Fluid and Electrolyte Disorders
Stephen Freedman
Introduction: Fluid Compartments
Total body water (TBW) = 67% intracellular fluid (ICF) + 33% extracellular fluid (ECF)
ECF = 25% intravascular + 75% interstitial + transcellular
As a percentage of body weight, TBW varies inversely with advancing age
Maintenance Fluid and Electrolyte Requirements
Insensible losses = 400-600 mL/BSA (m2)/day plus urine and stool output
Since weight is easily available, used as an adequate alternative to surface area
Electrolyte Requirements
▪ | Sodium: | 1-3 mmol/kg/day |
▪ | Potassium: | 1-3 mmol/kg/day |
Table 24.1 Fluid Requirements | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
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Disorders of Sodium Homeostasis
Hypernatremia (serum sodium > 145 mmol/L)
Etiology
Increased total body Na from excess intake or hyperaldosteronism
Pure water loss with normal body Na
Insensible losses, renal (diabetes insipidus), inadequate access to water
Decreased total body water from diarrhea, vomiting, or renal cause
Normal total body Na and water with abnormal central regulation
Hypothalamic abnormality (essential hypernatremia, hypodipsia)
Clinical Manifestations
Depend on volume status, degree of hypernatremia, and rate of rise
Dry mucous membranes, irritability, weakness, lethargy, coma, seizures
Increased extracellular osmolarity protects perfusion and results in doughy skin
Investigations
Blood: electrolytes, BUN, creatinine, osmolality
Urine: urinalysis, specific gravity, Na, osmolality
Approach to Diagnosis
Urine osmolality > 700 mOsm/kg: normal physiologic response
Urine osmolality < plasma osmolality: DI (central/nephrogenic)
Urine osmolality high but < 700 mOsm/kg: loop diuretics, osmotic diuresis, DI
Treatment
If circulatory compromise, bolus 20 mL/kg normal saline
Calculate free water deficit:
Free water deficit = 0.6 × weight × [(plasma Na/145) − 1]
Simple calculation = 4 mL × weight (kg) × desired Δ Na
4 mL/kg water lowers serum Na by 1 mEq/L
Goal is to reduce serum Na by < 10-12 mmol/L/day to prevent cerebral edema
Fluid requirement = free water deficit plus ongoing losses plus maintenance
Give only 75% maintenance fluids due to increased ADH
Usually reasonable to start with D5W + 0.45 NS solution with frequent monitoring of Na
Add K after urine output established and if normal renal function
Monitor Na q 1-4 h initially with glucose, calcium, CNS status
Admit if symptomatic or Na > 160 mmol/L without an obvious cause
If severe hypernatremia Na > 170 mmol/L, do not correct serum Na < 150 in first 48-72 hours; consult nephrology and ICU
Hyponatremia (serum sodium < 135 mmol/L)
Etiology
Pseudohyponatremia (normal total body water and Na) due to hyperosmolar states (hyperglycemia), extreme hyperlipidemia, hyperproteinemia
Edema and hyponatremia: CHF, hypoalbuminemia, cirrhosis, acute renal failure
Dehydration and hyponatremia
Vomiting, diarrhea, tube drainage, renal losses, third space losses
Increased total body water with normal total body Na
SIADH, primary polydipsia, hypotonic feeds, hypothyroidism
Note: hospitalized patients receiving hypotonic maintenance fluids may have high levels of circulating ADH and are at risk of developing severe hyponatremia
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