In

contrast, the glial scar, evaluated by glial fibrillary acidic protein staining, showed its highest intensity 21 Bcr-Abl inhibitor days post-injury in both models. The number of apoptotic oligodendrocytes, detected by CC1/caspase-3 co-labeling, was increased in both models in all evaluated regions. Finally, the numbers of OPCs, evaluated with the markers Tcf4 and Olig2, were increased from day 2 (Olig2) or day 7 (Tcf4) post-injury (P ≤ 0.05). Our results indicate that TBI induces oligodendrocyte apoptosis and widespread myelin loss, followed by a concomitant increase in the number of OPCs. Prevention of myelin loss and oligodendrocyte death may represent novel therapeutic targets for TBI. “
“Working memory (WM) performance in humans can be improved by structuring and organizing the material to be remembered. For visual and verbal information, this process of structuring has been associated with the involvement of a prefrontal–parietal network, but for non-verbal auditory material, the brain areas that facilitate WM for structured information have remained elusive. Using functional magnetic resonance imaging, this study compared neural correlates underlying encoding and rehearsal of auditory WM for structured and unstructured material.

Musicians and non-musicians performed a WM task on five-tone sequences that were either tonally structured (with all tones this website belonging to one tonal key) or tonally unstructured (atonal) sequences. Functional differences were observed for musicians (who are experts in the music domain), but not for non-musicians – The right

pars orbitalis was activated more strongly in musicians during the encoding of unstructured (atonal) vs. structured (tonal) sequences. In addition, data for musicians showed that a lateral (pre)frontal–parietal network (including the right premotor cortex, right inferior precentral sulcus and left intraparietal sulcus) was activated during WM rehearsal of structured, as compared with unstructured, sequences. Our findings indicate that this network plays a role in strategy-based WM for non-verbal auditory information, corroborating previous results Reverse transcriptase showing a similar network for strategy-based WM for visual and verbal information. “
“Parkinson’s disease is most commonly modelled via unilateral infusion of the neurotoxin 6-hydroxydopamine (6-OHDA) in the rat, but recent work has been aimed to translate the reproducibility and reliability of the model to the mouse. Here we present the effects of unilateral 6-OHDA lesions to either the medial forebrain bundle or the substantia nigra (SN) in mice, which were trained on a lateralised choice reaction time (RT) task.