Pharmacokinetic-Pharmacodynamic Studies on Propra-nolol and 4-Hydroxypropranolol

The pharmacokinetic-pharmacodynamics of propranolol (PPL) and its activemetabolite 4-hydroxypropranolol (4-OH-P) was studied on Chinese subJects by single or multipleoral administration. The efficiency of beta-blockade was measured as the reduction of heart rates orblood pressure in the supine and upnght positions during rest or exercise period. After a single doseof 40 mg PPL, the plasma concentration of 4-OH-P was quite high, C (m) max and AUC (m) were26. 1±13.2 ng/ml and 180±69 ng.h/ml respectively, which were 50% and 73% of those of PPL.Whileafter multiple dose administration, the plasma PPL concentration increased much greater than that insingle administration and the 4-OH-P/PPL plasma level ratio fell from 0.79±0.64 at single dose toonly 0.48±0.32 at steady-state. The pharmacodynamic half-life of PPL on inbibiting exercising heart-rate was much longer than the halflife of drug concentration (8.78±2.27 vs 4.23±1.33 h. P<0.0 1).The Css 50. plasma concentration at steady-state producing 50% maximal efficacy, was 44.66±35.24ng/ml. The study showed that 4-OH-P is an important active metabolite of PPL and one of thepossible factors causing the considering variations in the response to PPL in Chinese people.

Leaching performance of Al-bearing spent LiFePO_(4) cathode powder in H_(2)SO_(4) aqueous solution

The leaching performance and leaching kinetics of LiFePO_(4)(LFP)and Al in Al-bearing spent LFP cathode powder were systematically studied.The effects of temperature(273−368 K),stirring speed(200−950 r/min),reaction time(0−240 min),acid-to-material ratio(0.1:1−1:1 mL/g)and liquid-to-solid ratio(3:1−9:1 mL/g)on the leaching process were investigated.The results show that the concentration of reactants and the temperature have a greater impact on the leaching of Al.Under the optimal conditions,leaching efficiencies of LFP and Al are 91.53%and 15.98%,respectively.The kinetic study shows that the leaching of LFP is kinetically controlled by mixed surface reaction and diffusion,with an activation energy of 22.990 kJ/mol;whereas the leaching of Al is only controlled by surface chemical reaction,with an activation energy of 46.581 kJ/mol.A low leaching temperature can effectively suppress the dissolving of Al during the acid leaching of the spent LFP cathode material.

Research on the operating characteristics of parallel 4-DOF electric platform with 4TPS-PS structure

The 4TPS-PS parallel platform designed for a stabilization and automatic tracking system is a novel lower-mobility parallel mechanism. In the first part of this paper, the structure of the platform is described and the kinematics model is built. The workspace of the platform is defined as the full reachable rotation workspace when the Z coordinate dimension of the upper plate varies continuously. A fast searching method of the full reachable workspace is presented, after which the inverse kinematics of the platform is deduced. The forward and inverse solutions of the speed and force of the platform are deduced. According to the characteristic of the 4TPS-PS platform’s structure, a fast searching algorithm of the maximum generalized speed and maximum generalized force output by the upper plate is put forward based on the forward and inverse solutions of the platform’s speed and force. The 4TPS-PS platform prototype built by the State Key Laboratory of Fluid Power Transmission and Control of China is taken as the research subject. The full reachable rotation workspace of the prototype is computed out and analyzed. The curves of maximum generalized speed and maximum generalized force of the prototype are computed out and plotted. Finally, the com- puting and analyzing results of the operating characteristics are confirmed through the experiment.

Role of α-amino-3-hydroxy-5-methyl-4-isoxazole-propionic acid receptor regulation in stress-induced pain chronification

Persistent postsurgical pain is a serious issue in public health, which has received increased interest in recent years. Previous studies have reported that psychological factors promote the development of chronic postsurgical pain. However, it is unclear how chronification of postsurgical pain occurs. The α-amino-3-hydroxy-5-methyl-4-isoxazole-propionic acid receptor(AMPA) phosphorylation in the central nervous system plays a critical role in synaptic plasticity and contributes to central sensitization and chronic pain development. Here, we discuss the role of AMPA receptor regulation in stress-induced pain chronification after surgery.

Microstructure and mechanical properties of VAlN/Si_(3)N_(4) nano-multilayer coatings

VAlN coating is of particular interest for dry cutting applications owing to its low-friction and excellent abrasiveness.Nano-multilayer structure is designed to tailor the properties of VAlN coating.In this work,a series of VAlN/Si_(3)N_(4) nano-multilayer coatings with varied Si_(3)N_(4) layer thicknesses were prepared by reactive sputtering method.The microstructure and mechanical properties of the coatings were both investigated.It is revealed that Si_(3)N_(4) with a shallow thickness(~0.4 nm)was crystallized and grown coherently with VAlN,showing a remarkable increase in hardness compared to VAlN monolayer coating.The hardness of coherently VAlN/Si_(3)N_(4) nano-multilayer coatings reached to 48.7 GPa.With further increase of Si_(3)N_(4) layer thickness,the coherent growth of nano-multilayers was terminated,showing amorphous structure formed in nano-multilayers and the hardness was declined.On the other hand,when Si_(3)N_(4) layer thickness was 0.4 nm,the friction coefficient of VAlN/Si_(3)N_(4) nano-multilayer coating was almost equal to that of VAlN monolayer coating,which was attributed to the crystallization of Si_(3)N_(4) and the produced coherent interfaces between VAlN and Si_(3)N_(4) for the hardening effect of nano-multilayer coatings.Upon further increase of Si_(3)N_(4) layer thickness,pronounced improvement of friction coefficient in VAlN/Si_(3)N_(4) nano-multilayer coating was observed.

Hydrochloric acid‐mediated synthesis of ZnFe_(2)O_(4) small particle decorated one‐dimensional Perylene Diimide S‐scheme heterojunction with excellent photocatalytic ability

The recyclable and stable ZnFe_(2)O_(4) small particle decorated one‐dimensional perylene diimide(PDI)S‐scheme heterojunction(1D PDI/ZnFe_(2)O_(4))is prepared by the hydrochloric acid‐mediated(HCl‐mediated)strategy,interestingly,the morphology of the 1D PDI/ZnFe_(2)O_(4) can also be effectively regulated by HCl‐mediated process,the existence of HCl can regulate PDI into a uniform rod structure,while the co‐existence of HCl and PDI can limit ZnFe_(2)O_(4) to become the uniform small particles.More importantly,based on the 1D rod structure of PDI and the small size effect of ZnFe_(2)O_(4),carriers can migrate to the surface more easily,which can improve the photocatalytic activity.Meanwhile,due to the appropriate energy level structure,the S‐scheme heterojunction structure is formed between PDI and ZnFe_(2)O_(4),which eliminates meaningless photo‐generated charge carriers through recombination and introduces strong redox to further enhance the photodegradation effect,thereby,1D PDI/ZnFe_(2)O_(4) exhibits excellent photocatalytic ability,under the visible light irradiation,the degradation rate of tetracycline(TC)with 1D PDI/ZnFe_(2)O_(4)(66.67%)is 9.18 times that with PDI(7.26%)and 9.73 times that with ZnFe_(2)O_(4)(6.85%).This work proposes new ideas for the assembly of magnetic organic‐inorganic S‐scheme heterojunction photocatalysts.

消费性服务业管理人才“智情一体化”培育探索——以“文化产业管理专业”为例

我国应用型本科教育中开办的专业有相当比例是为消费性服务业提供管理人才。这类产业因其现代消费性服务的特点对管理者的职业能力和情商有不同于其他产业的一些要求。文章在探索现代消费性服务业管理人才的职业核心能力的同时,明确了消费性服务业联系密切的情商要素"3维"并对其进行个性化描述,并以文化产业管理专业为例进行了实证研究,从而提出"智情一体化"的培养模式。

优秀储备干部培养路径研究

本文从培养对象、培养周期、培养方式及培养模式上进行了干部培养的相关研究梳理。同时分析了国外典型案例,总结其领导力素质模型和干部培养的理念、模式和路径。借鉴 GE 的“4E+P”领导力模型,IBM 的三环领导力模型,华润构的领导力模型,中集集团的中层管理者品德力、执行力、关系力、策略力和驱动力的“五力”模型,南方电网建立了“组织领导力—经营环境—企业绩效”三层路径模型,国网江苏省电力有限公司的各层级优秀年轻干部人才选调培养机制及国网河南电力公司的长周期“点面”结合培养体系。梳理发现激励、激情、信用、挑战及团队协作理念,以基层作为人才源基地,为企业引人、育人、留人提供了筛选和培育岗位素质的标准和依据。

Molecular models of different states of the human multidrug resistance protein 4(MRP4/ABCC4)

ATP-binding cassette（ABC） transporter multidrug resistance protein 4（MRP4, ABCC4） is involved in multidrug resistance（MDR）, which is an increasing challenge to the treatment of cancers and infections. MRP4 is overexpressed in several types of cancers, and MRP4 inhibition shows striking effects against cancer progression and drug resistance. However, the structural knowledge of this protein remains unclear due to lack of an MRP4 X-ray structure, and homology modeling approach is an effective way to obtain three-dimensional structure of MRP4. We constructed three molecular models of human MRP4 mainly based on the inward facing Caenorhabditis elegans P-glycoprotein（P-gp）, the Thermotoga maritima heterodimeric ABC transporter TM287-TM288（TM287/288） and the outward facing Staphylococcus aureus Sav1866 crystal structures, which represented substrate uptake, transport and release state, respectively. The structures were further energy minimized and optimized by molecular dynamic simulations（MDS）. All the models were validated by various tools and servers, and the results showed that the quality of the models was reasonable and acceptable. These MRP4 models could be used as working tools for experimental studies on the structure and functions of MRP4 and designing more specific membrane transport modulating agents（MTMA）.

Oxidation behavior of ferrovanadium spinel particles in air:Isothermal kinetic and reaction mechanism

The oxidation behavior of ferrovanadium spinel(FeV_(2)O_(4)),synthesized via high-temperature solid-state reaction,was investigated using thermogravimetry,X-ray diffractometry,and X-ray photoelectron spectroscopy over the temperature range of 450–700℃.The results revealed that the oxidation process of FeV_(2)O_(4)can be divided into three stages with the second stage being responsible for maximum weight gain due to oxidation.Three classical methods were employed to analyze the reaction mechanisms and model functions for distinct oxidation stages.The random nucleation and subsequent growth(A_(3))kinetic model was found to be applicable to both initial and secondary stage.The third stage of oxidation was consistent with the three-dimensional diffusion,spherical symmetry(D_(3))kinetic mode.Both the model-function method and the model-free method were utilized to investigate the apparent activation energy of the oxidation reaction at each stage.It was found that the intermediates including Fe_(3)O_(4),VO_(2),V_(2)O_(3),and Fe_(2.5)V_(7.11)O_(16),played significant roles in the oxidation process prior to the final formation of FeVO_(4)and V_(2)O_(5)through oxidation of FeV_(2)O_(4).