Antipsychotics hepatic effects

Chlorpromazine is the best known representative of the aliphatic phenothiazines. Although it is considered to be a low potency agent it is still frequently used. It is one of the most sedative antipsychotic agents and is therefore very effective in the treatment of agitated and violent patients. Extrapyramidal effects are seen with a rather low incidence. However it displays marked anticholinergic activity. There have been reports of hepatotoxicity, also in patients with previously normal hepatic function, due to chlorpromazine. Alimemazine and triflupro-mazine are other representatives from this group. 

Tricyclic antidepressants are notorious for their risk to be involved in drug-drug interactions. Additive anticholinergic effects can be expected in combination with antihistamines, antipsychotics and anticholinergic-type anti-Parkinson agents. Hepatic enzyme-inducing agents increase their hepatic metabolism while enzyme inhibitors may potentiate the effects of tricyclics. Concomitant use with monoamine oxidase inhibitors will produce hypertension, hyperpyrexia and convulsions. 

Contraindications for antipsychotic therapy are few they may include Parkinson s disease, hepatic failure, hypotension, bone marrow depression, or use of CNS depressants. Overdoses of antipsychotics are rarely fatal, except for thioridazine, which is associated with major ventricular arrhythmias, cardiac conduction block, and sudden death. For other agents gastric lavage should be attempted even if several hours have elapsed since the drug was taken, because gastrointestinal motility is decreased and the tablets may still be in the stomach. Moreover, activated charcoal effectively binds most of these drugs and can be followed by a saline cathartic. The hypotension often responds to fluid replacement or pressor agents such as norepinephrine. 

This agent has a broad spectrum of activity encompassing several neurotransmitter systems. In this light, clozapine is similar to such phenothiazines as CPZ and thioridazine (519). It is also subject to a hepatic first-pass effect, which produces metabolites with low or unknown pharmacological activity. It has an elimination half-life ranging from 6 to 33 hours and a volume of distribution (V 5 l /kg) lower than most other antipsychotics. This last quality indicates less drug is sequestered in tissue sites. Plasma levels of the parent compound at or above 350 ng/mL may be associated with a better clinical response ( 66, 520). Plasma levels are lower in men than women, especially male smokers (329). 

Taken with alcohol they potentiate the sedative effects and impairment of psychomotor performance. Hepatic enzyme induction by barbiturates or nicotine may reduce plasma levels. Cimetidine may increase levels by enzyme inhi bition. Some antipsychotic drugs may compete for similar metabolic pathways. 

Amoxapine is also rapidly absorbed with protein binding of about 85%. The half-life is variable, and the drug is often given in divided doses. Amoxapine undergoes extensive hepatic metabolism. One of the active metabolites, 7-hydroxyamoxapine, is a potent D2 blocker and is associated with antipsychotic effects. Maprotiline is similarly well... 

Data from short-term clinical trials (6 weeks) suggest that quetiapine may be useful for the management of psychotic disorders in patients who do not tolerate the adverse effects of the typical antipsychotic drugs or clozapine (3). The most common adverse effects of quetiapine were dizziness, hypotension, somnolence, and weight gain. Raised hepatic enzymes have also been reported. In addition, two patients with idiopathic Parkinson s disease and psychosis were treated with quetiapine for 52 weeks (4). Psychotic symptoms were successfully controlled without worsening of motor disability. 

ANTIPSYCHOTICS BUPROPION t risk of seizures. This risk is marked in elderly people, in patients with a history of seizures, with addiction to opiates/cocaine/ stimulants, and in diabetics treated with oral hypoglycaemics or insulin Bupropion is associated with a dose-related risk of seizures. These drugs, which lower seizure threshold, are individually epileptogenic. Additive effects occur when they are combined Extreme caution. The dose of bupropion should not exceed 450 mg/day (or 150 mg/day in patients with severe hepatic cirrhosis)... 

Use of St. John s Wort is complicated by the lack of standardisation of the ingredients. Those who wish to take St. John s Wort should be made aware that it may cause dry mouth, dizziness, sedation, gastrointestinal disturbance and confusion. Importantly also, it induces hepatic P450 errzymes (CYP 1A2 and CYP 3A4) with the result that the plasma concentration and therapeutic efficacy of warfarin, oral contraceptives, some anticonvulsants, antipsychotics and HTV protease/reverse transcriptase inhibitors are reduced. Concomitant use of tr5 to-phan and St John s Wort may cause serotonergic effects including nausea and agitation. 

A mutual increase in serum levels of both thioridazine and paroxetine is evident when these agents are combined. Paroxetine has also been shown to increase haloperidol and perphenazine serum levels, with associated extrapyramidal side-effects. The mechanism is presumably via inhibition of hepatic enzymes. With respect to the second-generation antipsychotic drugs (SCAs), paroxetine at a dose of 20 mg/daily produces a 3-9-fold elevation in plasma risperidone. If paroxetine is administered with clozapine, mean plasma concentrations of clozapine and norclozapine may increase significantly (by about 30%). 

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