Difference between revisions of "Craniotomy for extracranial-intracranial revascularization"

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VisualWikitext
(Experimentation with new overview section)
(Major rework of all sections)
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UOP <br/>  
UOP <br/>  
ABG <br/>  
ABG <br/>  
CVP <br/>
EEG
EEG
| considerations_preoperative = Characterize neurologic deficits <br/>
| considerations_preoperative = Characterize neurologic deficits <br/>
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Maximize flow to ischemic areas <br/>
Maximize flow to ischemic areas <br/>
Decrease CMRO2 <br/>
Decrease CMRO2 <br/>
Decrease intracranial volume <br/>
Smooth extubation
Smooth extubation
| considerations_postoperative = Careful control of BP <br/>
| considerations_postoperative = Careful control of BP <br/>
PONV prophylaxis
PONV prophylaxis
}}'''Craniotomy for extracranial-intracranial revascularization''' (also referred to as '''EC-IC bypass''') is a neurosurgical procedure used to augment cerebral blood flow.
}}'''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==
==Overview==
===Indications===
===Indications===
EC-IC bypass is generally indicated for severe stenosis or occlusion of intracranial arteries that is resulting in focal neurological symptoms. This procedure is frequently used to treat Moya-moya disease.
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===
===Surgical procedure===
The procedure involves connecting a branch of the external carotid artery (typically the superficial temporal artery) to a branch of the internal carotid artery (typically the middle cerebral artery). The anastomosis can be achieved via a vein graft or a direct connection.
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==
==Preoperative management==
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| Neurologic
| Neurologic
|
|
*Patients typically presenting with focal neurologic symptoms.  Pre-existing deficits should be well characterized and documented.
*Patients typically present with variable focal neurologic symptoms, which should be well characterized and documented
|-
|-
|Cardiovascular
|Cardiovascular
|  
|
*Hypertension is a common adaptive response to maintain CPP.  A normal BP may be undesirable in the setting of severe cerebrovascular disease.
*Hypertension is a common adaptive response to maintain CPP
*Patients may have generalized vascular disease, including CAD.
**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
|Hematologic
Line 63: Line 70:


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


*Consider pre-op acetaminophen 1000mg PO
*Consider aprepitant if patient has history of severe PONV
*Consider pre-op aprepitant if patient has history of severe PONV
*Avoid scopolamine for PONV, as it may confound post-op neurologic exams
*Consider small dose of anxiolytic
*Anxiolysis typically reasonable
*Detailed discussion with patient regarding anesthetic plan


===Regional and neuraxial techniques<!-- Describe any potential regional and/or neuraxial techniques which may be used for this case. If none, this section may be removed. -->===
===Regional and neuraxial techniques<!-- Describe any potential regional and/or neuraxial techniques which may be used for this case. If none, this section may be removed. -->===
Line 88: Line 95:
*Urine output
*Urine output
*Arterial blood pressure
*Arterial blood pressure
*Central venous pressure
*EEG (particularly if inducing burst suppression)
*EEG
*Central line typically not required


===Induction and airway management<!-- Describe the important considerations and general approach to the induction of anesthesia and how the airway is typically managed for this case. -->===  
===Induction and airway management<!-- Describe the important considerations and general approach to the induction of anesthesia and how the airway is typically managed for this case. -->===  


*Smooth induction is essential
*Maintain controlled hypertension throughout induction (MAPs 90-110) to maintain cerebral perfusion pressure
* Goal is to maintain CPP
**One effective approach is to use high-dose narcotic (fentanyl 7-10 mcg/kg) and low-dose propofol (0.5 mg/kg)
*Have vasopressors ready to maintain CPP during induction
***Limits postinduction hypotension
*Use narcotic to blunt response to laryngoscopy
***Prevents hemodynamic response to laryngoscopy
* Muscle relaxant used to facilitate tracheal intubation
**Ephedrine may preserve cerebral blood flow better than phenylephrine<ref name=":0">{{Cite journal|last=Koch|first=Klaus U.|last2=Mikkelsen|first2=Irene K.|last3=Aanerud|first3=Joel|last4=Espelund|first4=Ulrick S.|last5=Tietze|first5=Anna|last6=Oettingen|first6=Gorm V.|last7=Juul|first7=Niels|last8=Nikolajsen|first8=Lone|last9=Østergaard|first9=Leif|last10=Rasmussen|first10=Mads|date=2020-08|title=Ephedrine versus Phenylephrine Effect on Cerebral Blood Flow and Oxygen Consumption in Anesthetized Brain Tumor Patients: A Randomized Clinical Trial|url=https://pubmed.ncbi.nlm.nih.gov/32482999|journal=Anesthesiology|volume=133|issue=2|pages=304–317|doi=10.1097/ALN.0000000000003377|issn=1528-1175|pmid=32482999}}</ref>
* Muscle relaxant may require reversal if neuromonitoring is used


===Positioning<!-- Describe any unique positioning considerations, including potential intraoperative position changes. If none, this section may be removed. -->===
===Positioning<!-- Describe any unique positioning considerations, including potential intraoperative position changes. If none, this section may be removed. -->===


*Supine
*Supine
*Table typicaly turned 180
*Table turned 180
*Mayfield skull fixation
*Mayfield skull fixation
**Prior to pinning, a remifentanil bolus (2-4mcg/kg) is useful to minimize hemodynamic lability
*Shoulder roll
*Shoulder roll
*Have all lines directed towards patient's feet, where anesthesiologist typically positioned


===Maintenance and surgical considerations<!-- Describe the important considerations and general approach to the maintenance of anesthesia, including potential complications. Be sure to include any steps to the surgical procedure that have anesthetic implications. -->===
===Maintenance and surgical considerations<!-- Describe the important considerations and general approach to the maintenance of anesthesia, including potential complications. Be sure to include any steps to the surgical procedure that have anesthetic implications. -->===


*Remifentanil (2-4mcg/kg) to minimize BP elevations during pinning
*Anesthesia is typically maintained with a combination of a general anesthetic and remifentanil
*Maintenance of anesthesia can be achieved with combination of remifentanil, propofol, and/or volatile agent
*Controlled hypertension (MAPs 90-110) to preserve cerebral perfusion pressure
* Keep PaCO2 around 40 mmHg
**Ephedrine boluses may be preferable to improve cerebral blood flow<ref name=":0" /> and avoid reflexive bradycardia
**Hypocarbia may cause unwanted cerebral vasoconstriction in these patients
**Phenylephrine infusion typically used to maintain CPP during procedure
*Goal net zero fluid balance / Maintain normovolemia
* Normocarbia
*Dexamethasone may be used to decrease PONV
**Cerebral vasoconstriction from hypocarbia may lead to cerebral ischemia in these patients
**Avoid scopolamine for PONV, as it may confound post-op neurologic exams
*Normovolemia
*Mild hypothermia (33-34°C) can be used to decrease CMRO2 and increase the brain's tolerance to ischemia
*Dexamethasone useful to reduce intracranial swelling and decrease PONV
*Confirm pre-incision antibiotics
*Some centers use mild hypothermia (33-34°C) to decrease cerebral metabolic rate and increase tolerance to ischemia
*Avoid long-acting opioids
*Preincision antibiotics
*Phenylephrine infusion typically used to maintain CPP during procedure
*If performing a direct anastomosis
**Phenylephrine typically preferred because it is not arrhythmogenic
**Some centers use mild hypothermia (33-34 °C) for cerebral protection
* Continuous neuromuscular blockade typically not needed
**Establish burst suppression (propofol 1mg/kg) immediately prior to cross clamping of cerebral artery
*Establish burst suppression (i.e. propofol 1mg/kg) immediately prior to cross clamping of cerebral artery for anastomosis
***Theoretical benefit of decreasing cerebral metabolic rate and increasing tolerance for ischemia, though evidence is limited
**A bolus dose of phenylephrine and/or ephedrine typically needed to counterbalance hypotensive effect of propofol.
***A bolus dose of ephedrine and/or phenylephrine typically needed to counterbalance hypotensive effect of propofol
*Aggressive rewarming should start as soon as revascularization is complete


===Emergence<!-- List and/or describe any important considerations related to the emergence from anesthesia for this case. -->===
===Emergence<!-- List and/or describe any important considerations related to the emergence from anesthesia for this case. -->===


*As anesthetic is titrated down, patient's BP will generally increase
*Controlled hypertension typically maintained in postoperative period even if direct anastomosis performed
*Beta-blockers (esmolol, labetalol) and vasodilators (clevideipine, SNP) may be needed to maintain tight BP control during emergence
**Titrate vasoactive infusions down as anesthetic weaned
*Close regulation of blood pressure is essential
**If excessive hypertension develop, beta-blockers (esmolol, labetalol) and/or vasodilators (clevidipine, SNP) may be needed to maintain control during emergence
*Reverse any residual neuromuscular blockade
*Long-acting opioids typically not needed and may interfere with postoperative neurologic examination
*Prophylactic antiemetics should be given before extubation
*Consider IV acetaminophen
*Consider IV acetaminophen
*If patient begins to buck or cough on ETT, extubate or suppress cough reflex (IV lidocaine)
*Consider emergence and extubation on low-dose remifentanil (0.05 mcg/kg/min) to minimize bucking and hemodynamic lability
*Achieve appropriate core body temperature prior to extubation


== Postoperative management==
== Postoperative management==
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*Multimodal pain management
*Multimodal pain management
*Consider post-op acetaminophen
*Consider acetaminophen
*Avoid scalp blocks, as they can interfere with donor vessel blood flow
*Avoid scalp blocks, as they can interfere with donor vessel blood flow


Revision as of 11:33, 29 March 2022

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
1

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. 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

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