CO_(2)-CP、CRP/ALB、ALP与糖尿病合并细菌性肝脓肿病情关系及对预后的影响

目的:探讨二氧化碳结合力(CO_(2)-CP)、C反应蛋白/白蛋白(CRP/ALB)、碱性磷酸酶(ALP)与糖尿病合并细菌性肝脓肿(BLA)病情关系及对预后的影响。方法:选取我院2020年1月-2022年2月收治的157例糖尿病合并BLA患者为研究对象,根据治疗30d后预后情况将患者分为好转组(103例)和未好转组(54例)。比较两组一般临床资料及治疗前、治疗7d后实验室指标[白细胞(WBC)、中性粒细胞(NEUT)、总胆红素(TBIL)、血小板计数(PLT)、CO_(2)-CP、CRP/ALB、ALP],并分析治疗前CO_(2)-CP、CRP/ALB、ALP水平与其他实验室指标相关性以及影响糖尿病合并BLA预后的危险因素。结果:未好转组肝脓肿直径大于好转组(P<0.05);未好转组治疗前、治疗7d后WBC、NEUT、TBIL、CRP/ALB、ALP水平较好转组高,PLT、CO_(2)-CP水平较好转患者低(P<0.05);治疗前糖尿病合并BLA患者CO_(2)-CP、CRP/ALB、ALP水平与WBC、NEUT、TBIL正相关,与PLT水平呈负相关(P<0.05);Logistic回归显示,治疗前肝脓肿直径(>7.30cm)、WBC水平(>13.87×109/L)、NEUT水平(>92.54%)、TBIL水平(>17.76μmol/L)、PTL水平(≤140.88×109/L)、CO_(2)-CP水平(≤16.69 mmol/L)、CRP/ALB水平(>8.52)、ALP水平(>210.45U/L),治疗7d后WBC水平(>13.49×109/L)、NEUT水平(>92.73%)、TBIL水平(>18.62μmol/L)、PTL水平(≤164.07×109/L)、CO_(2)-CP水平(≤17.44mmol/L)、CRP/ALB水平(>8.38)、ALP水平(>201.62U/L)是糖尿病合并BLA未好转的危险因素(P<0.05)。结论:CO_(2)-CP、CRP/ALB、ALP水平与糖尿病合并BLA预后具有关联性,动态监测其水平变化可为临床制定治疗方案提供依据。

枣树2-半胱氨酸氧化还原酶基因Zj2-CP在干旱和盐胁迫下的功能分析

【目的】研究枣树2-半胱氨酸氧化还原酶基因(2-Cys peroxiredoxins, Zj2-CP)的功能,为其在枣树抗逆基因工程改良中的利用奠定基础。【方法】以‘辣椒枣’(Ziziphus jujuba‘Lajiaozao’)组培苗为研究对象,通过实时荧光定量PCR技术分析目的基因在盐胁迫及PEG胁迫条件下的表达模式,利用农杆菌介导法将本实验室已构建的植物表达载体PEZR(K)-Zj2-CP-LNY转入拟南芥,激光共聚焦显微镜进行目的基因的亚细胞定位,同时对转基因植株进行高盐和干旱胁迫处理,验证其抗逆功能。【结果】实时荧光定量PCR分析表明‘,辣椒枣’组培苗中,Zj2-CP能够被不同浓度的PEG和盐胁迫诱导表达,暗示该基因可能对枣树抗旱性和耐盐性具有重要的作用。转Zj2-CP基因的拟南芥转化株系的茎和叶表皮细胞的细胞膜和细胞质以及根的细胞膜中均检测到Zj2-CP存在。在盐胁迫处理下,转Zj2-CP基因的拟南芥的幼苗存活率显著低于野生型;在干旱胁迫处理下,转Zj2-CP基因植株主根的长度显著低于野生型。【结论】与野生型拟南芥相比,过表达Zj2-CP基因的拟南芥增加了对干旱和盐胁迫的敏感性,我们推测Zj2-CP参与植物干旱和盐胁迫响应。

Effect of Sb dopant amount on the structure and electrocatalytic capability of Ti/Sb-SnO_2 electrodes in the oxidation of 4-chlorophenol

Ti/Sb-SnO2 anodes were prepared by thermal decomposition to examine the influence of the amount of Sb dopant on the structure and electrocatalytic capability of the electrodes in the oxidation of 4-chlorophenol. The physicochemical properties of the Sb-SnO2 coating were markedly influenced by different amounts of Sb dopant. The electrodes, which contained 5% Sb dopant in the coating, presented a much more homogenous surface and much smaller mud-cracks, compared with Ti/Sb-SnO2 electrodes containing 10% or 15% Sb dopant, which exibited larger mud cracks and pores on the surface. However, the main microstructure remained unchanged with the addition of the Sb dopant. No new crystal phase was observed by X-ray diffraction （XRD）. The electrochemical oxidation of 4-chlorophenol on the Ti/SnO2 electrode with 5% Sb dopant was inclined to electrochemical combustion; while for those containing more Sb dopant, intermediate species were accumulated. The electrodes with 5% Sb dopant showed the highest efficiency in the bulk electrolysis of 4-chlorophenol at a current density of 20 mA/cm^2 for 180 min; and the removal rates of 4-chlorophenol and COD were 51.0% and 48.9%, respectively.

Effects of Cd(Ⅱ) and Cu(Ⅱ) on microbial characteristics in 2-chlorophenol-degradation anaerobic bioreactors

The effects of Cd^2＋ and Cu^2＋ at 300 mg/L on anaerobic microbial communities that degrade 2-cholorophenol （2-CP） were examined. Based on the polymerase chain reaction （PCR） of 16S rDNA, bacterial community diversity and archaeal community structure were analyzed with denaturing gradient gel electrophoresis （DGGE） and cloning, respectively. Degradation capabilities of the anaerobic microbial community were drastically abated and the degradation efficiency of 2-CP was reduced to 60% after shock by Cu^2＋ and Cd^2＋, respectively. The bacterial community structure was disturbed and the biodiversity was reduced after shock by Cu^2＋ and Cd^2＋ for 3 d. Some new metal-resistant microbes which could cope with the new condition appeared. The sequence analysis showed that there existed common Archaea species in control sludge and systems when treated with Cu^2＋ and Cd^2＋, such as Methanothrix soehngenii, Methanosaeta concilii, uncultured euryarchaeote, and so on. Both the abundance and diversity of archaeal species were altered with addition of Cd^2＋ and Cu^2＋ at high concentration. Although the abundance of the predominant archaeal species decreased with Cd^2＋ and Cu^2＋ addition for 3 d, they recovered to some extent after 10 d. The diversity of archaeal species was remarkably reduced after recovery for 10 d and the shift in archaeal composition seemed to be irreversible. The 2-CP-degradation anaerobic system was more sensitive to Cu^2＋ than Cd^2＋.

Biodegradation of Phenol and 4-Chlorophenol by the Mutant Strain CTM 2

The biodegradations of phenol and 4-chlorophenol （4-cp） were studied using the mutant strain CTM 2 obtained by the He-Ne laser irradiation on wild-type Candida tropicalis. The results showed that the capacity of the CTM 2 to biodegrade 4-cp was increased up to 400 mg·L^-1 within 59.5 h. In the dual-substrate biodegradation both velocity and capacity of the CTM 2 to degrade 4-cp increased with low-concentration phenol. A totalof 400 mg·L^-1 4-cp was completely degraded within 50.＇5 h in thepresence of 300 mg·L^-1 phenol. The maximum 4：cp biodegegradation could reach 440 mg·L^1 with 120 mg·L^1 phenol. Low-concentration 4-cp caused great inhibition on the CTM 2 to degrade phenol. In addition, the kinetic behaviors were described using the kinetic model proposed in this lab.

2-chlorophenol oxidation kinetic by photo-ssisted Fenton process

Experimental data are presented to test and validate a kinetic model for the oxidation of 2 chlorophenol wastewater by photo assisted Fenton process. The data showed that this process had produced good effects under acidic conductions. Up to 90% 2 chlorophenol was removed after 90 minute reaction time with H 2O 2 of 25% COD Cr, in , while in UV/H 2O 2 system only 16 8% 2 chlorophenol was removed after one hour treatment. The optimal pH in this reaction occurred between pH 3 0 and pH 4.0. The reaction kinetics for photo assisted Fenton process experimented in this research was investigated. Kinetic models were proposed for the treatment of 2 chlorophenol wastewater. The reaction was found to follow the 2nd order. The equations of reaction kinetics are as follows:-d[RH]d t = K RH [RH][H 2O 2] 0exp (-K H 2O 2 t );-d[COD Cr ]d t = K COD Cr [COD Cr ][H 2O 2] 0exp(-K′ t ). The prediction of the models was found to be in a good agreement with experimental results, thus confirming the proposed reaction mechanism.

Optimization of Fenton pretreatment for 2-chlorophenol solution

Fenton oxidation was used as the pretreatment of 2-chlorophenol wastewater with the objective of dechlorination, as it was considered that after breakage of aryl—Cl bond, the generated intermediates may be easily biodegraded. Hence, the optimization of pH and the low Fenton reagent doses for dechlorination was investigated. More than 99% dechlorination is obtained at the optimal pH 4 and the Fenton reagent doses of 86 mmol/L H2 O2 and 2.87 mmol/L Fe2+. The corresponding 2-chlorophenol is degraded completely, 80.02% COD is also removed, and the biodegradability, evaluated in terms of the BOD5 /COD ratio, is increased up to 0.41. To test the effect of this pretreatment, the pretreated 2-chlorophenol wastewater was fed to a sequencing batch reactor(SBR). The results show that complete mineralization is achieved. It is demonstrated that, for the treatment of recalcitrant compounds like 2-chlorophenol, the Fenton pretreatment could be quite effective and economical for enhancing the biodegradability in a Fenton-biological coupled system.

Mathematical Modei of In-situ Ozonation for the Remediation of 2-Chlorophenol Contaminated Soil

A microscopic diffusion-reaction modei was developed to simulate in-situ ozonation for the remediation of contaminated soil, i.e., to predict the temporal and spatial distribution of target contaminant in the subsurface. The sequential strategy was employed to obtain the numerical solution of the modei using finite difference method. A non-uniform grid of discretization points was emploved to increase the accuracy of the numerical solution by means of coordinate transformation. One-dimensional column tests were conducted to verify the modei. The column was packed with simulated soils that were spiked with 2-chlorophenol. Ozone gas passed through the column at a flow rate of 100ml·min-1. The residual 2-chlorophenol content at different depths of the column was determined at fixed time intervals. Compared the experimental data with the simulated values, it was found that the mathematical modei fitted data well during most time of the experiment.

The phase behavior of n-ethylpyridinium tetrafluoroborate and sodium-based salts ATPS and its application in 2-chlorophenol extraction

In this paper,the aqueous two-phase systems(ATPS)containing n-ethylpyridinium tetrafluoroborate([EPy]BF_(4)),sodium-based salts,and water were studied and the extraction efficiency of 2-chlorophenol was measured to study the ATPS performance in extracting phenolic compounds.The binodal curves of[EPy]BF_(4)+sodium carbonate(Na_(2)CO_(3))ATPS and[EPy]BF_(4)+sodium dihydrogen phosphate(NaH_(2)PO_(4))ATPS have been determined at 308.15 K,318.15 K,and 328.15 K and atmospheric pressure.After getting good correlation with Merchuk equation,the binodal curves together with gravimetric method were used to calculate the tie-lines data.Furthermore,the reliability of tie-lines data was verified using Othmer-Tobias and Bancroft equations.Then,the salt influence and temperature influence on the phase behavior were discussed and the results show the salt-outing ability of Na_(2)CO_(3) is better than NaH_(2)PO_(4).With the aim of studying the ATPS performance in extracting phenolic compounds,extraction efficiency for 2-chlorophenol at different temperatures were studied and the results show that[EPy]BF_(4)+Na_(2)CO_(3) ATPS is preferred than[EPy]BF_(4)+NaH_(2)PO_(4) ATPS in applications.

Kinetics of cometabolic degradation of 2-chlorophenol and phenol by Pseudomonas putida

In order to address the complex cometabolic degradation of toxic compounds, batch experiments on the biodegradation of 2-chlorophenol （2-CP） and phenol by Pseudomonas putida were carried out. The experimental results show that 2-CP has an inhibitory effect on cell growth and phenol degradation, which demonstrates that the interaction between substrates affects cell growth and substrate degradation. A kinetic model of cell growth and substrate transformation was also developed. The square of the correlation coefficient from the experiment was 0.97, indicating that this model properly simulates the cometabolic degradation of 2-CP and phenol.

负载型铜掺杂TiO2催化剂的制备及其光催化去除水中4-CP的研究

以CuCl2为铜源,用溶胶凝胶法制备了不同载体的负载型铜掺杂TiO2催化剂,用SEM、XRD和BET对催化剂进行表征与分析。以催化剂对水中4-CP的去除率为评价标准,研究其催化性能。结果表明:当以粗孔硅胶为载体,焙烧温度为500℃,焙烧时间为2h,Cu^2+和TiO2的质量比为0.5%时,催化剂对氧化4-CP的效果最好,催化剂中TiO2以钛矿型为主。

新生儿窒息与脐血CO2-CP、血糖水平关系的临床研究

新生儿窒息是早期新生儿的严重疾病之一，其不仅可造成各器官、系统缺血缺氧性损伤，亦可对机体代谢产生影响，其中酸中毒及血糖异常对神经系统进一步损伤已引起广泛关注。复苏时及复苏后所采取的有效治疗措施，会对机体内环境产生影响。有利于机体内环境稳定，促进窒息恢复，减少机体损伤；但若治疗不当，则有可能加重代谢紊乱而产生副作用。为此，本研究通过对新生儿脐血CO2-CP、血糖值的临床观察，分析其与新生儿窒息严重程度及并发症的相互关系，为早期确定治疗方案。降低新生儿致残率、病死率提供依据。

五氯苯酚与邻氯苯酚和2,4-二氯苯酚对斑马鱼的联合毒性

在五氯苯酚(PCP)与邻氯苯酚(2-CP)和2,4-二氯苯酚(2,4-DCP)3种物质单一毒性试验结果的基础上,按照等毒性单位设计,采用相加指数法,对五氯苯酚(PCP)与邻氯苯酚(2-CP)或2,4-二氯苯酚(2,4-DCP)以及这3种物质共存对斑马鱼(Brachydanio rerio)的联合毒性进行了试验研究.结果表明,邻氯苯酚(2-CP)和2,4-二氯苯酚(2,4-DCP)与五氯苯酚的联合毒性效应均表现为协同作用,使五氯苯酚的毒性剧增.由于邻氯苯酚或2,4-二氯苯酚的存在以及3种物质共存,使五氯苯酚对斑马鱼的48 h LC50由原来的0.102 mg/L,分别下降到0.031,0.029及0.022 mg/L.因此可见,水体污染评价目前只考虑单一毒物的影响还远远不够,由此制定的控制标准对水体的保护不利,必须从联合毒性的角度对水质污染进行综合评价.

Pd修饰Ti电极上2-氯酚的电催化还原

采用循环伏安法和交流阻抗法研究了碱性水溶液中Pd修饰Ti电极对2-氯酚(2-CP)的电催化还原特性,考察了Pd的沉积时间和甲酸钠对2-CP脱氯效率的影响。研究表明:2-CP在还原过程中属准可逆反应,且由电荷传质与扩散过程混合控制,Pd沉积300s时的催化性能最好,甲酸钠能够促进2-CP的脱氯反应。

ATM Adapter Layer2协议体系分析

介绍了ＡＴＭ ＡＡＬ２的协议结构、分组格式及其应用，并对ＡＴＭ ＡＡＬ２ Ｔｒｕｎｋｉｎｇ在窄带网络中的应用做了较详尽的分析，最后给出了基于ＡＡＬ的网络融合方案。

A Fiber Optic Sensor for 2-cholrophenol Analysis based on Oxygen Sensing System

A fiber optic 2-cholrophenol（2-CP） sensor was developed based on the fluorescence quenching of molecular oxygen on the oxygen-sensitive membrane and O2 consumption during catalytic oxidation reaction of 2-CP. The 2-CP concentration can be determined by utilizing a lock-in amplifier to measure the change in the fluorescence lifetime of an oxygen-sensitive membrane, in which the tris（2,2′-bipyridyl） ruthenium（II） chloride complexes（Ru（II）（byp）3Cl2） were immobilized in cellulose acetate（CA） via simple hybridized approach. The experimental results show the good linear relationship between the phase delay of sensitive membrane and 2-CP concentration in its detection range of 1×10-7 to 1×10-5 mol/L and 1×10-5 to 1×10-4 mol/L. The detection limit of the sensor is 7×10-8 mol/L（S/N=3） and the response time is 5 min. Our experimental measurements confirmed good response characteristics of the as-prepared fiber optic 2-CP sensor, as well as its capability to detect the 2-CP concentration in practical water samples.

新型光催化氧化体系UV/Fe^(2+)/空气降解4-CP废水

报道了新型光催化氧化体系UV/Fe2+/空气对4-CP废水的降解.该体系利用廉价空气为氧化剂,在紫外光照过程中产生H2O2,与溶液中存在的Fe2+形成Fenton反应,使污染物得到快速彻底的降解.反应40min时,溶液中几乎检测不到4-CP.和初始H2O2浓度为22mg/L的UV/Fenton相比,UV/Fe2+/空气体系能更快速彻底地降解4-CP.因此,对于能受紫外光激发的污染物,UV/Fe2+/空气是一种廉价有效的光催化氧化处理方法.

Photocatalytic degradation of 4-chlorophenol under P-modified TiO2/UV system: Kinetics, intermediates, phytotoxicity and acute toxicity

A series of phosphorus-modified titanium dioxide samples with varying P/Ti atomic ratio were conveniently prepared via a conventional solgel route. The effects of phosphorus content and calcination temperature on the crystalline structure, grain growth, surface area, and the photocatalytic activity of P-modified TiO2 were investigated. The XRD results showed that P species slow down the particle growth of anatase and increase the anatase-to-rutile phase transformation temperature to more than 900°C. Kinetic studies on the P-modified TiO2 to degraded 4-chlorophenol had found that the TP5500 prepared by adopting a P/Ti atomic ratio equal to 0.05 and calcined at 500°C had an apparent rate constant equal to 0.0075 min 1, which is superior to the performance of a commercial photocatalyst Degussa P25 Kapp = 0.0045 min 1 and of unmodified TiO2 （TP0500） Kapp = 0.0022 min 1. From HPLC analyses, various hydroxylated intermediates formed during oxidation had been identified, including hydroquinone （HQ）, benzoquinone （BQ） and （4CC） 4-chlorocatechol as main products. Phytotoxicity was assessed before and after irradiation against seed germination of tomato （Lycopersicon esculentum） whereas acute toxicity was assessed by using Folsomia candida as the test organism. Intermediates products were all less toxic than 4-chlorophenol and a significant removal of the overall toxicity was accomplished

Mechanism and kinetics of 2-chlorophenol degradation in drinking water by photo-electrochemical synergic effect

The synergic effect mechanism of photo-electrochemical oxidation is investigated in detail through reaction products and kinetics analysis in a photo-electric integral reactor with 2-chlorophenol (2-CP) as the model pollutant. A kinetics model is constructed for the combinatorial photo-electrochemical (CPE) degradation. A remarkable synergetic effect, which can significantly enhance the mineralization rate of the CPE process, is verified by the comparison of apparent kinetic constants. In the CPE process, complemental effects with multi-level and multi-pathway for pollutants degradation under our experimental conditions are speculated. It is proved that the degradation pathways are not only the simple summation of that of photolysis and electrolysis, but the formation of synergic effect through combination of several new acting approaches. The degradation efficiency is enhanced considerably by three factors, control of electrode poisoning by the UV irradiation, control of excitation and reaction trend of pollutants molecules by the UV irradiation, and control of activation effect and transfer trend by the oriented direct current (DC) electric field. An advanced oxidation system is set up through manifold of free radicals chain reactions in the CPE reactions, so that the aqueous organics can be mineralized fast and completely. It is proven by the kinetics analysis that the mineralization of organic pollutants is mainly attributed to the generation of very active hydroxyl radicals (OH@) in bulk solution from the CPE synergetic effect.

Mechanism and kinetics of 2-chlorophenol decomposition using coupled ultrasound and electrocatalysis

A coupled ultrasound/electrocatalysis(US/EC) process was used to enhance the decomposition effi-ciency of organics.The synergetic kinetics and the mechanism of 2-chlorophenol(2-CP) decomposi-tion with coupled US/EC were studied.It was found that in a US/EC process 2-CP is attacked by active radicals(such as hydroxyl radicals) to form 2-chloro-p-benzoquinone,and the latter is oxidized to simple organic acids when the ring is opened.The enhancement factor expressed by the apparent rate constant of 2-CP decomposition with coupled US/EC is 1.324 at a current density of 20 mA·cm-2,an ultrasonic frequency of 20 kHz,an ultrasonic intensity of 0.27 W·cm-2,and a 2-CP initial concentration of 200 mg·L-1,which means that a synergetic effect exists.A model derived from Langmuir adsorption theory of solid surface and reaction kinetics equations can describe exactly the decomposition of 2-CP with coupled US/EC.The numerical values are in good agreement with the experimental data.The model parameters are associated with reaction conditions.