The effect of perazine on the CYP2D6 and CYP2C19 phenotypes as measured by the dextromethorphan and mephenytoin tests in psychiatric patients.

There is evidence that the antipsychotic drug perazine is an inhibitor of CYP2D6. This study aimed at evaluating its effect on CYP2D6 and CYP2C19 activities in submitting psychiatric patients to phenotyping with dextromethorphan and mephenytoin, respectively, substrates of these enzymes, before and during a treatment with perazine. A total of 31 patients were phenotyped with dextromethorphan (CYP2D6) and mephenytoin (CYP2C19) before and after a 2-week treatment with 450 ± 51 mg/day (mean ± sd) perazine. At baseline, five patients appeared to be poor metabolizers (PM) of dextromethorphan and two patients of mephenytoin. The metabolic ratio (MR) of dextromethorphan/dextrorphan as determined in collected urine increased significantly (Wilcoxon; P < .0001) from baseline (0.39 ± 1.38 [mean ± sd]) till day 14 (1.46 ± 2.22). In 19 out of 26 extensive metabolizers (EM) of dextromethorphan, the phenotype changed from EM to PM. This suggests an almost complete inhibition of CYP2D6 by perazine and/or its metabolites. On the other hand, perazine (or some of its metabolites) did seemingly not inhibit CYP2C19. In conclusion, this study suggests that in patients treated with perazine and co-medicated with CYP2D6 substrates, there could be an increased risk of adverse effects as a consequence of a pharmacokinetic interaction.

Synthesis of spiro-2,6-dioxopiperazine and spiro-2,6-dioxopyrazine scaffolds using amino acids in a three-component reaction to generate potential Sigma-1 (σ1) receptor selective ligands.

A library-friendly approach to generate new scaffolds is decisive for the development of molecular probes, drug like molecules and preclinical entities. Here, we present the design and synthesis of novel heterocycles with spiro-2,6-dioxopiperazine and spiro-2,6-pyrazine scaffolds through a three-component reaction using various amino acids, ketones, and isocyanides. Screening of select compounds over fifty CNS receptors including G-protein coupled receptors (GPCRs), ion channels, transporters, and enzymes through the NIMH psychoactive drug screening program indicated that a novel spiro-2,6-dioxopyrazine scaffold, UVM147, displays high binding affinity at sigma-1 (σ1) receptor in the nanomolar range. In addition, molecular docking of UVM147 at the human σ1 receptor have shown that it resides in the same binding site that was occupied by the ligand 4-IBP used to obtain a crystal structure of the human sigma-1 (σ1) receptor.

Cytochrome P450-mediated interaction between perazine and risperidone: implications for antipsychotic polypharmacy.

BACKGROUND: Although clinically widespread, scientific evidence for antipsychotic polypharmacy is still limited. Combining different drugs increases the potential for drug-drug interactions, enhancing the risk of adverse drug reactions. We aimed to unravel the potential pharmacokinetic interactions between risperidone (RIS) and perazine. METHODS: Using a therapeutic drug monitoring database containing plasma concentrations of RIS and its active metabolite [9-hydroxyrisperidone (9-OH-RIS)], we considered two groups: a group of patients under antipsychotic monotherapy with RIS (n = 40) and a group of patients that was comedicated with perazine (n = 16). Groups were matched for demographic characteristics and daily dosage of RIS. Plasma concentrations, concentrations corrected for the dose (C/D) of RIS, 9-OH-RIS and the active moiety (RIS + 9-OH-RIS), as well as the metabolic ratios of concentrations of 9-OH-RIS/RIS, were compared using nonparametric tests. RESULTS: All parameters other than plasma concentrations and the C/D ratio of 9-OH-RIS differed between groups. Median values for plasma concentrations of the active moiety and C/D of the active moiety were higher in the perazine group (P < 0.001 and P < 0.001, respectively). Differences were driven by variations in the plasma concentrations and C/D of RIS, which were higher in the perazine group (P < 0.001 and P < 0.001, respectively). Metabolic ratios were lower in the perazine group (P = 0.003). DISCUSSION: The coadministration of perazine in RIS-medicated patients leads to significantly higher plasma concentrations and C/D values of RIS and its active moiety, and a lower metabolic ratio, reflecting the cytochrome P450 (CYP) 2D6 phenotype. We suggest that the mechanism underlying the effect of perazine on RIS metabolism is based on an inhibition of CYP2D6 and CYP3A4 activity.

Pharmacogenetics of adverse events in schizophrenia treatment: comparison study of ziprasidone, olanzapine and perazine.

The primary aim of the present study was to assess the possible associations between dopaminergic, serotonergic, and glutamatergic system-related genes and adverse events after antipsychotic treatment in paranoid schizophrenia patients. The second aim of the study was to compare the intensity of these symptoms between atypical (ziprasidone and olanzapine) and typical (perazine) antipsychotic drugs. One-hundred and ninety-one Polish patients suffering from paranoid schizophrenia were genotyped for polymorphisms of DRD2, DAT1, COMT, MAOA, SERT, 5HT2A, and GRIK3. The patients were randomized to treatment with perazine, olanzapine or ziprasidone monotherapy for 3 months. The intensity of side effects (changes in body weights and extrapyramidal symptoms (EPS)) was measured at baseline and after 12 weeks of antipsychotic treatment. After 3 months of therapy, the weight increase was the greatest in the group treated with olanzapine and the least in the group treated with ziprasidone. None of the examined gene polymorphisms was associated with the body weight changes. Perazine treatment was associated with the significantly highest intensity of EPS. None of the examined polymorphisms was associated with the changes in extrapyramidal adverse events after antipsychotic treatment. The selected polymorphisms are not primarily involved in changes in body weights and EPS related to antipsychotic treatment in paranoid schizophrenia patients.

Perazine for schizophrenia.

BACKGROUND: Perazine is an old phenothiazine derivative used for the treatment of people with schizophrenia and is reputed to have a low level of extrapyramidal adverse effects. As far as we are aware, its use is limited to Germany, Poland, the former Yugoslavia and the Netherlands. OBJECTIVES: To examine the effects of perazine for those with schizophrenia or related psychoses in comparison with placebo, no treatment or other antipsychotic medications. SEARCH METHODS: We searched the Cochrane Schizophrenia Group Trials Register, which includes relevant randomised controlled trials from the bibliographic databases Biological Abstracts, CINAHL, The Cochrane Library, EMBASE, MEDLINE, PsycLIT, LILACS, PSYNDEX, Sociological Abstracts and Sociofile. We searched the references of all included studies for further trials. We contacted pharmaceutical companies and authors of trials. We updated this search on 16th July 2012. SELECTION CRITERIA: We selected all randomised controlled trials that compared perazine with other treatments for people with schizophrenia or schizophrenia-like psychoses, or both. DATA COLLECTION AND ANALYSIS: The review authors (SL, BH, BHe) independently inspected the citations and where possible abstracts and ordered papers for re-inspection and quality assessment. We independently extracted data. We calculated the risk ratio (RR) and 95% confidence interval (CI) using a random-effects model. For continuous data, we calculated mean differences (MD). We inspected all data for heterogeneity, assessed trials for risk of bias and created summary of findings tables using GRADE. MAIN RESULTS: The review now includes seven trials with a total of 479 participants. In only one trial, with 95 participants, perazine appeared superior to 'active placebo' (trimipramine) at five weeks for the outcome of 'no important global improvement' (n = 95, RR 0.43 CI 0.2 to 0.8, low quality evidence), but there was no statistically significant difference in most measures of mental state. Perazine did not induce more general adverse events than placebo but more participants received at least one dose of antiparkinson medication (n = 95, RR 4.50 CI 1.0 to 19.5, very low quality evidence).Six small trials comparing perazine with other antipsychotics, including 384 participants in total, were incompletely reported and the outcomes were presented in various ways so that meta-analysis was not possible on most occasions. In the six studies, a similar number of participants receiving perazine or comparator antipsychotics (amisulpride, haloperidol, olanzapine, ziprasidone, zotepine) left the studies early (n = 384, RR 0.97 CI 0.68 to 1.38, low quality evidence). The results on efficacy could not be meta-analysed because the authors presented their results in very different ways. No obvious differences in adverse events between perazine and other antipsychotics could be derived from the limited data. Two haloperidol comparisons did not present extrapyramidal side-effects in a way that was suitable for use in meta-analysis, but three small comparisons with the second-generation antipsychotics zotepine and amisulpride showed no higher risk of akathisia (n = 111, RR 0.31 CI 0.1 to 1.1), dyskinesia (n = 111, RR 0.47 CI 0.1 to 3.5), parkinsonism (n = 81, RR 1.21 CI 0.5 2.8) or tremor (n = 40, RR 0.80 CI 0.3 to 2.6) with perazine. AUTHORS' CONCLUSIONS: The number, size and reporting of randomised controlled perazine trials are insufficient to present firm conclusions about the properties of this antipsychotic. It is possible that perazine is associated with a similar risk of extrapyramidal side-effects as some atypical antipsychotics but this is based on small comparisons. This should be clarified in larger, well-designed trials.

The phenothiazine-class antipsychotic drugs prochlorperazine and trifluoperazine are potent allosteric modulators of the human P2X7 receptor.

P2X7, an ATP-gated cation channel, is involved in immune cell activation, hyperalgesia and neuropathic pain. By regulating cytokine release in the brain, P2X7 has been linked to the pathophysiology of mood disorders and schizophrenia. We here assess the impact of 123 drugs that act in the central nervous system on human P2X7. Most prominently, the tricyclic antipsychotics prochlorperazine (PCP) and trifluoperazine (TFP) potently inhibited P2X7-mediated Ca2+ entry, dye permeation and ionic currents. In divalent cation-containing bath solutions or after prolonged incubation, ATP-evoked P2X7 currents were inhibited by 10 µM PCP. This effect was not related to dopamine receptor antagonism. Surprisingly, PCP co-applied with ATP enhanced inward currents in bath solutions with low divalent cation concentrations. Intracellular perfusion with PCP did not substitute for the extracellularly applied drug, indicating that its binding sites are accessible from the extracellular space. Since P2X7 current potentiation by PCP was voltage-dependent, at least one site may be located within the electrical field of the membrane. While the channel opening and closure kinetic was altered by PCP, the apparent affinity of ATP remained unchanged (potentiation) or changed slightly (inhibition). Measurements in human monocyte-derived macrophages confirmed the PCP-induced inhibition of ATP-evoked Ca2+ influx, Yo-Pro-1 permeability, and whole cell currents. Interestingly, neither heterologously expressed rat or mouse P2X7 nor native P2X7 in rat astrocyte cultures or in mouse bone marrow-derived macrophages were inhibited by perazines with a similar potency. We conclude that perazine-type neuroleptics are potent, but species-selective allosteric modulators of human but not murine P2X7 receptors.

[The influence of antipsychotic therapy on the cognitive functions of schizophrenic patients]. / Wplyw leków przeciwpsychotycznych na funkcje poznawcze u pacjentów ze schizofrenia.

AIM: The aim of the present study was twofold: 1. to compare the efficacy of three antipsychotics (ziprasidone, olanzapine and perazine) in schizophrenia 2. to compare the improvement in cognitive functioning between groups treated with the three different neuroleptics. METHOD: A total of 58 Caucasian patients diagnosed with paranoid schizophrenia were recruited into the study group. We used the Polish version of the CIDI (Composite International Diagnostic Interview) to obtain ICD-10 diagnoses. The intensity of psychopathological symptoms was examined using the PANSS. The patients were randomly assigned to treatment with perazine, olanzapine or ziprasidone administered as monotherapy for 3 months. The treatment efficacy was measured as a change in the PANSS (Positive and Negative Syndrome Scale) total score from baseline (T0) to 3 months (T1). The WCST (The Wisconsin Card Sorting Test) was used to measure working memory and executive functions in the evaluated patients. Wilcoxon's and Kruskal-Wallis tests were applied to compare changes in the PANSS scores between the treatment groups. To analyze the cognitive functions, Kruskal-Wallis test for the WCST parameters was used. RESULTS: The three antipsychotics similarly reduced the total PANSS score. The WCST parameters in the 3 groups of examined patients using the Kruskal-Wallis test revealed some differences between the three administered antipsychotics. CONCLUSIONS: Results suggest that the short-term efficacy of the atypical (olanzapine, ziprasidone) and typical (perazine) antipsychotic drugs did not differ. Based on the analysis, a conclusion can be drawn that the three neuroleptics provided similar improvements in cognitive functioning.

[Complete atrioventricular block during lithium therapy within therapeutic range]. / Kompletter AV-Block unter Lithiumtherapie im therapeutischen Bereich.

HISTORY AND CLINICAL FINDINGS: A 69-year-old man came to the emergency unit because of vertigo and presyncope. A bipolar disorder - known since an age of 15 years - has been treated with 2 × 450 mg lithium and 100 mg perazine per day for several years (no other medications). With the exception of a low heart rate (36/min) clinical examination findings were unremarkable. INVESTIGATIONS: Electrocardiography revealed a permanent complete atrioventricular block with a heart rate of 36/min. Echocardiography showed a normal left ejection fraction (EF 65 %). Laboratory tests were mainly unremarkable, particularly the lithium levels (0,7 mmol/l) were within the therapeutic range. TREATMENT AND COURSE: Continuous treatment with orciprenaline stabilized the heart rate at an average of 52/min. After pacing with a provisional pacemaker a permanent pacemaker was implanted without complications, and the symptoms of vertigo and dizziness disappeared. Pacemaker checkup on the following day still showed a complete atrioventricular block with a heart rate of 28/min. CONCLUSION: Complete atrioventricular block secondary to chronic lithium therapy even in therapeutic levels is a rare complication with poor prognosis. Therefore it should be treated consequently.

Some dopaminergic genes polymorphisms are not associated with response to antipsychotic drugs in schizophrenic patients.

BACKGROUND: Therapeutic effects of all clinically used antipsychotics are related to the reduction of dopaminergic transmission in the limbic system. The aim of present study was two-fold. First, efficacy of atypical drugs (ziprasidone and olanzapine) against schizophrenia symptoms was compared to that offered by a typical antipsychotic medication, perazine. Second, associations between some dopaminergic genes polymorphisms and therapeutic response to antipsychotics were assessed in the same group of schizophrenia patients. METHODS: One hundred ninety one Caucasian patients admitted with exacerbation of paranoid schizophrenia were genotyped for polymorphisms of the DRD2 [the ins/del -141C (rs1799732) and exon 8 (rs 71653615)], DRD2/ANKK1 Taq IA(rs 1800497), DAT1 (the 40 bp VNTR), COMT (rs 4680), and MAOA gene (the 30 bp VNTR in promoter). The patients were randomly assigned to the treatment with perazine, olanzapine or ziprasidone given as monotherapy for 3 months. Treatment efficacy was measured from baseline (T0) to T1 (14 days) and T2 (3 months). A retention rate was also assessed at T1 and T2. RESULTS: The three antipsychotics did not differ in terms of reduction of the PANSS score or retention rate at the follow-up. There was no interaction between the investigated polymorphisms and response to the antipsychotic treatment. CONCLUSIONS: The present results suggest that: i) there are no major differences in short-term efficacy or effectiveness of atypical (olanzapine, ziprasidone) and typical (perazine) antipsychotic drugs; ii) the studied polymorphisms are not primarily involved in treatment response to antipsychotics in schizophrenia patients.

Attentional and emotional functioning in schizophrenia patients treated with conventional and atypical antipsychotic drugs.

BACKGROUND: Effectiveness of antipsychotics in treating emotional and cognitive deficits in schizophrenia still remains controversial. The aim of our study was to assess emotional and cognitive functioning in schizophrenic inpatients currently treated with typical antipsychotics (perphenazine, perazine, fluphenazine, and haloperidol) and in another group of schizophrenic inpatients currently on atypical antipsychotics (olanzapine, risperidone, amisulpride, and quetiapine). MATERIAL/METHODS: One hundred patients with DSM-IV schizophrenia or schizoaffective disorders (39 treated using typical antipsychotics and 61 treated with atypical antipsychotics) under naturalistic treatment conditions, and 50 healthy controls were given the following: Test of Everyday Attention, Facial Emotion Recognition Test, Facial Memory Recognition Test, and "Reading the mind in the eyes" Test. RESULTS: Patients with a diagnosis of schizophrenia revealed the following deficits: facial emotion perception, empathy /theory of mind, visual selective attention/speed, attentional switching, and auditory-verbal working memory. Our results show a significant difference between schizophrenic and healthy controls in all tasks, with schizophrenic patients performing worse than controls. Interestingly, our patients on atypical neuroleptics performed similarly compared to schizophrenic patients treated with conventional neuroleptics on all tasks provided. There were some significant relationships between emotional and cognitive deficits and clinical variables. CONCLUSIONS: Our findings remain consistent with other recent studies in which atypical antipsychotics did not show a clear advantage over typical antipsychotics on both emotional and cognitive functioning.

[Physicians' opinion on the use of perazine in the treatment of mental disorders--results of the Delphi consensus study]. / Opinie lekarzy dotyczace perazyny w leczeniu zaburzen psychicznych--wyniki badania metoda delficka.

AIM: Currently, the use of first generation antipsychotics (FGA) is strongly limited. On the other hand, treatment with second generation antipsychotics (SGA) can not be applied in every patient. Therefore, there is an urgent necessity to obtain information about the knowledge and experience of clinicians with regard to safety and efficacy of pernazine, which represents the most widely used FGA in Poland. Due to a striking scarcity of studies on pernazine, authors designed and performed the study, which should provide physicians knowledge arising from daily practice of clinicians included in this study. METHODS: Analysis was performed basing on 142 opinions of 26 physicians who were experienced in the treatment with pernazine. The Delphi method, which relies on concluding from expert opinions was adopted in this study. A three-round Delphi was used in order to yield final conclusions. RESULTS: According to clinicians, pernazine is one of the most cost-effective and well-tolerated FGA. Furthermore, its different profiles of action (anxiolytic and sedative) enable to use pernazine in various indications, as well as in polypharmacotherapy. Referring to a long-term experience, clinicians emphasised the efficacy of pernazine and a high compliance with medication. CONCLUSIONS: Psychiatric treatment should be individualised taking into account not only clinical indices but also patient's preferences and expectations. According to clinicians pernazine is a safe and versatile medication for schizophrenia or other mental disorders and serves as the alternative for SGA.

Autoinduction of the metabolism of phenothiazine neuroleptics in a primary culture of human hepatocytes.

BACKGROUND: The metabolism of phenothiazine neuroleptics (promazine, perazine) in a primary culture of human hepatocytes after pretreatment of cells with those neuroleptics was studied. METHODS: The hepatocytes were pretreated with 25 µM promazine or perazine for 96 h. Then, the cells were incubated for 2, 4, 6, 8 and 24 h in the presence of neuroleptics. At the indicated time points, concentrations of phenothiazines and their metabolites (5-sulfoxides and N-desmethyl derivatives) were measured in the culture medium using HPLC with UV detection. RESULTS: Pretreatment of the primary culture of human hepatocytes with promazine or perazine resulted in accumulation of their metabolites in the culture medium. Such an effect was not observed in the case of control cultures (not pretreated with neuroleptics). CONCLUSION: The obtained results suggest that the tested phenothiazines may stimulate their own metabolism by inducing CYP1A2, CYP3A4 and CYP2C19 isoforms.

Management of marked liver enzyme increase during olanzapine treatment: a case report and review of the literature.

OBJECTIVES: Atypical antipsychotics commonly cause isolated asymptomatic increase in the aminotransferase levels. Furthermore, the strategy in the choice of antipsychotic agent must take into account hepatic tolerance because of the non-negligible incidence of liver disorders among the psychiatric population. The aim of this article is to better understand the strategy to adopt during an increase of liver enzymes in a psychotic patient under atypical neuroleptic treatment. METHOD: A clinical case is presented of a female patient treated for psychotic decompensation with increase of liver enzymes (Olanzapine). Her treatment was changed several times over a period of 7 years and laboratory investigations were conducted simultaneously. RESULTS: It seems that the increase of liver enzymes is slightly more frequent with Clozapine and Olanzapine than Risperidone, Perazine and Haloperiol. CONCLUSION: The different mechanisms of hepatotoxicity are unknown at present but it seems that the hypersensibility mechanism is likely to be dose dependent. During an increase of enzymes, it is important to combine a control of hepatic enzymes with a reduction of neuroleptic dosage. Discontinuation should be considered if a continued increase of enzymes above certain values is shown or if a clinical symptom appears. We note also that some risk factors were found, including geriatric or pedopsychiatric age, obesity, and association with active ingredients or addictive substances responsible for hepatic disorders.

[Perazine in the treatment of psychotic disorders--research review]. / Perazyna w leczeniu zaburzen psychotycznych--przeglad badan.

The author reviewed the relatively poor literature on the topic and its key clinical trial reports on perazine, a classical antipsychotic most frequently prescribed in Poland for psychoses, especially for schizophrenia. Based mainly on the Leucht and Hartung's metaanalysis as well as on other authors' trials with broader context of typical and atypical neuroleptics comparisons, it could be concluded that the perazine bearing balanced profile of psychotropic action (antipsychotic, anti-autistic and sedative) has also some atypical features which explain its broad applications in clinical practice. Not without a meaning are also a few dozen-fold lower costs of treatment, which are even more meaningful when costs of necessary laboratory tests required for monitoring atypical antipsychotics use are taken into consideration.

The role of CYP2D6 and TaqI A polymorphisms in malignant neuroleptic syndrome: two case reports with three episodes.

Malignant neuroleptic syndrome (MNS) is a serious and potentially fatal side-effect of neuroleptic treatment. Beside antipsychotic drugs, other psychotropic drugs such as antidepressants and lithium carbonate can cause this life threatening side-effect. Underlying mechanism of this side-effect is still unknown and debated. So far some risk factors have been identified, with clinical observations and recent pharmacogenetic research suggesting (with inconsistent findings) correlation between genetic mechanisms and predisposition to MNS. Polymorphisms of CYP2D6 enzyme through which most psychotropic drugs are metabolized and TaqIA DRD2 which is target for antipsychotic drugs could be the link between pharmacogenetic factors and potential for development of MNS. In this paper we present two case reports with clinical presentation of three consecutive MNS. One patient developed MNS while he was taking combination of drugs: first time haloperidol, promazine and fluphenazine, second time fluphenazine and perazine and third time clozapine, promazine and valproic acid consecutively. The other patient developed MNS while taking following combination of drugs: first time haloperidol and lithium carbonate, second time risperidone and third time clozapine consecutively. Pharmacogenetic analysis for CYP2D6 and TaqI A DRD2 polymorphisms for both patients was done. Genotypisation of CYP2D6*1*3*4*5*6 in both patients showed no evidence of poor metabolizer phenotype. On the other hand, first patient was heterozygous for CYP2D6*4 (genotype *1/*4). CYP2D6 polymorphisms could have clinical significance because may lead to toxicity and unwanted side-effects in standard usual antipsychotic dose ranges. Analysis Taql A DRD2 polymorphism for first patient showed that he is heterozygous for A1 allele (genotype A1A2) which is commonly associated with predisposition to MNS. According to our literature three consecutive MNS are rarely described, and incidence of MNS generally is too low to perform clinical research. Many patophysiological mechanisms may probably underlie this complex and potentially fatal syndrome, still unknown etiology. But, genetic mechanisms could be significant. Further pharmacogenetic research, findings and analysis in patients who develop single or repeated MNS are strongly recommended. In long term, pharmacogenetic analysis, implemented in daily clinical practice, could help in prevention of this extremely serious side-effect.

Perazine at therapeutic drug concentrations inhibits human cytochrome P450 isoenzyme 1A2 (CYP1A2) and caffeine metabolism--an in vitro study.

The aim of the present study was to estimate the inhibitory effect of perazine, a phenothiazine neuroleptic with piperazine structure in a side chain, on human CYP1A2 activity measured as a rate of caffeine 3-N- and 1-N-demethylation. Moreover, the influence of perazine on other caffeine metabolic pathways such as 7-N-demethylation (CYP1A2, CYP2C8/9, CYP3A4) and 8-hydroxylation (CYP3A4, CYP1A2, CYP2C8/9) was also determined. The Dixon analysis showed that in both human liver microsomes and Supersomes CYP1A2 perazine potently and to a similar degree inhibited caffeine 3-N-demethylation (K(i) = 3.5 microM) and 1-N-demethylation (K(i) = 5 microM). Perazine moderately diminished the rate of caffeine 7-N-demethylation in Supersomes CYP1A2 (K(i) = 11.5 microM) and liver microsomes (K(i) = 20 microM), and attenuated C-8-hydroxylation (K(i) = 15.5 microM) in Supersomes CYP1A2. On the other hand, perazine weakly inhibited caffeine C-8-hydroxylation in liver microsomes (K(i) = 98 microM). About 80% of basal CYP1A2 activity was reduced by the therapeutic concentrations of perazine (5-10 microM). The obtained results show that perazine at its therapeutic concentrations is a potent inhibitor of human CYP1A2. Hence, taking account of CYP1A2 contribution to the metabolism of endogenous substances (steroids), drugs (xanthine derivatives, phenacetin, propranolol, imipramine, phenothiazine neuroleptics, clozapine) and carcinogenic compounds, the inhibition of CYP1A2 by perazine may be of physiological, pharmacological and toxicological importance.

[Drug-induced agranulocytosis--case reports and literature review]. / Agranulocytozy polekowe--opis przypadków i przeglad pismiennictwa.

Drug-induced agranulocytosis is believed to be an extremely rare adverse drug reaction. It can be caused by various drugs, but it is mostly described in patients taking antithyroid drugs, antipsychotics and antibiotics. Four cases of patients treated for drug-induced agranulocytosis from January 2006 to March 2007 were described. In two cases agranulocytosis appeared in the course of therapy with methimazole. In one patient agranulocytosis was caused by perazine and by promazine or olanzapine in the last one. In all of the cases the leading symptom was fever, three of our patients had changes of mouth mucosa. All patients were treated with betalactam antibiotics. Granulocyte colony-stimulating factor (G-CSF) was not used in anyone. The recovery of white blood cell count and granulocyte count in all of the patients was detected in the first ten days of hospitalization.

Validation of derivative spectrophotometry method for determination of active ingredients from neuroleptics in pharmaceutical preparations.

First (DI) and second (D2) order derivative spectrophotometric method with an application of base line to peak technique was used for determination of active pharmaceutical ingredients (API) at two wavelengths: fluphenazine (D1 at lambda = 251 nm and lambda = 265 nm, D2 at lambda = 246 nm and lambda = 269 nm), pernazine (D1 at lambda = 246 nm and lambda = 258 nm, D2 at lambda = 254 nm and lambda = 262 nm), haloperidol (DI at = 235 nm and lambda = 253 nm, D2 at lambda = 230 nm and lambda = 246 nm), and promazine (D1 at lambda = 246 nm and lambda = 251 nm, D2 at lambda = 255 nm and lambda = 262 nm). Linear dependence of derivative values on analyte concentration is maintained in a range 3.12 microg x mL(-1) - 44.80 microg x mL(-1). Detection and determination limits are in the range 0.51 - 3.23 microg x mL(-1) and 1.27 microg x mL(-1) - 9.80 microg x mL(-1), respectively. Determination results of drug constituents are very accurate. Recovery percentage is in a range 95.50% - 103.60%.