The microvascular alterations in frontal cortex during treatment with antipsychotics: a post-mortem study.

INTRODUCTION: Schizophrenia is the most severe psychiatric illness, with a biological support in the brain. There is evidence that the adequate dopamine balance in the frontal cortex is associated with a better outcome of the disorder, while the alteration of dopamine mechanism at this level may affect the vascular system leading to secondary neuronal alterations. Our study was conducted post-mortem and its objective was to identify the alterations in the neuronal architecture, in the integrity of the microvascular unit in the frontal cortex of patients treated with potent and excessive D2-blocking antipsychotics. MATERIALS AND METHODS: We studied post-mortem sections of the frontal cortex of three patients (two women and one man) diagnosed with schizophrenia or schizophrenia-spectrum disorders and treated with antipsychotics for the last 24 months. The slides were prepared according to the classical histopathological protocols. RESULTS: Various alterations were found at the neural and vascular levels in the frontal cortex. The most significant was the neural loss as the result of severe changes in the microvessels (diameter reduction, hyaline and collagen deposits, edema, pinocytosis and vacuolization). DISCUSSION: The evidences shown in our study highlight the fact that antipsychotics with potent antagonist action on D2 receptors may affect the neurovascular unit and small vessels in frontal cortex by altering the balance vasoconstriction-vasodilatation, thus reducing the blood flow and metabolism and generating structural microvascular changes proportional with the level of apoptosis at this level. The functional integrity of the dopaminergic system in frontal cortex depends on the vascular support and the capabilities of the neurovascular unit and any dysfunction increases the neuronal loss with clinically significant changes. CONCLUSIONS: The pathological data of our study raises the hypothesis for the pathogenic stages at the level of microvessels in the frontal cortex of the patients with schizophrenia or schizophrenia-spectrum disorders treated with D2-blocking antipsychotics: a stage with functional, reversible alterations that may be correlated with the impairments of working memory and presence of extrapyramidal symptoms and a lesional, irreversible stage with significant deterioration of cognition and global functioning. Further studies are needed to verify this hypothesis.

Intramuscular olanzapine versus short-acting typical intramuscular antipsychotics: comparison of real-life effectiveness in the treatment of agitation.

OBJECTIVE: To compare the effectiveness of intramuscular (IM) olanzapine and typical IM antipsychotics in naturalistically treated acutely agitated patients with schizophrenia or acute mania. METHODS: During the acute phase, 2011 inpatients (including emergency settings) were assessed at 2, 24 and 72 h, and 7 days following initial injection and on oral antipsychotic transition. Mean change in agitation was assessed via Positive and Negative Symptom Scale-Excited Component (PANSS-EC) and Clinical Global Impressions-Severity (CGI-S) scores. Response (> or = 40% reduction in baseline PANSS-EC score) was analysed using logistic regression. RESULTS: Significantly greater decreases in PANSS-EC and CGI-S scores were observed in patients receiving IM olanzapine (n = 1294) as their first injection compared with patients receiving other IM antipsychotics (n = 717) (P<0.05; 2 h: effect size 0.1); IM haloperidol treatment (all assessments, P<0.05); and IM zuclopenthixol treatment (2 h, P<0.001). Higher response rates were observed with IM olanzapine compared with other IM antipsychotics at 24 and 72 h, and 7 days (P<0.05). IM olanzapine was associated with fewer extrapyramidal side effects compared with other assessed IM antipsychotics. CONCLUSIONS: IM olanzapine provided somewhat more effective control of acute agitation than other assessed IM antipsychotics.