Craniotomy for extracranial-intracranial revascularization

Craniotomy for extracranial-intracranial revascularization
Anesthesia type	General
Airway	ETT
Lines and access	PIV x 2 ; Art line ; CVC
Monitors	Standard ASA ; 5-lead EKG ; Core temp ; UOP ; ABG ; EEG
	Primary anesthetic considerations
Preoperative	Characterize neurologic deficits ; Consider anxiolytic ;
Intraoperative	Smooth induction ; Maintain CPP ; Maximize flow to ischemic areas ; Decrease CMRO2 ; Smooth extubation
Postoperative	Careful control of BP ; PONV prophylaxis
	Article quality
Editor rating	Comprehensive
User likes	2

Craniotomy for extracranial-intracranial revascularization (also referred to as EC-IC bypass) is an intracranial procedure which augments cerebral blood flow by relocating an extracranial vessel intracranially.

Overview

Indications

An EC-IC bypass is performed when there is severe stenosis or occlusion of an intracranial artery. Some common scenarios include:

Moya-moya disease
Intracranial aneurysms which cannot be directly treated and require complete occlusion of the proximal artery

Surgical procedure

The procedure is performed through a craniotomy. The extracranial source is most commonly the superficial temporal artery, but other branches of the external carotid artery are possible. The temporalis muscle or omentum can also be used when using an external carotid branch is not preferred.

The extracranial source is then routed through the craniotomy, and revascularization is achieved in one of two approaches:

"Direct", where the extracranial vessel is directly anastomosed to an intracranial vessel (typically to a branch of the middle cerebral artery)
"Indirect", where the donor source is laid on the surface of the brain but not directly anastomosed, with the expectation that over time vascular growth will occur to provide additional flow to the brain.

Preoperative management

Patient evaluation


System	Considerations
Neurologic	Patients typically present with variable focal neurologic symptoms, which should be well characterized and documented
Cardiovascular	Hypertension is a common adaptive response to maintain CPP Normotension may be undesirable in the setting of severe cerebrovascular disease Patients are often treated with midodrine preoperatively to induce hypertension and improve CPP
Hematologic	Patients often on aspirin through day of surgery Anticoagulants impacting PT/PTT typically discontinued 1 week prior to surgery

Labs and studies

EKG
Echo (if concern for cardiovascular disease)
Coronary angiography (depending on cardiac risk factors)
Complete blood count
Chemistry panel
Coagulation panel
Cerebral angiography performed to identify cause of neurologic symptoms

Operating room setup

Infusion pumps
If inducing hypothermia
- Surface cooling device (i.e. cold-water circulating blanket)
- Warming device
  - Patient will need aggressive rewarming post-anastomosis
  - Consider bladder irrigation, warm-water circulating blanket, forced warm air blanket
- Consider central heat exchanger, especially if patient has high surface-to-volume ratio

Patient preparation and premedication

Consider aprepitant if patient has history of severe PONV
Avoid scopolamine for PONV, as it may confound post-op neurologic exams
Anxiolysis typically reasonable

Regional and neuraxial techniques

Avoid scalp blocks, as they may interfere with donor vessel blood flow

Intraoperative management

Monitoring and access

Standard ASA monitors
5-Lead EKG
Core temperature
Urine output
Arterial blood pressure
EEG (particularly if inducing burst suppression)
Central line typically not required

Induction and airway management

Maintain controlled hypertension throughout induction (MAPs 90-110) to maintain cerebral perfusion pressure
- One effective approach is to use high-dose narcotic (fentanyl 7-10 mcg/kg) and low-dose propofol (0.5 mg/kg)
  - Limits postinduction hypotension
  - Prevents hemodynamic response to laryngoscopy
- Ephedrine may preserve cerebral blood flow better than phenylephrine^[1]
Muscle relaxant may require reversal if neuromonitoring is used

Positioning

Supine
Table turned 180
Mayfield skull fixation
- Prior to pinning, a remifentanil bolus (2-4mcg/kg) is useful to minimize hemodynamic lability
Shoulder roll

Maintenance and surgical considerations

Anesthesia is typically maintained with a combination of a general anesthetic and remifentanil
Controlled hypertension (MAPs 90-110) to preserve cerebral perfusion pressure
- Ephedrine boluses may be preferable to improve cerebral blood flow^[1] and avoid reflexive bradycardia
- Phenylephrine infusion typically used to maintain CPP during procedure
Normocarbia
- Cerebral vasoconstriction from hypocarbia may lead to cerebral ischemia in these patients
Normovolemia
Dexamethasone useful to reduce intracranial swelling and decrease PONV
Some centers use mild hypothermia (33-34°C) to decrease cerebral metabolic rate and increase tolerance to ischemia
Preincision antibiotics
If performing a direct anastomosis
- Some centers use mild hypothermia (33-34 °C) for cerebral protection
- Establish burst suppression (propofol 1mg/kg) immediately prior to cross clamping of cerebral artery
  - Theoretical benefit of decreasing cerebral metabolic rate and increasing tolerance for ischemia, though evidence is limited
  - A bolus dose of ephedrine and/or phenylephrine typically needed to counterbalance hypotensive effect of propofol

Emergence

Controlled hypertension typically maintained in postoperative period even if direct anastomosis performed
- Titrate vasoactive infusions down as anesthetic weaned
- If excessive hypertension develop, beta-blockers (esmolol, labetalol) and/or vasodilators (clevidipine, SNP) may be needed to maintain control during emergence
Long-acting opioids typically not needed and may interfere with postoperative neurologic examination
Consider IV acetaminophen
Consider emergence and extubation on low-dose remifentanil (0.05 mcg/kg/min) to minimize bucking and hemodynamic lability

Postoperative management

Disposition

ICU (typically monitored overnight in ICU)
Supplemental O2
Head of bed at 20-30°
Tight BP monitoring and management post-op (typically maintain at baseline levels)
Regular neuro checks post-op

Pain management

Multimodal pain management
Consider acetaminophen
Avoid scalp blocks, as they can interfere with donor vessel blood flow

Potential complications

Seizures
Stroke
Hemorrhage at anastomosis
Brain swelling can be caused by hyperemia in revascularized areas

References

↑ ^1.0 ^1.1 Koch, Klaus U.; Mikkelsen, Irene K.; Aanerud, Joel; Espelund, Ulrick S.; Tietze, Anna; Oettingen, Gorm V.; Juul, Niels; Nikolajsen, Lone; Østergaard, Leif; Rasmussen, Mads (2020-08). "Ephedrine versus Phenylephrine Effect on Cerebral Blood Flow and Oxygen Consumption in Anesthetized Brain Tumor Patients: A Randomized Clinical Trial". Anesthesiology. 133 (2): 304–317. doi:10.1097/ALN.0000000000003377. ISSN 1528-1175. PMID 32482999. Check date values in: |date= (help)

Top contributors: Chris Rishel and Barrett Larson

[:0-1] 1.0 ^1.1 Koch, Klaus U.; Mikkelsen, Irene K.; Aanerud, Joel; Espelund, Ulrick S.; Tietze, Anna; Oettingen, Gorm V.; Juul, Niels; Nikolajsen, Lone; Østergaard, Leif; Rasmussen, Mads (2020-08). "Ephedrine versus Phenylephrine Effect on Cerebral Blood Flow and Oxygen Consumption in Anesthetized Brain Tumor Patients: A Randomized Clinical Trial". Anesthesiology. 133 (2): 304–317. doi:10.1097/ALN.0000000000003377. ISSN 1528-1175. PMID 32482999. Check date values in: |date= (help)

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