Kidney transplant

Kidney transplantation provides patients with ESRD an opportunity to continue living without the need for frequent dialysis; improving quality of life and reduces mortality. Kidney transplants can either be from a deceased donor (aka cadaveric) or from a living donor, at times genetically related to the patient (aka living related), but not always (aka living-unrelated).

Preoperative management

Patient evaluation

Labs and studies

• CBC (pay attention to Hb for likely chronic anemia secondary to low erythropoietin production)
• BMP (pay attention to K which may be elevated in ESRD)

Operating room setup

• Prepare arterial line setup
• Have mannitol (preferably warmed to prevent crystallization), furosemide, heparin in room
• May need steroid and/or anti-thymocyte globulin prepared

Patient preparation and premedication

• Midazolam, Tylenol

Regional and neuraxial techniques

• Epidural or CSE may be used for postop pain management
• Pre-emergence TAP catheter vs single-shot

Intraoperative management

Monitoring and access

• After induction of anesthesia, a 3-way Foley catheter is placed into the bladder.
• Arterial line for blood pressure monitoring and frequent lab draws
• IVs and arterial lines should avoid the side of AV fistula if present

Induction and airway management

• If K<5.5, succinylcholine may be used as a paralytic, otherwise, cisatracurium or rocuronium may be used

Positioning

• Supine
• Avoid pressure on AV fistula which may lead to thrombosis. Must be carefully padded.

Maintenance and surgical considerations

• Be generous with fluids to maintain a temporarily hypervolemic state prior to diuretics
  • Choice of fluids: balanced electrolyte solution (Plasmalyte, Normosol, or Lactated Ringer) vs normal saline
    • Historically normal saline was the fluid of choice. Recent study showed are lower rates of delayed graft function (30 versus 40 percent in NS group; BEST-Fluids trial^[1]). Additionally, many institutions have changed to balanced electrolyte solutions due to high rates of hyperchloremic metabolic acidosis^[2] seen in large volume NS administration (leading to similar intracellular K+ rates). NS also increased need for vasoactives intraop in this study.
• Avoid hypothermia with forced-air warmer +/- room temperature optimize allograft perfusion (2/2 increased release of catecholamines), bleeding, NMBD duration of action, cardiac events, and SSI rates
• After anastamoses are made, give mannitol (12.5 g-25 g) and Lasix (~100 mg)
• Anticipate prolonged drug effects for renally metabolized/excreted medications
  • Avoid meperidine (which may accumulate as normeperidine > CNS toxicity)
• Renal artery and vein clamps will occur, though generally with minimal effect on overall hemodynamics
• Will be instructed to clamp Foley by surgeons
• May be requested to give steroids and anti-thymocyte antibody to prevent organ rejection

Emergence

• Patients are usually extubated in the OR
• Ensure adequate NMB reversal

Postoperative management

Disposition

• Usually to PACU
• Patients with other concurrent transplants (pancreas, liver, etc) may be monitored in the ICU

Pain management

• PCA
• Epidural
• TAP block

Potential complications

• Fistula thrombosis if improperly padded
• Hemorrhage
• Delayed urine output, dialysis may be necessary until renal function returns
• Bucking or coughing during emergence may lead to forceful tugging on transplanted kidney and disruption of anastomoses

Procedure variants

References