Arteriovenous access for hemodialysis

Arteriovenous access for hemodialysis
Anesthesia type	General vs regional vs local + MAC
Airway	ETT vs LMA vs non-invasive O2
Lines and access	PIV x 1 (opposite side of the surgical limb)
Monitors	Standard, 5-lead EKG, temperature
	Primary anesthetic considerations
Preoperative	Electrolytes, cardiovascular disease
Intraoperative	Fluid management
Postoperative	Perioperative MI, Significant fluid shifts, Electrolyte abnormalities
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Arteriovenous (AV) fistula or arteriovenous graft are surgical procedures creating a vascular access to provide hemodialysis. AV fistula is created by anastomosing the cephalic vein to the radial artery at the wrist level ^[1]. The preferred locations are distal compared to proximal fistula (radiocephalic vs brachiocephalic vs brachiobasilic) due to increased risk of steal syndrome as proximity increases^[2]. AV graft is used when there are no suitable veins in patient. A prosthetic graft is used to provide communication between the radial or ulnar artery to the antecubital or brachial vein or between brachial artery to these veins. Indication for this procedure include long term need for dialysis.

Preoperative management

Patient evaluation


System	Considerations
Neurologic	Assess for any uremic or diabetic neuropathy, uremic central nervous system symptoms, history of cerebrovascular disease, and carotid stenosis
Cardiovascular	Assess for myocardial ischemia, previous myocardial infarction (MI), valvular disease, arrhythmias, heart failure, and peripheral arterial disease as patient's are at increased risk for preoperative MI
Respiratory	Assess for COPD, smoking history, pulmonary edema and other reversible respiratory pathology Smoking cessation at least 8 weeks prior to surgery
Hematologic	Assess for chronic anemia and platelet dysfunction
Renal	Assess volume status, electrolyte imbalance
Endocrine	Assess for diabetes and use of insulin

Labs and studies

BMP to assess renal dysfunction and potassium and glucose
EKG for baseline and abnormal arrhythmias
CBC for anemia and requirement of transfusion

Patient preparation and premedication

IV midazolam dosage for anxiety should be reduced

Regional and neuraxial techniques

Supraclavicular block supplemented with intercostobrachial nerve field block^[3]
Infraclavicular block supplemented with intercostobrachial nerve field block

Intraoperative management

Monitoring and access

Standard ASA monitors
5-lead EKG
PIV x 1

Induction and airway management

If general is chosen, standard induction
- ETT or LMA
  - Succinylcholine use is appropriate if potassium is < 5.5 mEq/L
  - Alternative include cisatracurium
  - Cautious use of rocuronium as its metabolism is partially renal cleared
    - Consider reversal with neostigmine and glycopyrrolate given that sugamadex-rocuronium complexes are cleared renally
If regional is chosen, minimal to deep sedation is reasonable
If local anesthetic and MAC chosen, minimal to deep sedation is reasonable

Positioning

Supine with table turned 90^o
Surgical limb abducted

Maintenance and surgical considerations

Maintenance with volatile anesthetics for general supplemented with short acting opioids
IV propofol, remifentanil , and dexetomidine for regional or MAC
Minimize IV fluids

Emergence

Possible prolonged emergence
- Acid-base status
- Temperature
- Prolonged or incomplete reversal of neuromuscular blockade

Postoperative management

Disposition

PACU
Usually home
Floor if electrolyte or fluid management complications

Pain management

Pain is mild
Multimodal analgesia
- Avoidance of NSAIDs
- IV/PO acetaminophen
- IV opioids
- Regional block
Avoid renally cleared opioids including morphine

Potential complications

Intimal hyperplasia
Thrombosis
Infection
Aneurysm formation
Limb ischemia
Bleeding/hematoma
Nerve damage
Vascular injury
Arrhythmias
Pulmonary edema
LAST

Procedure variants


	Arteriovenous Fistula	Arteriovenous Graft
Unique considerations
Position	Supine with surgical limb abducted	Supine with surgical limb abducted
Surgical time	1-2 hours	1-2 hours
EBL	Minimal	Minimal
Postoperative disposition	PACU and then home	PACU and then home
Pain management	Multimodal	Multimodal
Potential complications		Increase risk of thrombosis, increased rate of infection^[2]

References

↑ Anesthesiologist's manual of surgical procedures. Richard A. Jaffe, Clifford A. Schmiesing, Brenda Golianu (Sixth edition ed.). Philadelphia. 2020. ISBN 978-1-4698-2916-6. OCLC 1117874404. |edition= has extra text (help)CS1 maint: others (link)
↑ ^2.0 ^2.1 Bradley, Tom; Teare, Thomas; Milner, Quentin (2017-08). "Anaesthetic management of patients requiring vascular access surgery for renal dialysis". BJA Education. 17 (8): 269–274. doi:10.1093/bjaed/mkx008. Check date values in: |date= (help)
↑ Stoelting's anesthesia and co-existing disease. Roberta L. Hines, Stephanie B. Jones, Robert K. Stoelting (Eighth edition ed.). Philadelphia, PA. 2022. ISBN 978-0-323-71861-5. OCLC 1280374077. |edition= has extra text (help)CS1 maint: others (link)

Top contributors: Cornel Chiu, Tony Wang and Chris Rishel

[1] Anesthesiologist's manual of surgical procedures. Richard A. Jaffe, Clifford A. Schmiesing, Brenda Golianu (Sixth edition ed.). Philadelphia. 2020. ISBN 978-1-4698-2916-6. OCLC 1117874404. |edition= has extra text (help)CS1 maint: others (link)

[:0-2] 2.0 ^2.1 Bradley, Tom; Teare, Thomas; Milner, Quentin (2017-08). "Anaesthetic management of patients requiring vascular access surgery for renal dialysis". BJA Education. 17 (8): 269–274. doi:10.1093/bjaed/mkx008. Check date values in: |date= (help)

[3] Stoelting's anesthesia and co-existing disease. Roberta L. Hines, Stephanie B. Jones, Robert K. Stoelting (Eighth edition ed.). Philadelphia, PA. 2022. ISBN 978-0-323-71861-5. OCLC 1280374077. |edition= has extra text (help)CS1 maint: others (link)

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