Hence, we propose the hypothesis that PLSS maintains the endothelium in an anti-atherogenic state via intracellular antioxidant levels increased as a result of Nrf2 activation, thereby preventing
excess ROS/RNS production required for pro-atherogenic gene expression. Antioxid. Redox Signal. 15, 1415-1426.”
“Intensity is an important physical property of a sound wave and is customarily reported as sound pressure level (SPL). Invasive techniques such as electrical recordings, which typically examine one brain region at a time, have been used to study neuronal encoding of SPL throughout the central auditory system. Non-invasive functional magnetic resonance imaging (fMRI) with large field of view can simultaneously examine multiple auditory structures. We applied fMRI to measure the hemodynamic responses in the rat brain during sound stimulation at seven SPLs over a 72 dB range. This study used a sparse temporal KU-57788 sampling paradigm to reduce the adverse effects of scanner noise. Hemodynamic responses were measured from the central nucleus of the inferior colliculus
(CIC), external cortex of the inferior colliculus (ECIC), lateral lemniscus (LL), medial geniculate body (MGB), and auditory cortex (AC). BOLD signal changes generally increase significantly (p<0.001) with SPL and the dependence is BIX 01294 cost monotonic in CIC, ECIC, and LL The ECIC has higher BOLD signal change than CIC and LL at high SPLs. The difference between BOLD signal changes at high and low SPLs is less in the MGB and AC. This suggests that the SPL dependences of the LL and IC are different from those in the MGB and AC and the SPL dependence of the CIC is different from that of the ECIC. These observations are likely related to earlier observations that
neurons with firing rates β-Nicotinamide that increase monotonically with SPL are dominant in the CIC, ECIC, and LL while non-monotonic neurons are dominant in the MGB and AC. Further, the IC’s SPL dependence measured in this study is very similar to that measured in our earlier study using the continuous imaging method. Therefore, sparse temporal sampling may not be a prerequisite in auditory fMRI studies of the IC. (C) 2012 Elsevier Inc. All rights reserved.”
“Purpose of review\n\nLower urinary tract symptoms caused by benign prostatic obstruction is a common disorder and the incidence is increasing with higher life expectancy. The present article focuses on recently published methods to diagnose bladder outlet obstruction and differ between benign obstruction and prostate cancer in lower urinary tract symptoms patients.\n\nRecent findings\n\nSeveral new ultrasound imaging techniques have been reported. Resistive index in the prostatic artery, detrusor wall thickness and prostatic urethral angle all may correlate with obstruction, but more studies are needed to establish their place in clinical practice.