Objective To observe the expression of neuroglobin in brain of rat with septic shock,and study the protective effect of neuroglobin.Methods Sixty male SD rats were randomly di-vided into two groups,30 rats in each.The rats in group M were injected LPS 10 mg/kg through tail vein to establish septic shock model,the success standard of septic shock was systolic blood pressure dropping to 60% of the basic values;the control group were given equal volume of NS.The levels of rat TNF-α,IL-6 and NGB in serum at the time points of before LPS injection (T0 ),1 h (T1 ),2 h (T2 ),4 h (T3 )and 6 h(T4 )after LPS injection were measured using ELISA kits.NGB and caspase-3 protein expression in brain were determined using Western blotting.Results Compared with group C and T0 ,the TNF-α,IL-6 concentrations in serum and caspase-3 in brain were increased significantly at T1-T4 (P <0.05),NGB protein content in serum and brain at T3 and T4 were increased significantly (P <0.05).Conclusion Cell apoptosis and inflammatory response are discovered in the brain during septic shock.NGB is over-expressed in brain of rats with septic shock,which may play a role of pro-tective function.

Objective To investigate the effects of different DO2-directed hemodynamic man-agement on postoperative prognosis of orthotopic liver transplantation (OLT)patients with different degrees of liver function insufficiency.Methods Seventy patients (male 48 cases,female 22 cases, aged 37-66 years,ASA grade Ⅲ or Ⅳ)scheduled non veno-venous bypass OLT were divided into two groups (n = 35 each ).The oxygen delivery (DO2 )maintained respectively between 350 ml·min-1 ·m-2 and 500 ml·min-1 ·m-2 (group control)and more than 500 ml·min-1 ·m-2 (group study).After induction of anesthesia,the left radial artery was cannulated,allowing continu-ous blood pressure monitoring as well as serial blood sampling,then the Swan-Ganz catheter was in-serted via the right internal jugular vein to continuously monitor CI and S-vO2 .After anesthesia induc-tion and before operation (T1 ),10 min before anhepatic phase (T2 ),30 min after onset of anhepatic phase (T3 ),30 min after neohepatic phase (T4 )and the end of surgical procedure (T5 ),the SaO2 , PaO2 ,Hb,CI and S-vO2 were recorded to calculate the DO2 ,VO2 and ERO2 .Postoperatively,ICU and hospital length of stay,quality of life (QOL)and 1-5 year survival rate were recorded.Results In the two groups,CI,DO2 and VO2 declined at T3 to a statistically significant degree in comparison with T1 (P <0.05).CI,DO2 and VO2 in group study significantly higher than those of group control (P <0.05).ERO2 in group study was lower than that of group control significantly (P <0.05).ICU and hospital length of stay were significantly shorten in group study in comparison with group control (P <0.05).Survival rate and QOL in group study tended to be slightly higher than those of group control until the end of study period,but there was no significant difference.Conclusion The DO2-directed hemodynamic management can improve prognosis with enhanced DO2 in OLT patients with different degrees of hepatic insufficiency.It has a positive impact on their outcome of shortening ICU stay and the hospitalization days.

A wearable wireless health monitoring system for drug addicts in compulsory rehabilitation centers was proposed. The system can continuously monitor multiple physiological parameters of drug addicts in real time, and issue early warning information when abnormal physiological parameters occur, so as to play the role of timely medical practice. In addition, this study proposes a convolutional neural network (CNN)model, which can evaluate the health status of drug addicts based on multiple physiological parameters. Experiments show that the model can be applied to the task of body state recognition in the open physiological parameter data set, and the recognition accuracy can reach up to 100% in a single physiological parameter data set; when the whole physiological data set is used, the recognition accuracy can reach 99.1%. The recognition accuracy exceeds the performance of the traditional pattern recognition method on this task, which verifies the superiority of the model.
Algorithms ; Electrocardiography ; Monitoring, Physiologic ; Neural Networks, Computer ; Wearable Electronic Devices

Peptides are a particular molecule class with inherent attributes of some small-molecule drugs and macromolecular biologics, thereby inspiring continuous searches for peptides with therapeutic and/or agrochemical potentials. However, the success rate is decreasing, presumably because many interesting but less-abundant peptides are so scarce or labile that they are likely 'overlooked' during the characterization effort. Here, we present the biochemical characterization and druggability improvement of an unprecedented minor fungal RiPP (ribosomally synthesized and post-translationally modified peptide), named acalitide, by taking the relevant advantages of metabolomics approach and disulfide-bridged substructure which is more frequently imprinted in the marketed peptide drug molecules. Acalitide is biosynthetically unique in the macrotricyclization via two disulfide bridges and a protease (AcaB)-catalyzed lactamization of AcaA, an unprecedented precursor peptide. Such a biosynthetic logic was successfully re-edited for its sample supply renewal to facilitate the identification of the in vitro and in vivo antiparkinsonian efficacy of acalitide which was further confirmed safe and rendered brain-targetable by the liposome encapsulation strategy. Taken together, the work updates the mining strategy and biosynthetic complexity of RiPPs to unravel an antiparkinsonian drug candidate valuable for combating Parkinson's disease that is globally prevailing in an alarming manner.