loss in sweat also affects osmotic pressure of the ECF and fluid balance. A higher metabolic rate requires increased turnover of fluid.