Central D2-dopamine receptor occupancy in relation to antipsychotic drug effects: a double-blind PET study of schizophrenic patients

5-HT2 antagonism and EPS benefits: is there a causal connection?

This article examines the hypothesis that 5-HT2 antagonism ameliorates extrapyramidal side effects (EPS) induced by the blockade of D2 dopamine receptors by antipsychotics. Neuroanatomical and neurophysiological data confirm the existence of pathways whereby 5-HT2 antagonism may influence EPS. The experimental data in rodents is marginally positive, but shows that the net effect of 5-HT2 antagonism is dependent upon the precise conditions under which catalepsy is induced. The data in monkeys are mainly negative. Studies in patients who have received adjunct 5-HT2 antagonists in addition to typical neuroleptics lend some support the the hypothesis, but are not conclusive. It is reasoned that 5-HT2 antagonism plays no role in clozapine's freedom from EPS, but it may be responsible for risperidone's decreased propensity to cause EPS. The article concludes that there is support for a conditional role of 5-HT2 in decreasing EPS: 5-HT2 antagonists may delay the onset and decrease the severity of EPS but cannot totally eliminate its occurrence. The implications of these findings for the next generation of combined 5-HT2/D2 antagonists are discussed.

Dopamine D2 receptor occupancy in vivo by the novel atypical antipsychotic olanzapine--a 123I IBZM single photon emission tomography (SPET) study

We have studied striatal D2 dopamine binding in schizophrenic patients treated with the novel atypical antipsychotic drug, olanzapine. 123I iodobenzamide (IBZM) single photon emission tomography (SPET) was used to estimate striatal dopamine D2 receptor binding in vivo. Patients were recruited from a prospective, double blind controlled trial of olanzapine versus haloperidol treatment. In vivo striatal D2 binding data from olanzapine treated patients (n = 6) were compared with previously reported data from typical antipsychotic responsive (n = 10); clozapine (n = 10); and risperidone (n = 6) treated patient groups. Mean % Brief Psychiatric Rating Scale score (BPRS) improvement following olanzapine treatment was 49% (SD 44). The hypothesis that clinical improvement in olanzapine treated patients would be associated with higher mean striatal D2 binding of 123I IBZM (reflecting lower levels of D2 occupancy) than typical antipsychotic (1.25 +/- 0.05) or risperidone (1.24 +/- 0.04) treatment was confirmed. Olanzapine treated patients had similar levels of striatal D2 binding in vivo (1.41 +/- 0.06) as those treated with clozapine (1.49 +/- 0.04). This preliminary evidence suggests olanzapine is another atypical antipsychotic drug in which therapeutic response is not associated with a high degree of striatal D2 receptor occupancy in vivo.

In vivo characteristics of dopamine D2 receptor occupancy by amisulpride in schizophrenia

The relationship between the daily oral dose of the benzamide amisulpride and the striatal D2-dopamine receptors occupancy was investigated in 11 schizophrenic patients using positron emission tomography with 76Br-bromolisuride. The patients were studied before and during chronic treatment with amisulpride over a wide range of doses. The test-retest variability of the method was estimated to be 5.8% in a group of four patients receiving placebo. A curvilinear relationship was demonstrated between the amisulpride doses and the D2-receptor occupancy. A range of 70-80% occupancy of the striatal D2 receptors, suggested as an optimal interval for therapeutic action on positive psychotic symptoms, was obtained with doses of amisulpride ranging between 630 and 910 mg per day, while an occupancy of 85%, suggested to be associated with pronounced extrapyramidal side-effects, was reached with 1,100 mg per day.

Differential actions of typical and atypical antipsychotic drugs on dopamine release in the core and shell of the nucleus accumbens

The effects of acute administration of typical and atypical antipsychotic drugs on extracellular dopamine (DA) concentrations in brain were examined in two subdivisions of the nucleus accumbens (NAC), the core and the shell, which are largely associated with motor control and limbic functions, respectively, by using in vivo differential normal pulse voltammetry in anesthetized, pargyline pretreated rats. The following drugs were studied: haloperidol (0.1 and 1.0 mg/kg), clozapine (1.0 and 5.0 mg/kg), amperozide (1.0 and 2.0 mg/kg), risperidone (0.1 and 1.0 mg/kg), the selective 5-HT2A/5-HT2C receptor antagonist ritanserin (1 mg/kg) and the selective DA-D2/D3 receptor antagonist raclopride (10 and 320 micrograms/kg). Drugs with predominantly high 5-HT2 receptor antagonistic action, such as amperozide and ritanserin, as well as low doses of either risperidone or clozapine increased DA concentrations to a greater extent in the shell than in the core subdivision of the NAC. In contrast, drugs with a more potent D2 receptor antagonistic action, such as haloperidol and raclopride, as well as high doses of either risperidone or clozapine, elicited a larger DA increase in the core than in the shell. Consequently, atypical antipsychotics characterized by potent 5-HT2 receptor antagonism can be differentiated from typical antipsychotic drugs on the basis of their preferential effect on DA transmission in the shell region of the NAC.

Optimal experiment design for PET quantification of receptor concentration

The mathematical models used to analyze positron emission tomography (PET) data obtained for receptor quantitation have many unknown parameters which must be estimated from the data. Obtaining unique and precise estimates of the model parameters from PET data is difficult as a result of the complex interdependence of the parameters. Here the authors address the task of estimating the concentration of myocardial beta-adrenergic receptors using unlabeled and (18)F-labeled S(-)-fluorocarazolol as the receptor ligand. For a three-injection study the authors have optimized the ligand injection times and dosages using the D-optimal criterion for estimating receptor concentration. They found that in optimizing a three-injection experimental design, the dose of ligand in the third injection approaches zero so that the optimal three-injection design is actually a two-injection experiment. Using this optimal experiment, the authors demonstrate estimates of receptor concentration that are almost five times as precise as compared to an empirically designed three-injection experiment.

Review: treatment of schizophrenia. State of the art

As a result of the multifactorial etiopathology of schizophrenia, a treatment strategy combining drug therapy with psychosocial measures is indicated. Depending on the stage of the disease and on the individual condition of the patient, the accent is set alternatively more on one approach or on the other. However, under aspects of symptom reduction and relapse prophylaxis, the therapy with neuroleptics plays the most important role. In order to keep their side effects to a minimum during acute and long term treatment, there is nowadays a trend towards administration of the lowest possible dose. Under this aspect, the use of so called atypical neuroleptics should be taken into consideration. The treatment of negative symptoms, especially in the context of chronic residual syndrome, is still a problem which hasn't been solved to satisfaction. Beside the use of atypical neuroleptics, treatment with antidepressives should be tried. During the long term relapse prophylactic treatment, it is important that not only the criterion "reduction of the relapse rate" but also that of individual risk/benefit relation be considered. Concerning psychosocial therapies, especially focused behavioural therapy approaches, for example educational programs and specific family therapeutical intervention following the high-EE-concept, as well as training of social and cognitive competences have proved useful beside supportive psychotherapy and the whole range of sociotherapeutical measures. However they need further evaluation before they get integrated in routine treatment.

Histamine H1 receptor occupancy in human brains after single oral doses of histamine H1 antagonists measured by positron emission tomography

1. Histamine H1 receptor occupancy in the human brain was measured in 20 healthy young men by positron emission tomography (PET) using [11C]-doxepin. 2. (+)-Chlorpheniramine, a selective and classical antihistamine, occupied 76.8 +/- 4.2% of the averaged values of available histamine H1 receptors in the frontal cortex after its administration in a single oral dose of 2 mg. Intravenous administration of 5 mg (+)-chlorpheniramine almost completely abolished the binding of [11C]-doxepin to H1 receptors (H1 receptor occupancy: 98.2 +/- 1.2%). 3. Terfenadine, a nonsedative antihistamine, occupied 17.2 +/- 14.2% of the available H1 receptors in the human frontal cortex after its administration in a single oral dose of 60 mg. 4. There was no correlation between H1 receptor occupancy by terfenadine and the plasma concentration of the active acid metabolite of terfenadine in each subject. 5. PET data on human brain were essentially compatible with those on H1 receptor occupancy in guinea-pig brain determined by in vivo binding techniques, although for the same H1 receptor occupancy the dose was less in human subjects than in guinea-pigs. 6. The PET studies demonstrated the usefulness of measuring H1 receptor occupancy with classical and second-generation antihistamines in human brain to estimate their unwanted side effects such as sedation and drowsiness quantitatively.

Single photon emission tomography (SPET) imaging of dopamine D2 receptors in the course of dopamine replacement therapy in patients with nocturnal myoclonus syndrome (NMS)

Single photon emission tomography (SPET) permits the in vivo measurements of regional cerebral radioactivity in the human brain following the administration of compounds labeled with photon-emitting isotopes. According to our SPET findings of a reduced binding of [123I]labeled (S)-2-hydroxy-3-iodo-6-methoxy-([1-ethyl-2-pyrrolidinyl]methyl) benzamide (IBZM) (a highly selective CNS D2 dopamine receptor ligand) to D2 dopamine receptors in striatal structures in untreated patients with nocturnal myoclonus syndrome (NMS) it seemed to be of interest to investigate whether there are changes in D2 receptor binding under dopamine replacement therapy or not. We studied the uptake and distribution of [123I]IBZM before and in the course of dopamine replacement therapy in four patients with severe insomnia caused by a nocturnal myoclonus syndrome (NMS). We found an increase of the IBZM binding to D2 receptors in the course of treatment, which was associated with an improvement of sleep quality. Reasons for this are discussed. The [123I]IBZM SPET technique in conclusion offers an intersting tool for in vivo investigations of functional changes in the dopaminergic neurotransmitter system in longitudinal studies.

D2-receptor imaging with [123I]IBZM and single photon emission tomography in psychiatry: a survey of current status

D2-dopamine receptors can be visualized in the human brain in vivo by Single Photon Emission Tomography (SPECT) and the radiolabeled benzamide [123I]IBZM. The present paper reviews the current status of this type of functional brain imaging with respect to basic methodological aspects, data analysis and quantification. The results from published clinical studies in different psychiatric patient populations and normal controls with [123I]IBZM are reviewed. [123I]IBZM-SPECT is a powerful tool for the investigation of D2-dopamine receptor status in psychiatric disorders, different types of drug treatment as well as therapeutic and side effects of pharmacologic agents. However, there still is a need for standardized imaging times and image-processing procedures. Advantages and disadvantages of SPECT with special regard to Positron Emission Tomography (PET) are also discussed.

Haloperidol plasma 'threshold' levels for relapse prevention in schizophrenia: a study with haloperidol decanoate

Forty-eight schizophrenic outpatients treated with flexible doses of haloperidol decanoate were followed up in a naturalistic fashion for 3 years with periodic monitoring of clinical symptoms, side effects and haloperidol plasma concentrations. There was no relationship between plasma level and clinical response, however categorical data analysis showed that patients with plasma levels over 4 ng/ml had a significantly reduced relapse rate compared with patients with plasma levels below this plasma 'threshold' level. This effect could be observed during the first, second as well as third year of treatment. The relapse rate did not change significantly in relation to time (during years 1, 2, 3), when patients with haloperidol plasma levels below and equal to or over 4 ng/ml were considered separately. In patients with haloperidol equal to or over 4 ng/ml, the variability (measured as coefficient of variation %) in the total scores of SAPS and SANS was lower, indicating a better clinical stability. These data are in fairly good agreement with other literature findings showing that an indiscriminate dose reduction strategy during long-term treatment of schizophrenic disorders with haloperidol decanoate should be discouraged, since it leads to an increase in the relapse rate. Before deciding about a dose reduction, clinicians should take into careful consideration some clinically relevant variables (i.e. frequency of previous relapses, severity of symptoms, iatrogenic depression, risk for development of extrapyramidal side effects) for each patient. A better clinical stability during treatment with haloperidol decanoate can be obtained when plasma 'threshold' levels for response are reached.

PET imaging of neuroreceptors in schizophrenia

Among the brain imaging techniques developed during the past two decades positron emission tomography has the highest sensitivity, allowing the analysis of specific neurotransmitter mechanisms in the living human brain. By using a combination of selective ligands labelled with positron emitting isotopes, D1 and D2 dopamine, serotonin 5HT2 and benzodiazepine receptors were examined in schizophrenic patients (DSM-IIIR) and healthy control subjects. With this technique receptor populations could be excellently visualized and quantified with regard to number and binding characteristics in several brain regions. The characteristics of total D1 and D2 dopamine receptor populations in the caudate and putamen did not differ significantly in young drug naive schizophrenic patients and age matched control subjects. On the other hand, there was a highly significant reduction of the D1 signal in high intensity regions of the basal ganglia when [11C]SCH 23390, a selective D1 dopamine receptor antagonist, was used. These results suggest the possibility of a reduced D1 dopamine receptor density in the patch compartment of the basal ganglia in schizophrenia. For 5HT2 and benzodiazepine receptors no major alteration of receptor characteristics was observed in several neocortical and limbic brain regions.

Motor and mental aspects of acute extrapyramidal syndromes

Acute extrapyramidal syndromes (EPS) are one of the major limitations to effective neuroleptic treatment. These disorders have both motor (objective) and mental (subjective) aspects, which must be considered in any evaluation and differential diagnosis of treatment-related side effects. The disorders of akathisia, acute dystonia and parkinsonism have unique features that are best understood in the context of a careful assessment of patient characteristics, drug factors and temporal aspects. Though acute EPS are commonly explained on the basis of dopamine D2 receptor antagonism, data from several lines of study raise important questions about this hypothesis. The roles of receptor subtype specificity, brain region selectivity and ratios of different receptor subtype antagonism are discussed. New and novel antipsychotic drugs with low rates of EPS are important clinical advancements that will increase patients' ability to participate in therapy and rehabilitation and thus improve their quality of life.

Influence of rate of administration of raclopride on akathisia and prolactin response

The D2-dopamine receptor antagonist raclopride was administered to eight healthy male subjects, who had previously experienced akathisia following antipsychotic drugs. The influence of administration rate on onset, severity and duration of akathisia and on prolactin response was studied. Raclopride 3, 5 or 9 mg or placebo (P) was administered as single IV infusions during 10 min (R10 min/3 mg), 1 h (R1h/5 mg) or 4 h (R4h/9 mg) according to a randomized double-blind design. Despite a 24-fold difference in administration rate a similar peak raclopride concentration of about 350 nmol/l was obtained after all three infusions. Three of the eight subjects experienced akathisia following R10 min/3 mg and R1h/5 mg, respectively. After R4h/9 mg seven subjects experienced akathisia of longer duration but not more severe than after the short infusions. The incidence and duration of akathisia seem to be mainly related to the plasma raclopride concentrations over time, whereas the rate of administration might be more important for the severity. A maximal prolactin response was induced which was not markedly affected by the rate of administration.