A new type of blue-shifted aggregation-induced emission enhancement was observed for a Sn(IV) fluoride complex, resulting in strong emissive in the solid state as compared with solutions. The fluorinated Sn(IV)...
Failed back surgery syndrome (FBSS), a chronic neuropathic pain condition, is a common indication for spinal cord stimulation (SCS). However, the mechanisms of SCS, especially its effects on supraspinal/brain functional connectivity, are still not fully understood. Resting state functional magnetic resonance imaging (rsfMRI) studies have shown characteristics in patients with chronic low back pain (cLBP). In this case study, we performed rsfMRI scanning (3.0 T) on an FBSS patient, who presented with chronic low back and leg pain following her previous lumbar microdiscectomy and had undergone permanent SCS. Appropriate MRI safety measures were undertaken to scan this subject. Seed-based functional connectivity (FC) was performed on the rsfMRI data acquired from the FBSS subject, and then compared to a group of 17 healthy controls. Seeds were identified by an atlas of resting state networks (RSNs), which is composed of 32 regions grouped into 8 networks. Sliding-window method and k-means clustering were used in dynamic FC analysis, which resulted in 4 brain states for each group. Our results demonstrated the safety and feasibility of 3T MRI scanning in a patient with implanted SCS system. Compared to the brain states of healthy controls, the FBSS subject presented very different FC patterns in less frequent brain states. The mean dwell time of brain states showed distinct distributions: the FBSS subject seemed to prefer a single state over the others. Although future studies with large sample sizes are needed to make statistical conclusions, our findings demonstrated the promising application of dynamic FC to provide more granularity with FC changes associated with different brain states in chronic pain.
Hydrogen peroxide (H2O2) is the active ingredient in over‐the‐counter whitening strips for teeth. It has previously been shown to damage certain proteins by making them more susceptible to hydrolysis by proteases. The goal of this project was to characterize the hydrolysis of various proteins with H2O2. Albumin protein was mixed with different concentrations of H2O2 for one hour. The protease trypsin was added and portions were removed and immediately mixed with trichloroacetic acid to precipitate either unhydrolyzed proteins or proteins that were minimally hydrolyzed. After centrifugation, the supernatant, which contains small protein fragments that were released by hydrolysis, was collected and; the total amount was measured using the Lowry assay. The results indicate that even without the protease, there is significant hydrolysis with peroxide and none when the proteins were mixed with water. The amount of hydrolysis correlated with the amount of peroxide. In addition, the amount of hydrolysis in the presence of H2O2 with trypsin greatly exceeded that when only trypsin was present. It was important in this method to inactivate peroxide and efficacy of different metals were tested. This effect was further characterized using sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS PAGE). These results suggest that hydrogen peroxide; even at the concentrations used in whitening strips, can damage protein by promoting hydrolysis. This work was supported by Research and Professional Development Grant from Stockton University.This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.
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