Junshanyinzhen tea extract prevents obesity by regulating gut microbiota and metabolic endotoxemia in high-fat diet fed rats

Obesity is associated with gut dysbiosis and metabolic endotoxin.Junshanyinzhen tea extract(JSTE)reduced fat accumulation and body weight in obese mice.However,the effects and mechanism of JSTE in preventing obesity were unclear.Therefore,we used different doses of JSTE(75,150 and 300 mg/(kg·day))to evaluate the effect on high-fat diet(HFD)-induced rats under 8 weeks of intervention.Here,our results showed that JSTE could significantly reduce body weight gain,blood lipid levels and fat accumulation,improve fatty damage in liver tissue(P<0.05).In addition,JSTE increased the expression of intestinal tight junction proteins(P<0.05),relieved metabolic endotoxemia(P<0.05)and chronic low-grade inflammation in HFD rats.Sequencing of fecal samples showed that JSTE could effectively reverse the microbial diversity and the ratio of Firmicutes to Bacteroidetes to normal levels in HFD-fed rats.Desulfovibrioceae and Erysipelotrichaceae,which are positively related to obesity,were decreased by JSTE intervention(P<0.05).while Bifidobacteriaceae,Bacteroidaceae,Akkermansia,and Clostridium,which are negatively related to obesity,were increased.Together,these results suggested that JSTE might effectively prevent obesity by modulating gut microbiota dysbiosis,intestinal barrier dysfunction,metabolic endotoxemia and chronic low-grade infl ammation in HFD-induced rats.

A Situational Awareness Method for Initial Insulation Fault of Distribution Network Based on Multi-Feature Index Comprehensive Evaluation

Most ground faults in distribution network are caused by insulation deterioration of power equipment.It is difficult to find the insulation deterioration of the distribution network in time,and the development trend of the initial insulation fault is unknown,which brings difficulties to the distribution inspection.In order to solve the above problems,a situational awareness method of the initial insulation fault of the distribution network based on a multi-feature index comprehensive evaluation is proposed.Firstly,the insulation situation evaluation index is selected by analyzing the insulation fault mechanism of the distribution network,and the relational database of the distribution network is designed based on the data and numerical characteristics of the existing distribution management system.Secondly,considering all kinds of fault factors of the distribution network and the influence of the power supply region,the evaluation method of the initial insulation fault situation of the distribution network is proposed,and the development situation of the distribution network insulation fault is classified according to the evaluation method.Then,principal component analysis was used to reduce the dimension of the training samples and test samples of the distribution network data,and the support vector machine(SVM)was trained.The optimal parameter combination of the SVM model was found by the grid search method,and a multi-class SVM model based on 1-v-1 method was constructed.Finally,the trained multi-class SVM was used to predict 6 kinds of situation level prediction samples.The results of simulation examples show that the average prediction accuracy of 6 situation levels is above 95%,and the perception accuracy of 4 situation levels is above 96%.In addition,the insulation maintenance decision scheme under different situation levels is able to be given when no fault occurs or the insulation fault is in the early stage,which can meet the needs of power distribution and inspection for accurately sensing the insulation fault situation.The correctness and effectiveness of this method are verified.

经尿道Peel-away鞘输尿管镜与经尿道输尿管镜治疗膀胱结石的疗效比较

目的比较经尿道Peel-away鞘输尿管镜与经尿道输尿管镜治疗膀胱结石的效果。方法将该科2013年1月-2015年12月76例膀胱结石按随机原则分为:A组(经尿道Peel-away鞘输尿管镜膀胱碎石术)45例;B组(经尿道输尿管镜膀胱碎石术)31例。结果 76例膀胱结石均获一次性碎石取石成功。碎石时间:A组(17.8±5.9)min,B组(22.7±8.3)min,差异有统计学意义(t=2.96,P=0.004);清石时间:A组(12.6±4.9)min,B组(24.5±5.3)min,差异有统计学意义(t=9.90,P=0.000);术中尿道黏膜损伤:A组(1.0±0.5)分,B组(2.1±0.4)分,差异有统计学意义(t=9.47,P=0.000);VAS评分:A组(1.9±0.6)分,B组(2.6±0.6)分,差异有统计学意义(t=4.72,P=0.000);留置导尿管时间:A组(1.0±0.2)d,B组(1.4±0.9)d,差异有统计学意义(t=2.59,P=0.012);住院费用:A组(7 437.4±356.7)元,B组(7 296.8±333.8)元,差异无统计学意义(t=-1.73,P=0.087)。两组术中无膀胱大出血、穿孔和破裂等并发症,无中转开放手术。术后并发症:B组发生术后泌尿系感染1例,经口服抗生素治疗后痊愈;A组发生术后尿潴留1例,B组5例,差异有统计学意义(χ2=6.43,P=0.011)。随访情况:失访13例,余63例随访6~12个月,两组各有1例老年男性患者因前列腺增生导致尿潴留;余患者均无再发结石,无尿道狭窄。通过统计分析结果,发现A组在碎石时间、清石时间、尿道黏膜损伤、术后疼痛和术后留置导尿管时间等方面较B组具有明显优势。结论经尿道Peel-away鞘输尿管镜与经尿道输尿管镜治疗膀胱结石疗效无明显差异。经尿道Peel-away鞘输尿管镜在碎石时间、清石时间及避免术中损伤尿道黏膜方面更优,两组手术费用无明显差异。经尿道Peel-away鞘输尿管镜是一种值得推广的内镜膀胱碎石手术方法。

Gambogic acid induces mitochondria-dependent apoptosis by modulation of Bcl-2 and Bax in mantle cell lymphoma JeKo-1 cells

Objective： To study the mechanisms in gambogic acid （GA） -induced JeKo-1 human Mantle Cell Lymphoma cell apoptosis in vitro. Methods： The proliferation of GA-treated JeKo-1 cells was measured by CCK-8 assay and Ki-67 immunocytochemical detection. Apopt0sis, cell cycle and mitochondrial membrane potential were measured by flow cytometric analysis. Caspase-3, -8 and -9 were detected by colorimetric assay. Bcl-2 and Bax were analyzed by Western blotting. Results： GA inhibited cell growth in a time- and dose- dependent manner. GA induces apoptosis in JeKo- 1 cells but not in normal bone marrow cells, which was involved in reducing the membrane potential of mitochondria, activating caspases-3, -8 and -9 and decreasing the ratio of Bd-2 and Bax without cell cycle arresting. Conclusions： GA induced apoptosis in human MCL JeKo-1 cells by regulating Bcl-2/Bax and activating caspase-3, -8 and -9 via mitochondrial pathway without affecting cell cycle.

Effect of the in situ leaching solution of ion-absorbed rare earth on the mechanical behavior of basement rock

A clear understanding of the evolution characteristics of leaching solution’s damage to the basement rock of ion-adsorbed rare earth deposits is essential in the in situ leaching mining.In this study,some laboratory tests were carried out to investigate the deterioration behavior and failure mechanism of rock under the erosion of leaching solution.For this purpose,granite specimens were soaked in the leaching solution for different periods and then some physical and mechanical parameters were measured.The experimental results show that the strength of the rock without any soaking is the maximum.After 60 d,the rock strength,mass(dry)and P-wave velocity(dry)decrease to the minimum,while the porosity of the specimens reaches the maximum.Moreover,the failure pattern of the specimens in the uniaxial compression tests is affected as the soaking time increases.The scanning electron microscopy(SEM)image results indicate that the erosion of quartz crystals inside the rock specimens gets more intense with the increase of soaking time.Also,the internal crystal failure mode gradually changes from the trans-granular to the inter-granular.The insights gained from this study are helpful for better understanding the evolution characteristics of leaching solution’s damage to the basement rock of ionadsorbed rare earth deposits.

Enhanced self-adaptive evolutionary algorithm for numerical optimization

There are many population-based stochastic search algorithms for solving optimization problems. However, the universality and robustness of these algorithms are still unsatisfactory. This paper proposes an enhanced self-adaptiveevolutionary algorithm （ESEA） to overcome the demerits above. In the ESEA, four evolutionary operators are designed to enhance the evolutionary structure. Besides, the ESEA employs four effective search strategies under the framework of the self-adaptive learning. Four groups of the experiments are done to find out the most suitable parameter values for the ESEA. In order to verify the performance of the proposed algorithm, 26 state-of-the-art test functions are solved by the ESEA and its competitors. The experimental results demonstrate that the universality and robustness of the ESEA out-perform its competitors.

探讨病原生物与免疫学基础教学方法

"病原生物与免疫学"学习结果好坏对后续护理专业课程的学习造成直接影响,是护理专业非常重要的基础课程之一。病原生物学知识难记、知识点多,而免疫学难懂、较为抽象,影响学生学习效果,甚至产生抵触心理。而"病原生物与免疫学"作为护理与基础医学桥梁,与各护理专业课程紧密相连。本文就对当前"病原生物与免疫学基础"教学存在的问题,进行简单分析,并尝试性探索其教学新思路与方法。

Nano-engineered Strong,Durable and Multifunctional/Smart Concretes

Micro/meso scale modification can bring big changes in macroscale property.The addition of nanofillers makes materials strong,durable and multifunctional/smart.This paper aims at studying mechanical property,durability,electrical property,electromagnetic property and piezoresistivity of concrete with nano silica(NS),carbon nanotube(CNT),botryoid hybrid carbon material(BHCBM),nano graphite

Numerical simulation analysis of wind field above pavement surface in different landforms by computational fluid dynamics approach

The temperature and moisture of the pavement structure can be greatly influenced by the wind speed above pavement surface.The wind speed above pavement surface not only is dominated by the wind speed of atmosphere,but also it is highly related to the landform and buildings around road.However,currently there are no studies about the wind field above pavement surface in consideration of the effect of the landform and buildings.A simulation method,which is combined with geographic information system(GIS),wind data from meteorological observatory and computational fluid dynamics(CFD)software,is employed to study the effect of the landform and the wind speed of atmosphere on the wind field above pavement surface.Three cases are studied,including an urban road,a coastal road and a mountainous road.Furthermore,the wind field distribution above road surface in different wind directions was studied in our work.Results indicate that the wind field above pavement surface can be greatly affected by the landforms,buildings and wind direction.This simulation method can provide reliable results for the wind field above pavement surface.The maximum relative errors between simulated and measured wind speed can be less than 20%in the analysis of the three cases.It is recommended that the CFD simulation method is a good tool to accurately know the wind field above pavement surface.

急性心肌梗死患者住院期间死亡风险模型的构建

目的识别住院期间高死亡风险的急性心肌梗死患者,尽早进行干预,减少病死率。方法收集2013年6月1日至2022年5月31日期间在温州医科大学附属东阳医院住院的1 251例急性心肌梗死患者的临床资料,分析该类患者住院期间死亡的独立危险因素,绘制列线图。采用受试者工作特征(ROC)曲线评估模型的判别能力,同时用校准图评估模型的校准度和决策曲线分析法(DCA)评估预测模型的临床有效性,并应用bootstrap法进行内验证。结果逐步回归分析显示,年龄[比值比(OR)= 1.060,95%置信区间(CI)(1.035,1.087),P < 0.001]及入院后24 h内肌酐[OR = 1.003,95%CI(1.001,1.005),P = 0.012]、乳酸[OR = 1.190,95%CI(1.064,1.332),P = 0.002]、肌酸激酶同工酶[OR = 1.003,95%CI(1.001,1.004),P < 0.001]、B型脑钠肽前体[OR = 1.006,95%CI(1.004,1.008),P < 0.001]及白细胞计数[OR = 1.055,95%CI(1.006,1.105),P = 0.024]的最大值为急性心肌梗死患者住院期间死亡的独立危险因素。建模后ROC曲线下面积为0.851(P < 0.001),校准图的P值为0.896,Brier scaled为0.055,calibration slope为1.000,R2为0.328,DCA曲线在两条极端曲线之上。内验证曲线提示校正曲线与理想曲线之间重合度高。结论入院后24 h内肌酐、乳酸、肌酸激酶同工酶、B型脑钠肽前体、白细胞计数的最大值及发病的年龄为急性心肌梗死患者住院期间死亡的独立危险因素,由上述指标建立的模型在预测急性心肌梗死患者住院期间死亡风险中有较好的意义。

New innovations in pavement materials and engineering:A review on pavement engineering research 2021

Sustainable and resilient pavement infrastructure is critical for current economic and environmental challenges.In the past 10 years,the pavement infrastructure strongly supports the rapid development of the global social economy.New theories,new methods,new technologies and new materials related to pavement engineering are emerging.Deterioration of pavement infrastructure is a typical multi-physics problem.Because of actual coupled behaviors of traffic and environmental conditions,predictions of pavement service life become more and more complicated and require a deep knowledge of pavement material analysis.In order to summarize the current and determine the future research of pavement engineering,Journal of Traffic and Transportation Engineering(English Edition)has launched a review paper on the topic of"New innovations in pavement materials and engineering:A review on pavement engineering research 2021".Based on the joint-effort of 43 scholars from 24 well-known universities in highway engineering,this review paper systematically analyzes the research status and future development direction of 5 major fields of pavement engineering in the world.The content includes asphalt binder performance and modeling,mixture performance and modeling of pavement materials,multi-scale mechanics,green and sustainable pavement,and intelligent pavement.Overall,this review paper is able to provide references and insights for researchers and engineers in the field of pavement engineering.

Shanghai Score： A Prognostic and Adjuvant Treatment-evaluating System Constructed for Chinese Patients with Hepatocellular Carcinoma after Curative Resection

Background： For Chinese patients with hepatocellular carcinoma （HCC）, surgical resection is the most important treatment to achieve long-term survival for patients with an early-stage tumor, and yet the prognosis after surgery is diverse. We aimed to construct a scoring system （Shanghai Score） for individualized prognosis estimation and adjuvant treatment evaluation. Methods： A multivariate Cox proportional hazards model was constructed based on 4166 HCC patients undergoing resection during 2001-2008 at Zhongshan Hospital. Age, hepatitis B surface antigen, hepatitis B e antigen, partial thromboplastin time, total bilirubin, alkaline phosphatase, y-glutamyltransferase, a-fetoprotein, tumor size, cirrhosis, vascular invasion, differentiation, encapsulation, and tumor number were finally retained by a backward step-down selection process with the Akaike information criterion. The Harrell＇s concordance index （C-index） was used to measure model performance. Shanghai Score is calculated by summing the products of the 14 variable values times each variable＇s corresponding regression coefficient. Totally 1978 patients from Zhongshan Hospital undergoing resection during 2009-2012, 808 patients from Eastern Hepatobiliary Surgery Hospital during 2008-2010, and 244 patients from Tianjin Medical University Cancer Hospital during 2010-2011 were enrolled as external validation cohorts. Shanghai Score was also implied in evaluating adjuvant treatment choices based on propensity score matching analysis.Results： Shanghai Score showed good calibration and discrimination in postsurgical HCC patients. The bootstrap-corrected C-index （confidence interval [CI]） was 0.74 for overall survival （OS） and 0.68 for recurrence-free survival （RFS） in derivation cohort （4166 patients）, and in the three independent validation cohorts, the CIs for OS ranged 0.70 0.72 and that for RFS ranged 0.63 0.68. Furthermore, Shanghai Score provided evaluation for adjuvant treatment choices （transcatheter arterial chemoembolization or interferon-a）. The identified subset of patients at low risk could be ideal candidates for curative surgery, and subsets of patients at moderate or high risk could be recommended with possible adjuvant therapies after surgery. Finally, a web server with individualized outcome prediction and treatment recommendation was constructed. Conclusions： Based on the largest cohort up to date, we established Shanghai Score - an individualized outcome prediction system specifically designed for Chinese HCC patients after surgery. The Shanghai Score web server provides an easily accessible tool to stratify the prognosis of patients undergoing liver resection for HCC.

Ergodic sum rate for uplink NOMA transmission in satellite-aerial-ground integrated networks

The application of Non-Orthogonal Multiple Access(NOMA) technology into satelliteaerial-ground integrated networks can meet the requirements of ultra-high rate and massive connectivity for the Sixth-Generation(6G) communication systems. We consider an uplink NOMA scenario for such a satellite-aerial-ground integrated network where multiple users communicate with satellite under the help of an Unmanned Aerial Vehicle(UAV) as an aerial relay equipped with a phased array. Supposing that buffer-aided decode-and-forward protocol is adopted at the UAV relay, we first formulate an optimization problem to maximize Ergodic Sum Rate(ESR) of the considered system subject to individual power constraint and quality-of-service constraint of each user.Then, with known imperfect channel state information of each user, we propose a joint power allocation and robust Beam Forming(BF) iterative algorithm to maximize ESR for the user-to-UAV link. Besides, to take the advantages of Free-Space Optical(FSO) and millimeter Wave(mmWave)communications, we present a switch-based hybrid FSO/mmWave scheme and a robust BF algorithm for the UAV-to-satellite link to achieve higher rate. Moreover, a closed-form ESR expression is derived. Finally, the effectiveness and correctness of the proposed solutions are verified by numerical simulations, and the performance evaluation results show that the proposed solutions not only achieve performance enhancement and robustness, but also outperform the orthogonal multiple access significantly.

Arabidopsis Indole Synthase, a Homolog of Tryptophan Synthase Alpha, is an Enzyme Involved in the Trp-independent Indole-containing Metabolite Biosynthesis

The plant tryptophan （Trp） biosynthetic pathway produces many secondary metabolites with diverse functions. Indole- 3-acetic acid （IAA）, proposed as a derivative from Trp or its precursors, plays an essential role in plant growth and development. Although the Trp-dependant and Trp-independent IAA biosynthetic pathways have been proposed, the enzymes, reactions and regulatory mechanisms are largely unknown. In Arabidopsis, indole-3-glycerol phosphate （IGP） is suggested to serve as a branchpoint component in the Trp-independent IAA biosynthesis. To address whether other enzymes in addition to Trp synthase ~ （TSA1） catalyze IGP cleavage, we identified and characterized an indole synthase （INS） gene, a homolog of TSA1 in Arabidopsis. INS exhibits different subcellular localization from TSA1 owing to the lack of chloroplast transit pepUde （cTP）. In si//co data show that the expression levels of INS and TSA1 in all examined organs are quite different. Histochemical staining of INS promoter-GUS transgenic lines indicates that INS is expressed in vascular tissue of cotyledons, hypocotyls, roots and rosette leaves as well as in flowers and siliques. INS is capable of complementing the Trp auxotrophy of Escherichia co// AtrpA strain, which is defective in Trp synthesis due to the deletion of TSA. This implies that INS catalyzes the conversion of IGP to indole and may be involved in the biosynthesis of Trp-independent IAA or other secondary metabolites in Arabidopsis.

Impact of prophylactic/preemptive donor lymphocyte infusion and intensified conditioning for relapsed/refractory leukemia:a real-world study

Prophylactic/preemptive donor lymphocyte infusion(p/pDLI)and intensified conditioning have shown promising results in experimental studies of refractory/relapsed acute leukemia(RRAL),but real-world data remain scarce.We conducted a multicenter,population-based analysis of 932 consecutive patients.The three-year leukemia-free survival(LFS)rates were 56%for patients receiving both p/pDLI and intensified myeloablative conditioning(MAC)(intenseMAC)and 30%for those who received neither therapy per landmark analysis.Multivariable analyses were run separately for acute myeloid leukemia(AML)and acute lymphoblastic leukemia(ALL),and p/pDLI treatment was linked to significantly higher LFS than non-DLI for both AML and ALL patients without increasing the nonrelapse mortality.IntenseMAC was associated with significantly lower relapse and higher LFS than nonintensified MAC despite higher nonrelapse mortality rates in ALL,while there was no impact of intenseMAC observed in AML.p/pDLI achieved superior outcomes in both matched-sibling donor(MSD)and haploidentical donor transplantation,while intenseMAC only influenced MSD outcomes.Data suggest that RRAL patients receiving“total therapy”by way of p/pDLI and intensified conditioning treatment have an improved chance for LFS,with p/pDLI being safer with a more extensive impact relative to intenseMAC.Patients with RRAL can tolerate both interventions and achieve a reasonable outcome.

Forward link outage performance of aeronautical broadband satellite communications

High-throughput satellites(HTSs) play an important role in future millimeter-wave(mm Wave) aeronautical communication to meet high speed and broad bandwidth requirements. This paper investigates the outage performance of an aeronautical broadband satellite communication system’s forward link, where the feeder link from the gateway to the HTS uses free-space optical(FSO) transmission and the user link from the HTS to aircraft operates at the mm Wave band. In the user link, spot beam technology is exploited at the HTS and a massive antenna array is deployed at the aircraft. We first present a location-based beamforming(BF) scheme to maximize the expected output signal-to-noise ratio(SNR) of the forward link with the amplify-and-forward(AF) protocol,which turns out to be a phased array. Then, by supposing that the FSO feeder link follows Gamma-Gamma fading whereas the mm Wave user link experiences shadowed Rician fading, we take the influence of the phase error into account, and derive the closed-form expression of the outage probability(OP) for the considered system. To gain further insight, a simple asymptotic OP expression at a high SNR is provided to show the diversity order and coding gain. Finally, numerical simulations are conducted to confirm the validity of the theoretical analysis and reveal the effects of phase errors on the system outage performance.

Regulation of DNA break repair by transcription and RNA

Repair of DNA double-strand breaks(DSBs) via the homologous recombination(HR) pathway is a highly regulated process. A number of proteins that participate in HR are intricately modulated by the cell cycle and chromatin environments of DSBs. Recent studies have revealed a clear impact of transcription on HR in transcribed regions of the genome. Several models have been put forth to explain how the process of transcription and/or its RNA products may influence HR. Here we discuss the results and models from these studies, presenting an emerging view of transcription-coupled DSB repair.

Wogonin Inhibits Growth of Mantle Cell Lymphoma Cells through Nuclear Factor-κB Signaling Pathway

To the Editor： Mantle cell lymphoma （MCL） is a non-Hodgkin＇s lymphoma （NHL） subtype and considered one of the most aggressive lyrnphomas with worse prognosis than other subtypes ofN H L. Despite the great progress over the last several decades, treatment of MCL still has troubles in survival, relapse, and drug resistance.