The liver is the largest gland in the body and has many functions. One of the most important is detoxification. The liver is responsible for converting chemicals into substances that can be easily excreted by the biliary system or the kidneys. Unfortunately, in its attempts to detoxify the body, the liver is sometimes damaged in the process.
Drug induced hepatotoxicity is more likely if a drug is metabolised by the liver as the metabolites are often reactive and can damage their surroundings. As many of the antiepileptic drugs (AED) are metabolised by the liver, damage to this organ is a concern to veterinarians and to owners of epileptic dogs. In this article the common AEDs and their effect on the liver are discussed. At the end of the article there is a list of the scientific terms used and their definitions.
Phenobarbitone
Trade names - Epiphen (r), Gardenal (r)
Hepatic Metabolism
Phenobarbitone is metabolised by hepatic cytochrome P450. This enzyme is also responsible for metabolising many other substances for example some hormones, some antibiotics and some non-steroidal anti-inflammatory drugs.
Phenobarbitone results in hepatic enzyme induction i.e. it increases the activity of the hepatic enzymes, which has three important consequences.
1) Blood samples may indicate that the hepatic enzymes, alanine transferase (ALT) and alkaline phosphatase (Alk. Phos.) are elevated. This is a reflection of enzyme induction and does not necessarily mean the liver is being damaged. Parameters that reflect liver function, for example bile acids, albumin, cholesterol and bilirubin, are a more useful indication of liver damage (see previous article on liver blood tests, BRAINWAVE ****).
2) Increased enzyme activity means that phenobarbitone will be metabolised quicker in a dog on long term therapy than in a dog which just started phenobarbitone therapy. As a result, after being on a drug for a while, a dog may require a dose increase.
3) Metabolism of other substances that use the cytochrome P450 system may also be quicker and therefore these drugs may be less effective. Substances included in this category are other the benzodiazepams (vallium type drugs), the AED carbamazepine, corticosteroids and betablockers (propranalol).
Combination therapy
If two cytochrome P450 metabolised drugs are given, there may be "competition" between them and as a result, one drug may increase to a toxic concentration. It is therefore advisable to avoid combination therapy of hepatic metabolised drugs. If this is unavoidable then drug concentrations and liver parameters should be monitored. Drugs that have been recognised to cause problems when used in combination with phenobarbitone are primidone, phenytoin, the antibiotic chloramphenicol, the anti-ringworm agent griseofulvin, and the anti-peptic ulcer drug cimetidine.
Hepatotoxicity
Despite phenobarbitone being the most common AED
there is surprisingly little published about its effect on the canine liver,
however, it is generally accepted that there are two forms of hepatotoxic
injury.
1) Chronic damage: - This is characterised by hepatic cirrhosis (replacement of normal liver tissue by scar tissue) and can occur in dogs that have been on phenobarbitone (usually at very high doses) for a long time. It is analogous to liver damage after long term alcohol abuse. It is not known which dogs are more susceptible to this kind of damage meaning that serial monitoring of liver parameters is important.
2) Acute damage: - This is much rarer and often is a result of an idiosyncratic reaction (i.e. the individual dog has an unusual sensitivity to the drug). This is characterised by sudden liver cell death and stasis of the biliary system. It is extremely rare for this to occur when phenobarbitone is given as a sole agent and most reported cases have occurred when dogs have been given combination therapy especially phenytoin and primidone.
Primidone
Trade name - Mysoline (r)
Primidone is metabolised to phenobarbitone therefore
its properties can be regarded as similar to phenobarbitone. However, because
of that extra metabolising step, primidone is significantly more hepatotoxic
than phenobarbitone.
Phenytoin (diphenylhydantoin)
Trade names - Epitard (r) (slow release phenytoin),
Epanutin (r)
Despite being the most popular AED in humans, phenytoin has a bad reputation for hepatotoxocity in the dog. This is because traditional preparations of phenytoin do last long enough in the dog to be effective and as a result, they were often given in combination with phenobarbitone or primidone. It was this combination therapy which was hepatotoxic. Slow release phenytoin (see previous article BRAINWAVE ****) has been designed to be given as a sole agent and therefore combination therapy should not be an issue. Phenytoin is metabolised by the cytochrome P450 system and therefore its hepatotoxicity can be generally regarded as similar to phenobarbitone.
Potassium Bromide (KBr)
KBr is not metabolised by the liver and is excreted
unchanged in the urine. As a result it is the only AED indicated for patients
with hepatic compromise and it is also safe to use in combination with
phenobarbitone and other drugs which use the cytochrome P450 system.
Benzodiazepines
Trade names - diazepam (Vallium (r)), clorazepate (Tranzene (r)), clonazepam (Rivotril (r)), clobazam (Frisium (r)).
Benzodiazepams are well tolerated by dogs and hepatotoxicity has not been recognised, however, they should be avoided if a patient has hepatic encephalopathy (a brain disease which occurs after liver failure). Benzodiazapams are metabolised by the cytochrome P450 route. If they are given in combination with phenobarbitone then they will not last long in the circulation because phenobarbitone increases the activity of the hepatic enzymes.
Sodium valproate (valproic acid)
Trade name - Epilim (r)
Sodium Valproate is metabolised by the liver but not by the cytochrome P450 system. To the author's knowledge, hepatic side effects have not been reported in dogs, either when the drug is used alone or in combination. However, idiosyncratic hepatic failure has been reported in humans especially when on combination therapy that includes sodium valproate. It is therefore recommended that care be taken when using this drug in dogs. In humans, sodium valproate increases blood phenobarbitone concentration and displaces phenytoin from its protein binding sites (it is the phenytoin that is not bound to protein that is able to enter the brain and stop seizures). It is not known whether there is the same effect in dogs but is probably best to assume that it may affect other drugs when used in combination.
Carbamazepine
Trade name - Tegretol (r)
This AED is not indicated for the dog because it does not last long enough in the circulation to be effective. It should not be used in combination therapy, as it is a very potent inducer of the cytochrome P450 system and will accelerate the elimination of phenobarbitone thus rendering that drug less effective. It may also increase the hepatotoxicity of other P450 metabolised drugs.
General recommendations
Liver parameters should be monitored yearly for
any dog receiving AEDs. If the dog is on a combination therapy of drugs
that are metabolised by the liver, or if the dog is on a very high dose
of any individual drug, then six monthly evaluations are recommended.
Definition of scientific terms
Acute: - Persisting for a short time
Bile: - Bitter greenish-brown fluid that aids digestion and is secreted by the liver and stored in the gall bladder.
Biliary: - Of the bile
Chronic: - Persisting for a long time
Excretion: - The process by which a living organism separates and expels waste matter as a result of metabolism.
Hepatic: - Being of the liver
Hepatotoxic: - Agent that damages the liver.
Hepatic cirrhosis: - Chronic disease of the liver marked by death of liver cells and replacement by scar tissue.
Idiosyncratic reaction: - Unusual (typically harmful) reaction to a drug by an individual
Metabolism: -
The chemical processes that occur within a living organism.
References are available on request.