Anesthesia for Parathyroidectomy 

🔍 Introduction

Parathyroidectomy is the surgical removal of one or more parathyroid glands. It is most commonly performed for:

  • Primary hyperparathyroidism (PHPT): Caused by parathyroid adenoma (80–85%), hyperplasia (10–15%), or carcinoma (<1%)
  • Secondary hyperparathyroidism: Often due to chronic kidney disease
  • Tertiary hyperparathyroidism: Autonomous gland activity after long-standing secondary HPT (usually post-renal transplant)


⚙️ Pathophysiology of Hyperparathyroidism

🧪 Parathyroid Hormone (PTH) Effects:

  • Increases bone resorption Serum calcium
  • Enhances renal reabsorption of Ca²⁺
  • Promotes activation of vitamin D GI absorption of Ca²⁺
  • Serum phosphate ( excretion)

📋 Clinical Features:

  • Bones: Osteitis fibrosa cystica, bone pain, fractures
  • Stones: Nephrolithiasis
  • Groans: Abdominal pain, pancreatitis, PUD
  • Moans: Psychiatric symptoms like depression, confusion
  • Cardiac: Hypertension, short QT interval, arrhythmias


👩‍⚕️ Preoperative Evaluation

History:

  • Renal colic, fractures, psychiatric symptoms
  • Symptoms of hypercalcemia: polyuria, polydipsia, constipation
  • Evaluate for MEN syndromes (Multiple Endocrine Neoplasia):
    • MEN 1: Pituitary, parathyroid, pancreas
    • MEN 2A: Medullary thyroid carcinoma, pheochromocytoma, parathyroid
    • MEN 2B: Medullary thyroid carcinoma, pheochromocytoma, mucosal neuromas

Lab Tests:

  • Serum calcium, phosphate, magnesium, albumin
  • PTH levels
  • 25(OH) Vitamin D
  • Renal function tests
  • ECG: Look for short QT, arrhythmias
  • Urinalysis: Nephrolithiasis

Imaging:

  • Neck ultrasound
  • Sestamibi scan
  • 4D-CT/MRI

Optimization:

  • Hydration with normal saline to correct volume depletion
  • Bisphosphonates for hypercalcemia
  • Calcitonin, steroids, diuretics (loop diuretics like furosemide after hydration)
  • Stop thiazide diuretics and lithium (increase Ca²⁺)


🛏️ Anesthetic Goals

Goal

Consideration

Maintain stable hemodynamics

Avoid hypotension in hypovolemic patients

Avoid hypercalcemia-related arrhythmias

Monitor ECG closely

Anticipate and manage hypocalcemia post-op

Due to sudden drop in PTH

Ensure airway access

Recurrent surgeries may distort anatomy

Preserve nerve integrity

RLN monitoring, avoid muscle relaxants if monitoring used


💉 Choice of Anesthesia

General Anesthesia (GA)

  • Most common approach.
  • Facilitates airway control, neuromonitoring, and rapid emergence.

Induction:

  • Standard agents: Propofol, fentanyl, rocuronium (if no RLN monitoring)
  • Avoid succinylcholine if hyperkalemia is suspected

Maintenance:

  • Volatile agents (sevoflurane/desflurane)
  • Short-acting opioids: Remifentanil preferred
  • BIS monitoring for rapid emergence
  • Muscle relaxants: Use short-acting; avoid if using nerve monitoring (NIM tube)

Airway:

  • Anticipate difficult airway in reoperations or MEN syndromes (goiter, previous surgeries)
  • Consider NIM endotracheal tube for intraoperative RLN monitoring

Regional Anesthesia

  • Rare but possible (e.g., cervical plexus block), mostly in high-risk patients
  • Requires cooperative patient, not ideal for bilateral or complex exploration


🔬 Intraoperative Considerations

  • Positioning: Reverse Trendelenburg, slight neck extension. Support head and avoid cervical spine strain.
  • Recurrent Laryngeal Nerve Monitoring: Avoid long-acting neuromuscular blockers if used.
  • Intraoperative PTH monitoring:
    • PTH half-life ~2–5 minutes
      • Drop of >50% from baseline at 10 minutes after gland removal = adequate resection


Postoperative Concerns

⚠️ Hypocalcemia:

  • Due to “hungry bone syndrome” or removal of hyperfunctioning gland
  • Monitor ionized calcium frequently
  • Symptoms: Perioral numbness, tingling, tetany, carpopedal spasm (Trousseau’s sign), laryngospasm

Management:

  • Oral or IV calcium gluconate
  • Magnesium and vitamin D supplementation as required

⚠️ Vocal Cord Dysfunction:

  • RLN injury Hoarseness, aspiration, stridor
  • Evaluate with laryngoscopy if suspected


🩺 Postoperative Monitoring

  • Calcium levels: Q6–8 hourly for first 24–48 hours
  • ECG monitoring: For QT prolongation, arrhythmias
  • Pain control: Mild pain, usually managed with paracetamol or NSAIDs
  • Watch for signs of hematoma causing airway compression—surgical emergency!


💡 Special Situations

In CKD patients (Secondary HPT):

  • Increased risk of bleeding
  • Difficult IV access
  • Avoid nephrotoxic drugs
  • Monitor fluid status carefully

In MEN Syndrome:

  • Evaluate and treat pheochromocytoma before surgery
  • Anticipate difficult airway, endocrinopathies


📘 Viva Questions & High-Yield Pearls

Question

High-Yield Answer

Most common cause of PHPT?

Parathyroid adenoma

Mechanism of hypercalcemia in PHPT?

Bone resorption, GI absorption, renal reabsorption

First sign of hypocalcemia?

Perioral tingling, numbness

Monitoring nerve function?

NIM ETT, avoid muscle relaxants

Dangerous electrolyte post-op?

Hypocalcemia

QT interval in hypercalcemia?

Shortened

RLN injury signs?

Hoarseness, stridor, aspiration


MCQ Nuggets

  1. Best IV calcium salt for symptomatic hypocalcemia?
    Calcium gluconate
  2. Effect of hypercalcemia on QT interval?
    Shortened QT
  3. Half-life of PTH?
    2–5 minutes
  4. Gold standard for localizing adenoma?
    Sestamibi scan
  5. Drug avoided in RLN monitoring?
    Long-acting neuromuscular blockers
  6. Best initial fluid for hypercalcemia?
    Normal saline