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Anesthetic Considerations for Patients with Liver disease

By Author June 02, 2022  

Anesthetic Considerations for Patients with Liver disease



Preoperative:

1. Assess the Degree of hepatic impairment, Severity, and Hepatic reserve by the Child-Turcotte-Pugh scoring system.

2. AVOID: Premedication, IM injections, Contact with blood or body fluids, unnecessary esophageal instrumentation.

Regional Anesthesia:

-Regional anesthesia might be used when possible in patients with advanced liver disease.

-Coagulopathy (PT & INR) should be considered as a contraindication to some types of regional anesthesia.

-AVOID Epidural a. (Large amounts of amide LAs).

IV Anesthetics:

-Propofol, Ketamine (in hypotensive patients).

Opioids:

-Opioids can also be used successfully in patients with the hepatic disease despite certain pharmacological consequences (decreased clearance and prolonged half-life).

-Fentanyl is considered the opioid of choice because it does not decrease hepatic oxygen and blood supply nor does it prevent increases in hepatic oxygen requirements when used in relatively moderate doses.

-AVOID Morphine (Active metabolite, Prolonged action).

Changed Pharmacokinetics:

-The half-life of lidocaine in patients with liver disease may be increased by more than 300%, for benzodiazepines by more than 100%, etc.

-For drugs binding to albumin, the volume of distribution is decreased and therefore the dose of the drug should be decreased (e.g. sodium pentothal).

Muscle Relaxants:

-Suxamethonium → Prolonged action, Atracurium, Cisatracurium (of choice).

-AVOID Pancuronium, Vecuronium (Hepatic metabolism).

-The volume of distribution of many drugs can be substantially increased (for different reasons, including an increase in gamma globulin and edema), dictating a necessity to increase the first effective dose of the drug.

-However, owing to a decrease in hepatic blood flow and hepatic metabolic and excretory functions, as well as impaired renal function, the clearance of such a drug is decreased, and therefore the effect can be prolonged (e.g. pancuronium).

-Atracurium has a theoretical advantage because its metabolism is not dependent on liver function. Therefore, it is not surprising that the clearance and elimination half-life of atracurium in patients with impaired hepatic and/or renal function is not particularly different from those who have a normal hepato-renal function. However, the volumes of distribution are larger, and, accordingly, the distribution half-lives are shorter in patients with severe hepato-renal dysfunction compared with normal individuals.

-Titration of any relaxant according to the transcutaneous nerve stimulation monitoring is beneficial because the degree of hepatic dysfunction affects the degree of pharmacokinetic disorders.

Inhalational Anesthetics:

-Halothane should be avoided because it leads to the most prominent decrease in hepatic blood flow and oxygen supply and postoperative hepatic dysfunction. In addition, immunologically mediated severe postoperative halothane hepatitis may follow halothane anesthesia.

-Isoflurane seems to be a better choice if an inhalational technique is selected.

-More recently introduced volatile anesthetics, sevoflurane, and desflurane, of them, can be used safely in patients with liver disease, as they preserve hepatic blood flow.

-Nitrous oxide has been used in patients with advanced hepatic disease for many years, and so far has not been incriminated in increased anesthesia-related hepatic postoperative complications. However, a well-known sympathomimetic effect of nitrous oxide and some possibilities of jeopardizing oxygenation render the routine use of nitrous oxide in patients with advanced liver disease undesirable. It is important to remember that long surgical operations under anesthesia with nitrous oxide might result in the accumulation of nitrous oxide in the intestinal lumen with subsequent intestinal distension.

Others:

-Renal function must be maintained by administering proper fluid load (volume and content); (avoid Na+ overload, use glucose-containing solutions for hypoglycemia, albumin 5% is the preferred colloid), and diuretics if needed.

-The parameters of controlled ventilation should be carefully selected to avoid an unnecessary increase in intrathoracic pressure which may impede venous return thereby decreasing cardiac output.

-Monitoring the coagulation state during surgery can be important. The treatment should be based on the results of hematologic monitoring and may include administration of platelets, fresh frozen plasma, cryoprecipitate, and sometimes tranexamic acid.

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