Infratentorial Basics - Brainstem Backyard
- Location: Posterior cranial fossa; contains cerebellum, brainstem (midbrain, pons, medulla), and origins of CN V-XII.
- Vital Structures: Houses critical cardiorespiratory centers in medulla & pons. CSF pathways (4th ventricle, aqueduct) prone to obstruction.
- Common Lesions:
- Tumors: Acoustic neuroma (CN VIII), medulloblastoma (children), ependymoma, brainstem glioma.
- Vascular: Aneurysms (e.g., PICA), AVMs.
- Congenital: Chiari malformations.
- Pre-op Red Flags:
- Obstructive hydrocephalus (common, leading to ↑ICP).
- Signs of brainstem dysfunction (e.g., dysphagia, ataxia, gaze palsies).
- Pre-existing cranial neuropathies.
⭐ The "Cushing reflex" (hypertension, bradycardia, irregular respirations) indicates significantly ↑ICP and brainstem compression, a critical warning sign in infratentorial pathology.
Anesthetic Game Plan - Deep Dive Drugs
- Induction Agents:
- Propofol: 1.5-2.5 mg/kg (↓ICP, ↓CMRO₂).
- Etomidate: 0.2-0.3 mg/kg (stable, ↓ICP).
- Opioids: Fentanyl 1-3 mcg/kg / Remifentanil (blunt response).
- Relaxant: Rocuronium 0.6-1.2 mg/kg (no ↑ICP).
- Maintenance Strategy:
- Balanced: Volatile (<1 MAC) + Opioid (Remifentanil 0.05-0.2 mcg/kg/min).
- TIVA: Propofol + Remifentanil (good for neuromonitoring).
- Adjuncts: Dexmedetomidine (↓MAC), Lidocaine (↓airway reactivity).
⭐ Propofol TIVA is favored for infratentorial surgery: reliably ↓CMRO₂, ↓CBF, ↓ICP; offers good brain relaxation.
Positioning & Perils - High Stakes Seats
-
Common Positions & Associated Risks:
- Sitting: Best surgical view, ↓ ICP, ↓ bleeding.
- ⚠️ Cons: High VAE risk, hypotension, nerve injuries (sciatic, peroneal), macroglossia, cervical cord ischemia (extreme neck flexion).
- Prone/Lateral (Park-bench): ↓ VAE risk vs sitting; lateral offers better hemodynamics.
- Cons: Airway access (prone), pressure sores, brachial plexus injury (lateral).
- Sitting: Best surgical view, ↓ ICP, ↓ bleeding.
-
Venous Air Embolism (VAE): Critical concern.
- Incidence: Up to 76% in sitting position.
- Pathophysiology: Air via open non-collapsible dural venous sinuses above heart.
- Detection:
- Gold Standard: TEE.
- Standard Non-invasive: Precordial Doppler.
- Signs: Sudden ↓ ETCO₂, ↓ SpO₂, ↑ ETN₂, hypotension, arrhythmias; "mill-wheel" murmur (late).
⭐ Paradoxical air embolism (PAE) via PFO can cause stroke/MI.
VAE Management Algorithm
Wake-Up & Watch Out - Recovery Roadmap
- Emergence: Smooth; avoid coughing/straining (↑ICP).
- Awake extubation for neuro-assessment. Criteria: GCS 15, TV > 5 ml/kg, TOF > 0.9.
- Control BP surge (e.g., labetalol, lignocaine).
- Post-Op Care (PACU/Neuro-ICU):
- Neuro checks: GCS, pupils, motor function.
- Respiratory: airway, SpO2. Monitor for depression.
- Hemodynamics: maintain CPP; avoid BP extremes.
- Pain control (multimodal). PONV prophylaxis.
- ⚠️ Key Complications:
- Brainstem dysfunction (apnea, CN palsies).
- Posterior fossa bleed (↓GCS, new deficits).
- CSF leak, pneumocephalus.
- Delayed awakening.
⭐ Posterior fossa hematoma can cause rapid neurological deterioration and requires immediate surgical intervention.
High‑Yield Points - ⚡ Biggest Takeaways
- Sitting position: High risk of Venous Air Embolism (VAE); precordial Doppler for detection.
- Brainstem manipulation: Can cause bradycardia, hypotension, or apnea.
- Intraoperative neurophysiological monitoring (IONM) is crucial for cranial nerve preservation.
- Anesthetic goals: Stable CPP, avoid ↑ICP; TIVA or low-dose volatiles preferred.
- Key VAE management: 100% O2, flood field, Trendelenburg, aspirate via CVC.
- Post-op concerns: CSF leak, pneumocephalus, cranial nerve palsies.
- Avoid N2O due to VAE and pneumocephalus risk (expansion).
Continue reading on Oncourse
Sign up for free to access the full lesson, plus unlimited questions, flashcards, AI-powered notes, and more.
CONTINUE READING — FREEor get the app
