We also discuss several plausible developmental mechanisms that could link Selleck WZB117 a putative genetic variant to altered cortical connectivity and illustrate how synaesthesia could be an informative model to investigate how patterns of connectivity between cortical areas are established.”
“Recent evidence suggests that schizophrenia reflects a neurodegenerative process. The studies have not compared brain change patterns in male and female patients with schizophrenia or examined the relation of these patterns to patient subgroups defined by specific symptom domains. Maximum Total Brain Volume (TBVmax), total cranial (TCV),

total brain (TBV), sulcal CSF (sCSF), and ventricular (VV) volumes were measured in 66 normal controls (32 females, 34 males), and 85 patients with schizophrenia (21 females, 64 males). Sixty-six patients were categorized as nondeficit and 19 as deficit patients. Patients had smaller TBV and larger

VV than normal controls. Patients also showed significant excessive brain volume loss after, but not before, TBVmax was achieved compared with normal controls. Although male patients had larger brain volume loss compared with male normal controls than female patients had compared with female normal controls, there were no significant gender x diagnosis interactions. Male patients with the deficit syndrome, but not those without the deficit syndrome, had significantly larger ventricles than normal controls. There were no other significant deficit/nondeficit differences. The present study suggests that brain volume loss in schizophrenia CHIR-99021 occurs after TBVmax and that male and female patients and deficit and nondeficit patients with schizophrenia do not demonstrate any differences in the time course of their brain volume reductions. (c) 2007 Elsevier Ireland

Ltd. All rights reserved.”
“Phenylketonuria (PKU) is a common genetic disorder Androgen Receptor antagonist arising from a deficiency of phenylalanine hydroxylase. If left untreated, the accumulation of phenylalanine leads to brain damage and neuropsychological dysfunction. One of the abnormalities found in hyperphenylalaninemic patients and a mouse model of PKU is an aminergic deficit in the brain. We previously showed correction of hyperphenylalaninemia and concomitant behavioral recovery in PKU mice after liver-targeted gene transfer with a viral vector. Here, we addressed whether such a functional recovery was substantiated by an improved amine metabolism in the brain. After gene transfer, brain dopamine, norepinephrine, and serotonin levels in the PKU mice were significantly elevated to normal or near-normal levels, along with systemic improvement of phenylalanine catabolism. The results of biochemical analyses validated the efficacy of PKU gene therapy in the central nervous system. NeuroReport 23:30-34 (C) 2011 Wolters Kluwer Health vertical bar Lippincott Williams & Wilkins.