Fluid and Electrolyte Management in Surgery - Part 2

🫀 5. Potassium Disorders

Normal K⁺: 3.5-5.0 mEq/L

⚠️ HIGH YIELD: Potassium disorders affect the HEART most dangerously!

📉 HYPOKALEMIA (K⁺ < 3.5 mEq/L)

Causes:

GI losses: Diarrhea, vomiting, NG suction (most common in surgical patients)
Renal losses: Diuretics (especially loop and thiazides)
Redistribution into cells:
- Insulin administration
- β-agonists (albuterol)
- Alkalosis
Inadequate intake: Prolonged NPO without supplementation

Clinical Manifestations:

Cardiac: U waves on ECG, flattened T waves, arrhythmias
Neuromuscular: Weakness, cramps, paralytic ileus
Renal: Decreased concentrating ability

ECG Changes in Hypokalemia:

Flattened T waves
ST depression
Prominent U waves
Prolonged QT interval
Risk of ventricular arrhythmias!

Treatment:

Mild (3.0-3.5): Oral KCl 40-60 mEq/day
Moderate (2.5-3.0): IV KCl 10 mEq/hour (in saline, NOT dextrose alone!)
Severe (<2.5): ICU monitoring, faster replacement with cardiac monitoring
NEVER give IV bolus of K⁺ → cardiac arrest!
Check Mg⁺⁺ level (low Mg prevents K⁺ retention)

📈 HYPERKALEMIA (K⁺ > 5.0 mEq/L)

⚠️ MOST DANGEROUS ELECTROLYTE EMERGENCY!

Causes:

Renal failure (can't excrete K⁺) ← #1 cause
Cell breakdown: Rhabdomyolysis, tumor lysis, hemolysis, burns
Medications: K⁺-sparing diuretics, ACE inhibitors, ARBs
Metabolic acidosis (K⁺ shifts out of cells)
Excessive supplementation (iatrogenic)
Pseudohyperkalemia: Hemolysis of blood sample (check repeat!)

Clinical Manifestations:

Often asymptomatic until severe!
Muscle weakness, paresthesias
CARDIAC TOXICITY ← Life-threatening!

ECG Changes in Hyperkalemia (Progressive):

K⁺ 5.5-6.5: Tall, peaked T waves (narrow base)
K⁺ 6.5-7.5: Prolonged PR interval, flattened P waves
K⁺ 7.5-8.0: Widened QRS complex
K⁺ >8.0: Sine wave pattern → Ventricular fibrillation/asystole → DEATH

Treatment of Hyperkalemia:

MEMORIZE THIS SEQUENCE:

1. STABILIZE THE HEART (if ECG changes present)

Calcium Gluconate 10% 10 mL IV over 2-3 min
Doesn't lower K⁺, but protects heart membrane
Onset: immediate, Duration: 30-60 min
Repeat if ECG changes persist

2. SHIFT K⁺ INTO CELLS (temporary, buys you time)

Insulin 10 units IV + D50W 1 amp (50 mL)
- Onset: 15-30 min, Duration: 4-6 hours
- Monitor glucose! (hypoglycemia risk)
Sodium Bicarbonate 50 mEq IV (if acidotic)
- Onset: 30 min, Duration: 2 hours
Albuterol nebulizer 10-20 mg
- Onset: 30 min, Duration: 2 hours
- Less reliable than insulin

3. REMOVE K⁺ FROM BODY (definitive treatment)

Diuretics (Furosemide 40-80 mg IV) - if kidneys work
Kayexalate (Sodium polystyrene sulfonate) 15-30 g PO/PR
- Onset: 1-2 hours
- Binds K⁺ in GI tract
Hemodialysis - if renal failure or severe (K⁺ >7.0)
- Most effective
- Onset: immediate

4. STOP K⁺ SOURCES

Stop K⁺ supplements
Stop K⁺-sparing diuretics
Review all medications

🦴 6. Calcium Disorders

Normal Total Ca⁺⁺: 8.5-10.5 mg/dL
Normal Ionized Ca⁺⁺: 4.5-5.5 mg/dL ← This is the active form!

⚠️ HIGH YIELD:

Half of calcium is bound to albumin
Corrected Calcium = Measured Ca + 0.8 × (4 - Albumin)
Always check ionized calcium if patient is hypoalbuminemic

📉 HYPOCALCEMIA (Total Ca⁺⁺ < 8.5 mg/dL)

Causes:

Post-thyroidectomy/parathyroidectomy (damaged parathyroid glands) ← Common in surgery!
Hypoparathyroidism
Vitamin D deficiency
Acute pancreatitis (Ca⁺⁺ sequestered in fat necrosis)
Massive blood transfusions (citrate in blood products binds Ca⁺⁺)
Chronic kidney disease
Hypomagnesemia (Mg needed for PTH secretion)

Clinical Manifestations:

Neuromuscular irritability:
- Chvostek sign: Tap facial nerve → facial twitching
- Trousseau sign: BP cuff inflated → carpopedal spasm (hand cramping)
- Paresthesias (perioral, fingertips)
- Tetany, seizures
Cardiac: Prolonged QT interval, hypotension
Psychiatric: Anxiety, confusion, depression

Treatment:

Acute symptomatic:
- Calcium gluconate 10% 10-20 mL IV over 10 min
- Then continuous infusion 0.5-2 mg/kg/hr
Chronic:
- Oral calcium carbonate 1-2 g/day
- Vitamin D supplementation
- Treat underlying cause

⚠️ POST-THYROIDECTOMY PEARL:

Check Ca⁺⁺ every 6 hours for 24 hours
Give prophylactic oral Ca⁺⁺ and vitamin D
Have calcium gluconate at bedside!

📈 HYPERCALCEMIA (Total Ca⁺⁺ > 10.5 mg/dL)

Mnemonic for causes: CHIMPANZEES

Calcium supplementation
Hyperparathyroidism (primary) ← #1 outpatient cause
Immobilization
Malignancy ← #1 inpatient cause (breast, lung, multiple myeloma)
Paget's disease
Addison's disease
Neoplasm (see malignancy)
Zollinger-Ellison syndrome
Excess vitamin D
Excess vitamin A
Sarcoidosis

Clinical Manifestations: "Stones, Bones, Groans, Psychiatric Overtones"

Stones: Kidney stones
Bones: Bone pain, osteoporosis
Groans: Abdominal pain, constipation, nausea
Psychiatric: Confusion, depression, lethargy
Cardiac: Shortened QT interval, bradycardia
Polyuria, polydipsia
Weakness, fatigue

Treatment:

Mild (Ca⁺⁺ 10.5-12):

Increase oral fluids
Stop Ca⁺⁺ and vitamin D supplements
Treat underlying cause

Moderate to Severe (Ca⁺⁺ >12):

IV Hydration: Normal Saline 200-300 mL/hr
- Dilutes Ca⁺⁺ and increases renal excretion
Loop diuretics (Furosemide 20-40 mg IV) after adequate hydration
- Increases Ca⁺⁺ excretion
Calcitonin 4 units/kg SC/IM q12h
- Onset: 4-6 hours
- Tachyphylaxis (stops working after 48 hrs)
Bisphosphonates (Zoledronic acid 4 mg IV)
- Onset: 2-4 days (slow but sustained)
- For malignancy-associated hypercalcemia
Dialysis if renal failure

Hypercalcemic Crisis (Ca⁺⁺ >14):

Medical emergency!
Confusion, coma
Cardiac arrhythmias
Aggressive IV hydration + calcitonin + bisphosphonates

🧲 7. Magnesium Disorders

Normal Mg⁺⁺: 1.5-2.5 mEq/L (1.8-3.0 mg/dL)

⚠️ HIGH YIELD: Magnesium is the "forgotten electrolyte" but critically important!

📉 HYPOMAGNESEMIA (Mg⁺⁺ < 1.5 mEq/L)

Causes:

GI losses: Diarrhea, NG suction, malabsorption, pancreatitis
Renal losses: Diuretics, alcohol, aminoglycosides, cisplatin
Redistribution: Refeeding syndrome
Endocrine: Diabetes, hyperaldosteronism

Clinical Manifestations:

Similar to hypocalcemia (neuromuscular irritability)
Chvostek and Trousseau signs
Cardiac: Arrhythmias (torsades de pointes), prolonged QT
Associated with: Hypokalemia and hypocalcemia
- Can't correct K⁺ or Ca⁺⁺ until you correct Mg⁺⁺!

Treatment:

Asymptomatic: Oral magnesium oxide 400 mg TID
Symptomatic/Severe (<1.0):
- Magnesium sulfate 1-2 g IV over 15 min
- Then 4-6 g IV over 24 hours
- Monitor for bradycardia, hypotension
- Check K⁺ and Ca⁺⁺ and replace as needed

📈 HYPERMAGNESEMIA (Mg⁺⁺ > 2.5 mEq/L)

Causes:

Renal failure (decreased excretion) ← #1 cause
Excessive administration (magnesium-containing antacids, laxatives)
Rhabdomyolysis
Tumor lysis syndrome

Clinical Manifestations (Progressive with increasing levels):

4-6 mg/dL: Nausea, flushing, hypotension
6-10 mg/dL: Loss of deep tendon reflexes, drowsiness
10-12 mg/dL: Respiratory depression
>12 mg/dL: Complete heart block, cardiac arrest

Treatment:

Stop Mg⁺⁺ sources
IV hydration + Furosemide (increases excretion)
Calcium gluconate 1-2 g IV (antagonizes Mg⁺⁺ at neuromuscular junction)
Hemodialysis if severe or renal failure

⚗️ 8. Acid-Base Disorders

Normal Arterial Blood Gas (ABG) Values:

pH: 7.35-7.45 (normal = 7.40)
PaCO₂: 35-45 mmHg (normal = 40)
HCO₃⁻: 22-26 mEq/L (normal = 24)
PaO₂: 80-100 mmHg

Systematic ABG Interpretation:

Step 1: Look at pH

< 7.35 = Acidemia (acidosis)
> 7.45 = Alkalemia (alkalosis)

Step 2: Determine primary disorder

If pH low and CO₂ high → Respiratory acidosis
If pH low and HCO₃ low → Metabolic acidosis
If pH high and CO₂ low → Respiratory alkalosis
If pH high and HCO₃ high → Metabolic alkalosis

Step 3: Check for compensation

Body tries to normalize pH (never overcompensates)

Step 4: Calculate anion gap

AG = Na⁺ - (Cl⁻ + HCO₃⁻)
Normal: 8-12 mEq/L

METABOLIC ACIDOSIS (Low pH, Low HCO₃⁻)

High Anion Gap Metabolic Acidosis (HAGMA)

Mnemonic: MUDPILES

Methanol
Uremia (renal failure)
Diabetic ketoacidosis (DKA)
Propylene glycol
Isoniazid, Iron
Lactic acidosis ← Most common in surgical patients!
Ethylene glycol
Salicylates (aspirin overdose)

Lactic Acidosis in Surgery:

Type A: Tissue hypoxia (shock, sepsis, hemorrhage)
Type B: Impaired metabolism (liver failure, metformin)
HIGH YIELD: Lactate >4 = poor prognosis in sepsis/trauma

Treatment:

Treat underlying cause! (resuscitate, source control)
Sodium bicarbonate controversial (only if pH <7.1)
Increase ventilation (blow off CO₂)

Normal Anion Gap Metabolic Acidosis (NAGMA)

Mnemonic: HARDUPS

Hyperalimentation
Acetazolamide, Addison's disease
Renal tubular acidosis, Renal failure (early)
Diarrhea ← Most common!
Ureterosigmoidostomy
Pancreatic fistula
Saline administration (dilutional)

⚠️ HIGH YIELD in Surgery:

Large volume NS resuscitation → Hyperchloremic acidosis
Diarrhea loses HCO₃⁻ → acidosis
Use Lactated Ringer's instead of NS to prevent!

METABOLIC ALKALOSIS (High pH, High HCO₃⁻)

Causes:

GI losses: Vomiting, NG suction (lose H⁺ and Cl⁻) ← Very common in surgery!
Renal losses: Diuretics (especially loop diuretics)
Volume contraction: "Contraction alkalosis"
Hypokalemia (K⁺ and H⁺ linked)
Excess alkali: Antacids, blood transfusions (citrate → HCO₃⁻)
Mineralocorticoid excess: Conn's syndrome, Cushing's

Classification:

Saline-Responsive (Urine Cl⁻ < 20 mEq/L):

Vomiting, NG suction
Diuretics (remote use)
Treatment: Normal Saline + KCl

Saline-Resistant (Urine Cl⁻ > 20 mEq/L):

Hyperaldosteronism
Current diuretic use
Treatment: Treat underlying cause, K⁺-sparing diuretics

Treatment:

Correct volume deficit: NS with KCl 20-40 mEq/L
Correct K⁺ and Cl⁻ (both usually low)
Treat underlying cause
Severe: Acetazolamide 250-500 mg (increases HCO₃⁻ excretion)

🧠 Key Points Summary - Part 2

Most dangerous electrolyte abnormality = Hyperkalemia (cardiac arrest)
Treat hyperkalemia K⁺ >6.5: Calcium → Insulin/Dextrose → Remove K⁺
Can't correct K⁺ or Ca⁺⁺ if Mg⁺⁺ is low - fix Mg⁺⁺ first!
Post-thyroidectomy: Check calcium q6h × 24h (hypocalcemia risk)
Hypercalcemia: "Stones, Bones, Groans, Psychiatric Overtones"
Most common cause of metabolic acidosis in surgery: Lactic acidosis from shock/sepsis
Large volume NS resuscitation causes hyperchloremic metabolic acidosis
SBO patient: Volume depleted with metabolic alkalosis and hypokalemia → Give NS with KCl
Anion gap formula: AG = Na⁺ - (Cl⁻ + HCO₃⁻) (Normal: 8-12 mEq/L)
Metabolic alkalosis classification: Saline-responsive vs saline-resistant

🎯 Clinical Memory Aids:

Hypokalemia ECG: Flat T, Prominent U waves
Hyperkalemia ECG: Peaked T → Wide QRS → Sine wave
Hypocalcemia ECG: Prolonged QT
Hypercalcemia ECG: Shortened QT
HAGMA: MUDPILES
NAGMA: HARDUPS
Hypercalcemia symptoms: Stones, Bones, Groans, Psychiatric Overtones