Because propofol administration is intravenous, injection pain is a common side effect with its administration.  Patients often complain of burning upon injection that can last up to 20 seconds.[3]

If propofol infusion syndrome is suspected, the patient will present with metabolic acidosis with elevated lactic acid.  Cardiac derangements may include hypotension, bradycardia, right bundle branch block, cardiac arrhythmias, and asystole.  ECG may show signs of toxicity with Brugada-like pattern a convex ST-elevation in the right precordial leads. Musculoskeletal injury can occur in the form of rhabdomyolysis and myopathy. Other signs may reflect renal and hepatic abnormalities, such as oliguria or hepatomegaly, respectively.  Urine has also been noted to change to have a red or green appearance.[4][7]

Clinical evaluation of the patient is important to look for signs of organ dysfunction especially if the patient is unable to vocalize any discomfort due to the propofol sedation — signs such as dark urine from rhabdomyolysis or hepatomegaly.

Monitoring lab values regularly while upon initiating and during propofol infusion will be essential to ascertain any early signs of PRIS.  Results may reflect multi-organ system dysfunction.  Serum lab values can reveal a high anion gap metabolic acidosis, lactic acidosis, lipemic plasma.  Additionally, there may be elevated serum creatine kinase, serum myoglobin, serum urea, serum potassium, and liver enzymes.  Hypertriglyceridemia is not unexpected due to the lipemic nature of the medication, which can lead to pancreatitis.[2]

It is critical to monitor closely for any cardiac abnormalities.  Any hint of arrhythmias may be an early sign of toxicity, and further tests must take place.  Patients should be on telemetry, and serial EKGs are a consideration. Bradycardia is often the first sign of heart irregularities.

Lidocaine has been used to reduce propofol injection pain.  It is usable either mixed with the propofol or before propofol administration.  Either technique has demonstrated effectiveness.[9]

Due to the severe progression of PRIS, clinicians must have a high degree of suspicion of the disease to properly treat it.  The first step to prevent worsening conditions is to discontinue the propofol infusion.  If the patient still requires sedation in the due to other factors another class of sedative should be substituted.  The patient should then be hemodynamically stabilized.  In severe cases, patients may require advanced cardiorespiratory support such as extracorporeal membranous oxygenation (ECMO).  Severe bradycardia may require cardiac pacing.  Propofol can inhibit calcium channel blockers, thus making the heart resistant to catecholamine interventions.[2]

The next steps to treat PRIS involve resolving the derangements caused by propofol.  Any electrolyte abnormalities need to be either replaced or reduced.  Hyperkalemia is treatable with calcium, insulin, beta2 agonists, or K-binders.  Metabolic acidosis often needs to be normalized with continuous renal replacement therapy (CRRT).  CRRT, therapeutic plasma exchange, hemodialysis, and hemofiltration are options that may help reduce serum levels of propofol, propofol metabolites, and elevated electrolytes.  Additionally, carbohydrate substitution has been shown to support fat metabolism.[10][11]

Due to the many manifestations of PRIS, clinicians need to discern whether the signs and symptoms presented by a patient are due to propofol or another pathophysiologic mechanism. If propofol infusions are overlooked, the patient’s condition may be considered to result from other severe illnesses such as shock, sepsis or renal disease.  Other possibilities are congenital problems (i.e. Brugada Syndrome) or from other medications that may be concomitantly given. If propofol is being administered, then PRIS must remain high on the differential.[12]

PRIS has a poor prognosis, especially if not identified early. As stated before, the mortality rate varies but is about 18 to 32%.  Patients have an improved chance of survival if clinicians are aware of the risks as well as the early signs of the syndrome.

The primary concern with propofol toxicity is the development of fatal conditions.  Hypertriglyceridemia can lead to pancreatitis.  Metabolic acidosis can develop leading to other derangements.  Cardiac failure and rhabdomyolysis are significant concerns for propofol toxicity.  If PRIS continues without any timely intervention, the condition can be fatal.  There are also complications that correlate with complex multimodal treatment options.

A complete patient history is necessary before starting a propofol infusion.  Patients should be encouraged to share any pertinent information that may deter using propofol as a sedative agent.   Any previous reactions with propofol or a known mitochondrial disease could clue clinicians into a high risk of adverse effects.  If there is a concern that high doses of propofol would be required or a patient is at risk of toxicity, another sedative should be considered.

Propofol toxicity is primarily a health care professional’s responsibility to recognize and manage.  First and foremost, the patient must be an appropriate candidate for propofol administration.  Second, education for the clinical team on the proper use of propofol is a requirement; this includes knowing the limits of safe infusion rates.  Pharmacists can check that the correct medication formulation and concentration are ready for use.  The propofol administration should be with pumps with defined maximum infusion limits.  Nursing staff should never let rates exceed 4mg/kg/min.  Regular physical examinations and workup of the patient’s condition should be monitored.  Close supervision of the patient is necessary.  Dietitians may be useful on the team to safely increase carbohydrate load, to help prevent propofol toxicity. If PRIS is suspected, the team must take quick action to stop the propofol infusion and treat it accordingly. All these an interprofessional personnel working together as a coordinated healthcare team can best ensure the safe use of propofol for procedures, as well as reacting to PRIS if it does begin to manifest. [Level 5]