Neuroleptics extrapyramidal side effects

Trihexyphenidyl (Artane) and benztropine (Cogentin) are prescription drugs used in the treatment both of Parkinson s disease and the extrapyramidal side effects produced by neuroleptic medication. They are occasionally abused for their mind-altering properties, which occur at toxic doses (Perry et al. 1978). Abusers often try to obtain these drugs by false representation of extrapyramidal symptoms, which are claimed to result from the use of phenothi-azines or other neuroleptics (Rubinstein 1978). 

Importantly, they achieve this without inducing extrapyramidal side-effects or increasing prolactin secretion, which are real problems with neuroleptics. These results have been borne out by preliminary clinical trials of buspirone, used in combination with neuroleptics, and several novel S-HTja agonists (e.g. BSF 190555) are currently under development for this clinical application (Meltzer 1999). 

Chlorpromazine had been shown to produce a tranquil state in animals and since it had a similar effect in humans it became known as a major tranquiliser but the term is rarely used today. Sometimes the drugs used to treat schizophrenia are called anti-psychotics but more commonly neuroleptics. Leptic means to activate (take hold of) and in animals these compounds produce a state of maintained motor tone known as catalepsy. This is an extrapyramidal effect and in schizophrenics the neuroleptics can cause a number of extrapyramidal side-effects (EPSs) including Parkinsonism. The new term neuroleptic is unsatisfactory as a description of clinically useful drugs. It really describes a condition (catalepsy) seen in animals and is more indicative of a compound s ability to produce EPSs than to treat schizophrenia. Antipsychotic is more descriptive but could imply a more general efficacy in psychoses than is the case. It would seem more appropriate to call a drug that is used to treat schizophrenia an antischizophrenic just as we use the terms antidepressant or antiepileptic irrespective of how the drug works. Despite such personal reservations, the term neuroleptic will be used in this text. 

THE EXTRAPYRAMIDAL SIDE-EFFECTS (EPSs) OF NEUROLEPTIC DRUGS... 

Non-motor signs of the disorder are also treatable with symptomatic medications. The frequent mood disorder can be treated with standard antidepressants, including tricyclics (such as amitryptiline) or serotonin reuptake inhibitors (SSRIs, such as fluoxetine or sertraline). This treatment is not without risks in these patients, as it may trigger manic episodes or may even precipitate suicide. Anxiety responds to benzodiazepines, as well as to effective treatment of depression. Long-acting benzodiazepines are favored over short-acting ones because of the lesser abuse potential. Some of the behavioral abnormalities may respond to treatment with the neuroleptics as well. The use of atypical neuroleptics, such as clozapine is preferred over the typical neuroleptics as they may help to control dyskinesias with relatively few extrapyramidal side-effects (Ch. 54). 

Many DA receptor antagonists (neuroleptics) for treating psychoses (for example, schizophrenia) have become efficient medicines. However, most of them induce severe extrapyramidal side-effects (EPS) akin to parkinsonian symptoms and also, more seriously, they induce tardive dyskinesias (TD). There is a need for improvements in the neuroleptics in the clinic. The substituted benzamides are D2 antagonists, some of which display a high degree of limbic selectivity. Such a regional selectivity has been suggested to be beneficial from the side-effects point of view [11,12]. 

As a group, these medications have been known by several names. They have been called major tranquilizers. This is not altogether inaccurate these medications do calm or tranquilize. Physicians still use this name sometimes, especially when they re reluctant to use the word psychotic in a discussion with a new patient or his/her family. These medications have also been called neuroleptic, literally meaning seize the nerve cell, in the original Greek. This term is derived from the potential for the medications to cause extrapyramidal side effects. Finally, and most accurately we contend, these medications are called antipsychotics. 

Kumra, S., Jacobsen, L.K., Lenane, M., Smith, A., Lee, P., Malanga, C.J., Karp, B.I., Hamburger, S., and Rapoport, J.L. (1998a) Case series spectrum of neuroleptic-induced movement disorders and extrapyramidal side effects in childhood-onset schizophrenia. J Am Acad Child Adolesc Psychiatry 37 221-227. 

Extrapyramidal side effects (EPS) associated with SSRI medications used as single agents were reported as early as 1979 (Meltzer et ah, 1979). Since then, several case reports have been published on use of fluoxetine (Elamilton and Opler, 1992), paroxetine (Nicholson, 1992), and sertraline (Opler 1994). The SSRI medications in combination with neuroleptics can cause severe EPS (Tate, 1989 Ketai, 1993) above and beyond what may be associated with increased levels of antipsychotic medications (Goff et ah, 1991), and are perhaps related to pharmacokinetic drug interactions. 

Fluphenazine, a typical neuroleptic of the phenothi-azine class, has been less widely used for treatment of tics than haloperidol or pimozide. A controlled trial of haloperidol, fluphenazine, and trifluoperazine found comparable tic-reducing efficacy, but greater sedation and extrapyramidal side effects for haloperidol fluphenazine was the best tolerated (Borison et al., 1982). In an open-label trial with 21 subjects who had an unsatisfactory response to haloperidol, fluphenazine had a superior side effect profile to that of haloperidol in the dose range employed (mean dose of fluphenazine, 7 mg/day, range 2-15 mg/day) (Goetz et al., 1984). In this group selected for an unsatisfactory response to haloperidol, 11 of the 21 subjects (52%) had a better response to fluphenazine than haloperidol, 6 subjects had a comparable response, and 2 subjects preferred haloperidol. 

Atypical neuroleptics. Because of the limited effectiveness and safety of conventional neuroleptics in TS, clinicians have turned to a new generation of neuroleptics that have been introduced for the treatment of schizophrenia. Risperidone, a member of a class of antipsychotics that blocks both DA and serotonin receptors, has been established as superior to placebo and equal, or superior, to haloperidol in the treatment of schizophrenia (Chouinard et al. 1993 Marder and Meibach 1994]. Risperidone has a more favorable side-effect profile than that of conventional neuroleptics and may have less potential for producing tardive dyskinesia. Compared with haloperidol, fewer extrapyramidal side effects are observed with risperidone in doses of 6 mg/ day or less. As encouraging reports appear in the literature (Lombroso et al. 1995 Stamenkovic et al. 1994 van der Linden et al. 1994], risperidone is currently being widely used by clinicians to treat tic disorders. 

Antipsychotic medications, previously referred to as major tranquilizers or neuroleptics, are effective for the treatment of a variety of psychotic symptoms—such as hallucinations, delusions, and thought disorders—regardless of etiology. The term major tranquilizer is a misnomer because sedation is generally a side effect, and not the principal treatment effect. Similarly, the term neuroleptic is based on the neurological side effects characteristic of older antipsychotic drugs, such as catalepsy in animals and extrapyramidal side effects (EPS) in humans. 

Farde L, Nordstrom A-L, Wiesel FA, et al. PET analysis of central D and D2 dopamine receptor occupancy in patients treated with classical neuroleptics and clozapine relation to extrapyramidal side effects. Arch Gen Psychiatry 1992 49 536-544. 

The D2 receptor types, besides being subdivided into D3 and D4 types, are further divided into the D2 long and D2 short forms. D2 antagonists, in addition to virtually all therapeutically active neuroleptics, also include such novel drugs as raclopride, eticlopride and sniperone while quinpirole is an example of a specific D2 receptor agonist. The latter drugs are not available for therapeutic use. A malfunction of the D2 receptors has been associated with psychosis, extrapyramidal side effects and hyperprolactinaemia. 

The neuroleptics that are widely available may be divided into two general categories, those with low potency (such as chlorpromazine and thioridazine) and those with high potency (exemplified by haloperidol, trifluoperazine and pimozide). The former groups have a lower propensity to cause extrapyramidal side effects but are more sedative and likely to cause postural hypotension and have anticholinergic side effects. In vitro studies have shown that chlorpromazine has an affinity for all five types of dopamine receptor and has some preference for D2 and D3 receptors. By contrast, haloperidol is more potent than chlorpromazine for the D2, D3 and D4 receptors with a low affinity for the D and D5 receptors. 

In addition to their affinity for dopamine receptors, which appears to be essential for their therapeutic activity, all neuroleptics in current clinical use have affinities for other types of neurotransmitter receptor. Mention has already been made of the side effects of the weaker neuroleptics such as chlorpromazine for histamine-1, muscarinic and alpha-1 adrenoceptors. However, it is now apparent that many of the newer, atypical, neuroleptics have an affinity for subtypes of 5-HT (particularly 5-HT2A) receptors which may be beneficial in reducing the frequency of extrapyramidal side effects. Thus neuroleptics may now be broadly classified into those which are selective antagonists of D2 receptors, those that are D2 and D3 receptor antagonists, those blocking both D and D2 receptors and, a most important group of novel neuroleptics, those that are antagonists of 5-HT2 and D2 receptors. 

An important breakthrough in the development of novel neuroleptics arose over 25 years ago with the discovery of the dibenzazepine neuroleptic clozapine. This neuroleptic was novel because it attenuated both the positive and negative symptoms of schizophrenia without causing extrapyramidal side effects or elevating serum prolactin concentrations, effects which characterize most typical neuroleptics such as chlorpromazine and haloperidol. 

In clinical studies, remoxipride has been shown to improve both positive and negative symptoms of schizophrenia and may have a place in the treatment of resistant schizophrenic patients. In addition such side effects as the neuroleptic-induced deficit syndrome, sedation and extrapyramidal side effects are apparently absent in patients treated with the drug. 

Regarding the extrapyramidal side effects commonly found after treatment with the "classical neuroleptics, PET studies of schizophrenia patients have shown that such drugs occupy 70-80% of D2 receptors in the basal ganglia at therapeutic doses. It has been calculated that a D2 receptor occupancy in the basal ganglia of approximately 80% carries a high risk that the patient will develop extrapyramidal side effects. Furthermore, Canadian studies have shown that the occurrence of extrapyramidal side effects was a major predictor for the subsequent development of tardive dyskinesia. 

The butyrophenones and diphenylbutylpiperidines differ from the phenothia-zines and thioxanthines in that they are not tricyclic structures. The first butyrophenone to be developed was haloperidol, and this is the most widely used, potent neuroleptic. Unlike many of the phenothiazines, these neuroleptics largely lack antihistaminic, anticholinergic and adrenolytic activity they are also non-sedative in therapeutic doses. Their potent antidopaminergic activity renders them likely to cause extrapyramidal side effects. Of the various butyrophenones shown in Figure 11.10, benperidol has been selectively used to suppress asocial sexual behaviour. 

The diphenylbutylpiperidines are structurally related to the butyrophenones and have essentially similar properties. Pimozide is the most well-established member of this series and is a potent neuroleptic that, like other potent neuroleptics, is likely to cause extrapyramidal side effects. 

Sulpiride is a member of a series of neuroleptics, the benzamides, of which the antiemetic drug metoclopramide is another example. The benzamides have a lower propensity to cause extrapyramidal side effects, probably because they show a high degree of selectivity for the D2 dopamine receptors. 

Neuroleptics have been the group of drugs most widely recommended for delusional states. Of the first-generation neuroleptics, the sedative, cognitive impairing and extrapyramidal side effects are likely to be particularly prominent in the elderly. The introduction of the atypical neuroleptics should improve the treatment of these disorders as they are generally better tolerated due to their improved side-effect profile. 

Lithium + typical neuroleptics —> increased extrapyramidal side effects and possibly increased neurotoxicity. 

Many earlier reports considered extrapyramidal side effects unavoidable when treating patients with neuroleptics. There appeared to he a parallel between antipsychotic action and the incidence of unwanted neurological effects. However, the development of newer neuroleptics has changed this view. Drugs like clozapine have a high antipsychotic potency and yet produce few neurological problems. It has therefore been proposed that the DA receptors involved in the beneficial actions of neuroleptics in the treatment of psychiatric disorders are situated in mesolimbic areas, such as the nucleus accumbens, whereas the extrapyramidal effects are mediated by striatal receptors. 

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