Difference between revisions of "Transcarotid Artery Endovascular Revascularization"

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{{Infobox surgical procedure
{{Infobox surgical procedure
| anesthesia_type =  
| anesthesia_type = GA or MAC
| airway =  
| airway = ETT vs Natural Airway
| lines_access =  
| lines_access = PIV x 2 (one large bore), A-line
| monitors =  
| monitors = Standard, 5 Lead
| considerations_preoperative =  
| considerations_preoperative = DAPT morning of surgery, beta-blockers, volume status, baseline neuro exam
| considerations_intraoperative =  
| considerations_intraoperative = - Bradycardia/asystole during carotid balloon inflation
| considerations_postoperative =  
- Maintaining SBP goal during flow reversal & monitoring rSO2
- Cerebral Hyperperfusion after stenting (Maintain SBP goal discussed with surgeon)
| considerations_postoperative = - Post-Stent hypotension & bradycardia (incr risk for MI, ischemic stroke, stent thrombosis
- Early neurological assessment after extubation and during the immediate postop period
}}
}}


Also referred to as a TCAR, a transcarotid artery endovascular revascularization is an alternative to carotid endarterectomy for the management of carotid stenosis in patients who are determined to be poor open repair candidates based on high surgical risk or lesion location (distal lesions). Transcarotid artery revascularization (TCAR) is an alternative to trans-femoral stenting and is meant to decrease the risk for micro-embolic strokes through flow reversal through the carotid during stent placement (see below).  
Goal: Restoring laminar blood flow through a stenotic carotid artery narrowed by atherosclerotic or neointimal hyperplastic disease.


Goal: Restoring laminar blood flow through a stenotic carotid artery narrowed by atherosclerotic or neointimal hyperplastic disease.  
Also referred to as a TCAR, a transcarotid artery endovascular revascularization is an alternative to carotid endarterectomy for the management of carotid stenosis in patients who are determined to be poor open repair candidates based on high surgical risk or lesion location (such as a high/distal carotid artery bifurcation or a carotid lesion close to the skull base, that would make carotid endarterectomy (CEA) technically difficult).<sup>1</sup> Transcarotid artery revascularization (TCAR) is an alternative to  transfemoral carotid artery stenting (TF-CAS) and is meant to decrease the risk for micro-embolic strokes through flow reversal through the carotid during stent placement (see below).<sup>1,2,3,4</sup> 


== Overview ==
== Overview ==
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Once connected blood flow from the high pressure CCA to the low pressure femoral vein through the FRS. After flow reversal wires are threaded past the lesion, if indicated pre-dilation of the vessel with balloon angioplasty occurs at this time, followed by deployment of the intralumenal stent. The FRS acts as a filter removing any plaques or disrupted intralumenal, decreasing the risk of micro-embolic strokes.  
Once connected blood flow from the high pressure CCA to the low pressure femoral vein through the FRS. After flow reversal wires are threaded past the lesion, if indicated pre-dilation of the vessel with balloon angioplasty occurs at this time, followed by deployment of the intralumenal stent. The FRS acts as a filter removing any plaques or disrupted intralumenal, decreasing the risk of micro-embolic strokes.  


After successful placement, flow reversal is turned off and blood flow resumes in its normal direction.  Sheaths removed and arteriotomy closed.  
After successful placement, flow reversal is turned off and blood flow resumes in its normal direction.  Sheaths removed and arteriotomy closed. <sup>2,3,4</sup>


Video with overview of steps: TCAR | TransCarotid Artery Revascularization Procedure Narrated Animation | Silk Road Medical | https://www.youtube.com/watch?v=MI2s4rv0dJA
Video with overview of steps: TCAR | TransCarotid Artery Revascularization Procedure Narrated Animation | Silk Road Medical | https://www.youtube.com/watch?v=MI2s4rv0dJA <sup>4</sup>
 
=== Indications: <sup>2,5</sup> ===
General indications for carotid revascularization for stenotic atherosclerotic lesions are the same, regardless of revascularization approach (CEA, TF-CAS, TCAR).
 
- Asymptomatic Carotid Stenosis: Atherosclerotic narrowing of the extracranial ICA of 80-99% without recent stroke or TIA & with life expectancy of >5years.  Of note, asymptomatic chronic compete (100%) occlusion not managed with revascularization procedures.
 
- Symptomatic Carotid Stenosis: Stroke or TIA referable to the appropriate carotid artery vascular distribution within the previous six months AND carotid stenosis > 50%.. Ideally revascularization within 2 weeks of symptom onset.


=== Indications: ===
Stent placement is preferred to carotid endarterectomy if the patient have ANY of a number of comorbid medical disease or anatomical factors (see below) that would complicate the hemodynamic management intraoperatively putting the patient at elevated risk for CV complications (hemodynamic instability / vasoplegia, MI, stroke, arrhythmia, etc) or surgical/airway access.  
Stent placement is preferred to carotid endarterectomy if the patient have ANY of a number of comorbid medical disease or anatomical factors (see below) that would complicate the hemodynamic management intraoperatively putting the patient at elevated risk for CV complications (hemodynamic instability / vasoplegia, MI, stroke, arrhythmia, etc) or surgical/airway access.  


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== Preoperative management ==
== Preoperative management ==


=== Patient evaluation:<!-- Describe the unique and important aspects of preoperative evaluation. Add or remove rows from the systems table as needed. -->===
=== Patient evaluation:===
Assess for the listed conditions/diseases above.  
Assess for the listed conditions/diseases above.  
{| class="wikitable"
{| class="wikitable"
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|
|
|}
|}
- Symptomatic Carotid Stenosis: Stroke or TIA referable to the appropriate carotid artery distribution within the previous six months AND carotid stenosis > 50%.
=== Labs and studies ===
 
All carotid surgeries are considered high-risk & pre-surgical testing should follow AHA/ACA guidelines for high-risk noncardiac surgery.<sup>6</sup>
- Asymptomatic Carotid Stenosis: Atherosclerotic narrowing of the extracranial ICA (>80%) without recent stroke or TIA (Of note, vertigo and syncope are not typical manifestations)
 
=== Labs and studies<!-- Describe any important labs or studies. Include reasoning to justify the study and/or interpretation of results in the context of this procedure. If none, this section may be removed. --> ===
All carotid surgeries are considered high-risk & pre-surgical testing should follow AHA/ACA guidelines for high-risk noncardiac surgery.


* CBC, electrolytes, creatinine, PT/INR/aPTT
* CBC, electrolytes, creatinine, PT/INR/aPTT
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* Per surgical team's preference either CT angiogram v Carotid ultrasound to define anatomy  
* Per surgical team's preference either CT angiogram v Carotid ultrasound to define anatomy  


=== Operating room setup<!-- Describe any unique aspects of operating room preparation. Avoid excessively granular information. Use drug classes instead of specific drugs when appropriate. If none, this section may be removed. --> ===
=== Operating Room Setup<sup>3</sup> ===
TCAR can be preformed under GA or MAC with regional anesthesia. If planning to use MAC, have supplies for full conversion to GA emergently.   
TCAR can be preformed under GA or MAC with regional anesthesia. If planning to use MAC, have supplies for full conversion to GA emergently.   


Have appropriate vasoactive medication available quickly titrate blood pressure intraoperatively  
Have appropriate ''vasoactive'' medication available to ''quickly'' titrate blood pressure intraoperatively  


- Push Medications: consider Epi, NE, Phenylephrine, Nitroglycerin, Esmolol, Nicardipine
- Push Medications: consider Epi, NE, Phenylephrine, Nitroglycerin, Esmolol, Nicardipine
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Additional Medications: Heparin & Protamine  
Additional Medications: Heparin & Protamine  


Run lines & monitors outside of fluoroscopy path to optimize surgical field
=== Patient Preparation & Premedication<sup>3</sup> ===
 
=== Patient preparation and premedication<!-- Describe any unique considerations for patient preparation and premedication. If none, this section may be removed. --> ===
- Verify that patient is taking Dual Antiplatelet Therapy (DAPT; Aspirin / Plavix) & a statin for the last 7 days including the morning of surgery. If dose not taken, discuss giving preOP with surgical team
- Verify that patient is taking Dual Antiplatelet Therapy (DAPT; Aspirin / Plavix) & a statin for the last 7 days including the morning of surgery. If dose not taken, discuss giving preOP with surgical team


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- Verify medication that impact BP control or cause refractory hypotension compromising cerebral blood flow on induction or during flow reversal (ARB/ACEi) have not been taken
- Verify medication that impact BP control or cause refractory hypotension compromising cerebral blood flow on induction or during flow reversal (ARB/ACEi) have not been taken


=== 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 & Neuraxial Techniques1<sup>1, 3</sup> ===
Superficial Cervical Plexus Block  
Superficial Cervical Plexus Block  


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- Benefit in GA cases by decreasing opioid requirement, allows for more rapid neurologic assessment postoperatively  
- Benefit in GA cases by decreasing opioid requirement, allows for more rapid neurologic assessment postoperatively  


== Intraoperative management ==
== Intraoperative management<sup>3</sup> ==


=== Monitoring and access<!-- List and/or describe monitors and access typically needed for this case. Please describe rationale for any special monitors or access. --> ===
=== Monitoring & Access ===
- Standard ASA monitors, 5 lead EKG
- Standard ASA monitors, 5 lead EKG


- Pre-induction arterial line
- Pre-induction arterial line


- PIV x 2 (note vasoactive medications will be in PIVs, make sure lines are stable/running well)  
- PIV x 2 (note vasoactive medications will be in PIVs, make sure lines are well secured & running smoothly)  


- Cerebral oximetry to monitor adequacy of collateral circulation via the Circle of Willis during flow reversal; ideally placed and calibrate while patient is awake.  
- Cerebral oximetry to monitor adequacy of collateral circulation via the Circle of Willis during flow reversal; ideally placed and calibrate while patient is awake.  
Line 147: Line 150:
- Intraoperative ACT monitoring during heparinization (target 250-350; verify goal with surgical team)
- Intraoperative ACT monitoring during heparinization (target 250-350; verify goal with surgical team)


=== 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 & Airway Management<sup>3</sup> ===
- If planning on MAC with natural airway & superficial cervical plexus block, consider sedation with remifentanil infusion.
- If planning on MAC with natural airway & superficial cervical plexus block, consider sedation with dexmedetomidine or remifentanil infusion.


GA: Slow controlled induction, goal to maintain BP at baseline to prevent decreased cerebral perfusion
GA: Slow controlled induction, goal to maintain BP at baseline to prevent decreased cerebral perfusion


=== Positioning<!-- Describe any unique positioning considerations, including potential intraoperative position changes. If none, this section may be removed. --> ===
=== Positioning<sup>2,3</sup> ===
- Supine, neck extended, shoulder roll, head turned away from surgical site  
- Supine, neck extended, shoulder roll, head turned away from surgical site
 
- Run lines & monitors outside of fluoroscopy path to optimize surgical field


=== 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 & Surgical Considerations<sup>3</sup> ===
TIVA/Balanced anesthetic/inhalational anesthetic are reasonable
TIVA/Balanced anesthetic/inhalational anesthetic are reasonable


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- Surgical Exposure: maintain BP at baseline or slightly higher
- Surgical Exposure: maintain BP at baseline or slightly higher


- Carotid Balloon Inflation: Can cause Bradycardia/asystole due to proximity near carotid baroreceptors. Give preventative glycopyrrolate (unless patient has contraindications to having a further elevated HR; baseline HR > 90 or severe CAD)  
- '''Carotid Balloon Inflation''': Can cause Bradycardia/asystole due to proximity near carotid baroreceptors. Give preventative glycopyrrolate (unless patient has contraindications to having a further elevated HR; baseline HR > 90 or severe CAD)  
 
- '''Flow Reversal''': Maintain SBP >160 or 20% above baseline SBP to aid perfusion via Circle of Willis. Closely monitor cerebral oximeter (rSO2) during this time.


- Flow Reversal: Maintain SBP >160 or 20% above baseline SBP to aid perfusion via Circle of Willis. Closely monitor cerebral oximeter (rSO2) during this time.
*If cerebral oximeter (rSO2) decreases by >10%, treat by either increasing FiO2 or augmenting BP up to 20% above baseline (or both). Note that drops in rSO2 of >12% from baseline shown as a reliable, sensitive, and specific threshold for the detection of brain ischemia.


- Stent Deployment: Risk for acute cerebral hyperperfusion. Stop vasopressors, have closed loop communication about BP goal with surgical team and give push vasoactive medications as needed to meet goals (commonly SBP 110-140). Not uncommon to require boluses of nitroglycerin/esmolol/nicardipine to achieve this rapidly  
- Stent Deployment: Risk for '''acute cerebral hyperperfusion'''. Stop vasopressors, have closed loop communication about BP goal with surgical team and give push vasoactive medications as needed to meet goals (commonly SBP 110-140). Not uncommon to require boluses of nitroglycerin/esmolol/nicardipine to achieve this rapidly  


- During Closing, post-stent Hypotension is common due to persistent carotid baroreceptor stimulation and may require vasopressor support to insure adequate cerebral perfusion until hemodynamics stabilize.  
- During Closing, '''post-stent hypotension & bradycardia''' is common due to persistent carotid baroreceptor stimulation & may require vasopressor support to insure adequate cerebral perfusion until hemodynamics stabilize.  


=== Emergence<!-- List and/or describe any important considerations related to the emergence from anesthesia for this case. --> ===
=== Emergence<sup>3</sup> ===
- Avoid bucking due to neck incision & carotid artery puncture.  
- Avoid bucking due to neck incision & carotid artery puncture.  


- Consider remifentanil, dexmedetomidine, or appropriate opioid titration prior to emergence   
- Consider remifentanil, dexmedetomidine, or appropriate opioid titration prior to emergence   
- If hypertensive (BP above goal) after extubation have short acting vasodilatory medications available (nitroglycerin/esmolol), if persistent consider longer acting anti-hypertensive medications (Labetalol/Hydralazine) ; be mindful to monitor closely postoperatively, remains at risk for post-stent hypotension (see above)   


== Postoperative management ==
== Postoperative management ==


=== Disposition<!-- List and/or describe the postoperative disposition and any special considerations for transport of patients for this case. --> ===
=== Disposition ===
- PACU -> IMC for close neurologic and hemodynamic monitoring
Requires close neurologic and hemodynamic monitoring postoperatively


=== Pain management<!-- Describe the expected level of postoperative pain and approaches to pain management for this case. --> ===
Consider ICU vs PACU/IMC.
 
=== Pain management ===
- Opioids  
- Opioids  


- Regional anesthesia  
- Regional anesthesia  


=== Potential complications<!-- List and/or describe any potential postoperative complications for this case. --> ===
=== Potential complications<sup>3</sup> ===


* Embolic stroke : during exposure or due to insufficient flow reversal
* Bleeding due to catheter dislodgement: higher risk during MAC as opposed to GA  
* Stroke due to hypoperfusion / insufficient collateral flow via Circle of Willis; watershed infarct  
*Hematoma: Neck and groin access sites
* Bleeding due to catheter dislodgement: higher risk during MAC as opposed to GA  
*Embolic stroke: More likely during surgical exposure or during device placement secondary to to insufficient flow reversal
* Reperfusion injury: ipsilateral ACA/MCA distribution now seeing higher pressure and flow since no longer obstructed by stenotic segment of carotid artery. Stroke like syndrome which can manifest as encephalopathy or unilateral sensory / motor deficits, seizure, or rarely, intracranial hemorrhage  
*Reperfusion Injury: Acute cerebral hyperperfusion due to ipsilateral ACA/MCA distribution now seeing higher pressure and flow since no longer obstructed by stenotic segment of carotid artery. Stroke like syndrome which can manifest as encephalopathy or unilateral sensory / motor deficits, seizure, or rarely, intracranial hemorrhage
* Stroke due to hypoperfusion (watershed infarction): Possibly due to insufficient collateral flow via Circle of Willis or post-stent hypotension (see Maintenance & surgical considerations)
* Stent Thrombosis: More likely if persistently hypotensive
*Myocardial ischemia/ infarction: Monitor for post-stent hypotension 


*
== References ==
1.) Malas  MB, Leal  J, Kashyap  V, Cambria  RP, Kwolek  CJ, Criado  E.  Technical aspects of transcarotid artery revascularization using the ENROUTE transcarotid neuroprotection and stent system.  '' J Vasc Surg''. 2017;65(3):916-920. doi:10.1016/j.jvs.2016.11.042


== Procedure variants<!-- This section should only be used for cases with multiple approaches (e.g. Laparoscopic vs. open appendectomy). Otherwise, remove this section. Use this table to very briefly compare and contrast various aspects between approaches. Add or remove rows as needed to maximize relevance. Consider using symbols rather than words when possible (e.g. +, –, additional symbols such as ↑ and ↓ are available using the "Ω" tool in the editor). --> ==
2.) Columbo JA, Martinez-Camblor P, O’Malley AJ, et al. Association of Adoption of Transcarotid Artery Revascularization With Center-Level Perioperative Outcomes. ''JAMA Netw Open.'' 2021;4(2):e2037885. doi:10.1001/jamanetworkopen.2020.37885


{| class="wikitable wikitable-horizontal-scroll"
3.) Ankam A, Kinthala S, Madabhushi P. Anesthetic Considerations for Transcarotid Artery Revascularization: Experience and Review of Forty Cases From a Single Medical Center. Cureus. 2020 Dec 24;12(12):e12250. doi: 10.7759/cureus.12250. PMID: 33505816; PMCID: PMC7822093.
|+
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!Variant 2
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|Unique considerations
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|Position
|Supine
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|Surgical time
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|EBL
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|Postoperative disposition
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|Pain management
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== References ==
4.) Silk Road Medical. TCAR surveillance project. Accessed January 1, 2020. <nowiki>https://silkroadmed.com/tcar-surveillance-project/</nowiki>
1.) Columbo JA, Martinez-Camblor P, O’Malley AJ, et al. Association of Adoption of Transcarotid Artery Revascularization With Center-Level Perioperative Outcomes. ''JAMA Netw Open.'' 2021;4(2):e2037885. doi:10.1001/jamanetworkopen.2020.37885


2.) Ankam A, Kinthala S, Madabhushi P. Anesthetic Considerations for Transcarotid Artery Revascularization: Experience and Review of Forty Cases From a Single Medical Center. Cureus. 2020 Dec 24;12(12):e12250. doi: 10.7759/cureus.12250. PMID: 33505816; PMCID: PMC7822093.
5.) Brott TG, Halperin JL, Abbara S, et al. 2011 ASA/ACCF/AHA/AANN/AANS/ACR/ASNR/CNS/SAIP/SCAI/SIR/SNIS/SVM/SVS guideline on the management of patients with extracranial carotid and vertebral artery disease. Stroke 2011; 42:e464.


3.) Silk Road Medical. TCAR surveillance project. Accessed January 1, 2020. <nowiki>https://silkroadmed.com/tcar-surveillance-project/</nowiki>
6.) ACC/AHA Guideline Update for Perioperative Cardiovascular Evaluation for Noncardiac Surgery—Executive Summary A Report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines
[[Category:Surgical procedures]]
[[Category:Surgical procedures]]

Revision as of 08:40, 11 November 2022

Transcarotid Artery Endovascular Revascularization
Anesthesia type

GA or MAC

Airway

ETT vs Natural Airway

Lines and access

PIV x 2 (one large bore), A-line

Monitors

Standard, 5 Lead

Primary anesthetic considerations
Preoperative

DAPT morning of surgery, beta-blockers, volume status, baseline neuro exam

Intraoperative

- Bradycardia/asystole during carotid balloon inflation - Maintaining SBP goal during flow reversal & monitoring rSO2 - Cerebral Hyperperfusion after stenting (Maintain SBP goal discussed with surgeon)

Postoperative

- Post-Stent hypotension & bradycardia (incr risk for MI, ischemic stroke, stent thrombosis - Early neurological assessment after extubation and during the immediate postop period

Article quality
Editor rating
Unrated
User likes
1

Goal: Restoring laminar blood flow through a stenotic carotid artery narrowed by atherosclerotic or neointimal hyperplastic disease.

Also referred to as a TCAR, a transcarotid artery endovascular revascularization is an alternative to carotid endarterectomy for the management of carotid stenosis in patients who are determined to be poor open repair candidates based on high surgical risk or lesion location (such as a high/distal carotid artery bifurcation or a carotid lesion close to the skull base, that would make carotid endarterectomy (CEA) technically difficult).1 Transcarotid artery revascularization (TCAR) is an alternative to transfemoral carotid artery stenting (TF-CAS) and is meant to decrease the risk for micro-embolic strokes through flow reversal through the carotid during stent placement (see below).1,2,3,4

Overview

Surgical procedure:

The common carotid artery (CCA) is exposed via a small incision superior to the clavicle.

A flexible sheath is inserted into the CCA proximal to the lesion being stented and the distal end (outside the vessel) is connected to a flow reversal system (FRS).

At the same time the femoral vein is also being accessed either percutaneously or via surgical exposure, and a 2nd flexible sheath is inserted. The extraluminal end of the femoral sheath is attached to the other end of the flow reversal system (FRS).

Once connected blood flow from the high pressure CCA to the low pressure femoral vein through the FRS. After flow reversal wires are threaded past the lesion, if indicated pre-dilation of the vessel with balloon angioplasty occurs at this time, followed by deployment of the intralumenal stent. The FRS acts as a filter removing any plaques or disrupted intralumenal, decreasing the risk of micro-embolic strokes.

After successful placement, flow reversal is turned off and blood flow resumes in its normal direction. Sheaths removed and arteriotomy closed. 2,3,4

Video with overview of steps: TCAR | TransCarotid Artery Revascularization Procedure Narrated Animation | Silk Road Medical | https://www.youtube.com/watch?v=MI2s4rv0dJA 4

Indications: 2,5

General indications for carotid revascularization for stenotic atherosclerotic lesions are the same, regardless of revascularization approach (CEA, TF-CAS, TCAR).

- Asymptomatic Carotid Stenosis: Atherosclerotic narrowing of the extracranial ICA of 80-99% without recent stroke or TIA & with life expectancy of >5years. Of note, asymptomatic chronic compete (100%) occlusion not managed with revascularization procedures.

- Symptomatic Carotid Stenosis: Stroke or TIA referable to the appropriate carotid artery vascular distribution within the previous six months AND carotid stenosis > 50%.. Ideally revascularization within 2 weeks of symptom onset.

Stent placement is preferred to carotid endarterectomy if the patient have ANY of a number of comorbid medical disease or anatomical factors (see below) that would complicate the hemodynamic management intraoperatively putting the patient at elevated risk for CV complications (hemodynamic instability / vasoplegia, MI, stroke, arrhythmia, etc) or surgical/airway access.

Medical:

  • Age > 75
  • Congestive Heart Failure
  • LVEF < 35%
  • >2 diseased coronaries w/ 70% stenosis
  • Unstable angina or abnormal stress test
  • MI within 6 weeks
  • Need for additional open heart surgery
  • Need for major surgery (including vascular)
  • Uncontrolled diabetes
  • Severe pulmonary disease

Anatomic:

  • Prior head/neck surgery or irradiation
  • Spinal immobility  
  • Restenosis post carotid endarterectomy (CEA)
  • Surgically inaccessible lesion
  • Laryngeal palsy; Laryngectomy
  • Permanent contralateral cranial nerve injury
  • Contralateral occlusion
  • Severe tandem lesions
  • Bilateral stenosis requiring treatment

Preoperative management

Patient evaluation:

Assess for the listed conditions/diseases above.

System Considerations
Airway Neck mobility, ability to tolerated surgical positioning. Prior neck radiation
Neurologic Baseline neurologic exam, post operatively at risk for micro-embolic strokes. Assess if carotid stenosis is symptomatic (see below)
Cardiovascular Exercise tolerance, assess for listed cardiovascular comorbid diseases above
Pulmonary Exercise tolerance
Gastrointestinal
Hematologic Ensure taking dual anti-platelet therapy per surgical team's directions
Renal Current volume status, relative hypovolemia may adversely affect ability to induce HTN during flow reversal
Endocrine Check BG
Other

Labs and studies

All carotid surgeries are considered high-risk & pre-surgical testing should follow AHA/ACA guidelines for high-risk noncardiac surgery.6

  • CBC, electrolytes, creatinine, PT/INR/aPTT
  • T&C; consider requesting to have 2 units of pRBC on hold
  • 12 lead EKG
  • Consider Stress Test (exercise or pharmacology) if:
    • Poor or unknown functional status
    • Calculated risk for major adverse cardiovascular events (MACE) is >1% on the VQI or NSQIP calculator
  • TTE if concerned for CHF, pulmonary HTN, or valvular disease (may impair ability to safely induce needed hypertension intraoperatively)
  • Per surgical team's preference either CT angiogram v Carotid ultrasound to define anatomy

Operating Room Setup3

TCAR can be preformed under GA or MAC with regional anesthesia. If planning to use MAC, have supplies for full conversion to GA emergently.

Have appropriate vasoactive medication available to quickly titrate blood pressure intraoperatively

- Push Medications: consider Epi, NE, Phenylephrine, Nitroglycerin, Esmolol, Nicardipine

- Prepared Drips: Norepinephrine (or preferred short acting vasopressor) spiked & in line, consider having for vasodilatory drip of choice in room

Additional Medications: Heparin & Protamine

Patient Preparation & Premedication3

- Verify that patient is taking Dual Antiplatelet Therapy (DAPT; Aspirin / Plavix) & a statin for the last 7 days including the morning of surgery. If dose not taken, discuss giving preOP with surgical team

- Continue home beta-blockers

- Verify medication that impact BP control or cause refractory hypotension compromising cerebral blood flow on induction or during flow reversal (ARB/ACEi) have not been taken

Regional & Neuraxial Techniques11, 3

Superficial Cervical Plexus Block

- With block procedure can be preformed with MAC

- Benefit in GA cases by decreasing opioid requirement, allows for more rapid neurologic assessment postoperatively

Intraoperative management3

Monitoring & Access

- Standard ASA monitors, 5 lead EKG

- Pre-induction arterial line

- PIV x 2 (note vasoactive medications will be in PIVs, make sure lines are well secured & running smoothly)

- Cerebral oximetry to monitor adequacy of collateral circulation via the Circle of Willis during flow reversal; ideally placed and calibrate while patient is awake.

- Intraoperative ACT monitoring during heparinization (target 250-350; verify goal with surgical team)

Induction & Airway Management3

- If planning on MAC with natural airway & superficial cervical plexus block, consider sedation with dexmedetomidine or remifentanil infusion.

GA: Slow controlled induction, goal to maintain BP at baseline to prevent decreased cerebral perfusion

Positioning2,3

- Supine, neck extended, shoulder roll, head turned away from surgical site

- Run lines & monitors outside of fluoroscopy path to optimize surgical field

Maintenance & Surgical Considerations3

TIVA/Balanced anesthetic/inhalational anesthetic are reasonable

Have clear communication with the surgical team about what stage of the surgery they are in, critical for BP management/patient safety during a TCAR.

- Surgical Exposure: maintain BP at baseline or slightly higher

- Carotid Balloon Inflation: Can cause Bradycardia/asystole due to proximity near carotid baroreceptors. Give preventative glycopyrrolate (unless patient has contraindications to having a further elevated HR; baseline HR > 90 or severe CAD)

- Flow Reversal: Maintain SBP >160 or 20% above baseline SBP to aid perfusion via Circle of Willis. Closely monitor cerebral oximeter (rSO2) during this time.

  • If cerebral oximeter (rSO2) decreases by >10%, treat by either increasing FiO2 or augmenting BP up to 20% above baseline (or both). Note that drops in rSO2 of >12% from baseline shown as a reliable, sensitive, and specific threshold for the detection of brain ischemia.

- Stent Deployment: Risk for acute cerebral hyperperfusion. Stop vasopressors, have closed loop communication about BP goal with surgical team and give push vasoactive medications as needed to meet goals (commonly SBP 110-140). Not uncommon to require boluses of nitroglycerin/esmolol/nicardipine to achieve this rapidly

- During Closing, post-stent hypotension & bradycardia is common due to persistent carotid baroreceptor stimulation & may require vasopressor support to insure adequate cerebral perfusion until hemodynamics stabilize.

Emergence3

- Avoid bucking due to neck incision & carotid artery puncture.

- Consider remifentanil, dexmedetomidine, or appropriate opioid titration prior to emergence

- If hypertensive (BP above goal) after extubation have short acting vasodilatory medications available (nitroglycerin/esmolol), if persistent consider longer acting anti-hypertensive medications (Labetalol/Hydralazine) ; be mindful to monitor closely postoperatively, remains at risk for post-stent hypotension (see above)

Postoperative management

Disposition

Requires close neurologic and hemodynamic monitoring postoperatively

Consider ICU vs PACU/IMC.

Pain management

- Opioids

- Regional anesthesia

Potential complications3

  • Bleeding due to catheter dislodgement: higher risk during MAC as opposed to GA
  • Hematoma: Neck and groin access sites
  • Embolic stroke: More likely during surgical exposure or during device placement secondary to to insufficient flow reversal
  • Reperfusion Injury: Acute cerebral hyperperfusion due to ipsilateral ACA/MCA distribution now seeing higher pressure and flow since no longer obstructed by stenotic segment of carotid artery. Stroke like syndrome which can manifest as encephalopathy or unilateral sensory / motor deficits, seizure, or rarely, intracranial hemorrhage
  • Stroke due to hypoperfusion (watershed infarction): Possibly due to insufficient collateral flow via Circle of Willis or post-stent hypotension (see Maintenance & surgical considerations)
  • Stent Thrombosis: More likely if persistently hypotensive
  • Myocardial ischemia/ infarction: Monitor for post-stent hypotension 

References

1.) Malas  MB, Leal  J, Kashyap  V, Cambria  RP, Kwolek  CJ, Criado  E.  Technical aspects of transcarotid artery revascularization using the ENROUTE transcarotid neuroprotection and stent system.   J Vasc Surg. 2017;65(3):916-920. doi:10.1016/j.jvs.2016.11.042

2.) Columbo JA, Martinez-Camblor P, O’Malley AJ, et al. Association of Adoption of Transcarotid Artery Revascularization With Center-Level Perioperative Outcomes. JAMA Netw Open. 2021;4(2):e2037885. doi:10.1001/jamanetworkopen.2020.37885

3.) Ankam A, Kinthala S, Madabhushi P. Anesthetic Considerations for Transcarotid Artery Revascularization: Experience and Review of Forty Cases From a Single Medical Center. Cureus. 2020 Dec 24;12(12):e12250. doi: 10.7759/cureus.12250. PMID: 33505816; PMCID: PMC7822093.

4.) Silk Road Medical. TCAR surveillance project. Accessed January 1, 2020. https://silkroadmed.com/tcar-surveillance-project/

5.) Brott TG, Halperin JL, Abbara S, et al. 2011 ASA/ACCF/AHA/AANN/AANS/ACR/ASNR/CNS/SAIP/SCAI/SIR/SNIS/SVM/SVS guideline on the management of patients with extracranial carotid and vertebral artery disease. Stroke 2011; 42:e464.

6.) ACC/AHA Guideline Update for Perioperative Cardiovascular Evaluation for Noncardiac Surgery—Executive Summary A Report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines

Top contributors: Alexander Jaksic, Olivia Sutton and ANDREWSTON TING

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