Tislelizumab in previously treated,locally advanced unresectable/metastatic microsatellite instability-high/mismatch repair-deficient solid tumors

Objective:The open-label,phase II RATIONALE-209 study evaluated tislelizumab(anti-programmed cell death protein 1 antibody)as a tissue-agnostic monotherapy for microsatellite instability-high(MSI-H)/mismatch repair-deficient(dMMR)tumors.Methods:Adults with previously treated,locally advanced unresectable or metastatic MSI-H/dMMR solid tumors were enrolled.Patients received tislelizumab 200 mg intravenously every 3 weeks.Objective response rate(ORR;primary endpoint),duration of response(DoR),and progression-free survival(PFS)were assessed by independent review committee(Response Evaluation Criteria in Solid Tumors v1.1).Results:Eighty patients were enrolled and treated;75(93.8%)patients had measurable disease at baseline.Most had metastatic disease and received at least one prior therapy for advanced/metastatic disease(n=79;98.8%).At primary analysis(data cutoff July 8,2021;median follow-up 15.2 months),overall ORR[46.7%;95%confidence interval(95%CI),35.1−58.6;one-sided P<0.0001]and ORR across tumor-specific subgroups[colorectal(n=46):39.1%(95%CI,25.1–54.6);gastric/gastroesophageal junction(n=9):55.6%(95%CI,21.2−86.3);others(n=20):60.0%(95%CI,36.1−80.9)]were significantly greater with tislelizumab vs.a prespecified historical control ORR of 10%;five(6.7%)patients had complete responses.Median DoR,PFS,and overall survival were not reached with long-term follow-up(data cutoff December 5,2022;median follow-up 28.9 months).Tislelizumab was well tolerated with no unexpected safety signals.Treatment-related adverse events(TRAEs)of grade≥3 occurred in 53.8%of patients;7.5%of patients discontinued treatment due to TRAEs.Conclusions:Tislelizumab demonstrated a significant ORR improvement in patients with previously treated,locally advanced unresectable or metastatic MSI-H/dMMR tumors and was generally well tolerated.

基于多测速多测距的交互多模型卡尔曼滤波算法

针对战术弹道导弹实时跟踪问题,提出了一种基于多测速多测距的交互多模型不敏卡尔曼滤波算法。利用新一代分布式雷达系统测量的高精度主/副站距离和速度测元进行测元层融合,避免了雷达测量误差较大的方位和俯仰测元的引入。通过不敏卡尔曼滤波避免了对观测方程计算雅可比矩阵的复杂过程,并能够获得同比三阶泰勒展开的结果。算法采用匀速模型、匀加速模型和当前统计模型在内的交互多模型框架,能够持续跟踪导弹飞行,有效应对导弹关机点等轨迹跃变点带来的滤波突变。仿真算例验证了所提出的算法相较于传统算法在导弹飞行段具有较高的滤波精度,并且能够很好地适应目标的机动性,可为分布式雷达对战术弹道导弹的实时跟踪问题提供一种新的解决方案。

内容、用户和收入:网络视频平台差异化管理模式研究

理论分析表明媒体互联网平台内容、用户和收入呈现分类演进趋势,网络视频平台呈现专业生产内容(PGC)模式、专业用户生产内容(PUGC)模式和用户生成内容(UGC)模式这三种差异化运营模式。用爱奇艺、哔哩哔哩和快手这三家网络视频企业的投资数据来分析其在内容、用户和收入上的差异化管理模式的选择,用运营和财务数据差异来验证其差异化经营模式产生的结果。研究表明:PGC更注重精品内容的生产与购买,关注增加和挖掘会员用户,实现内容变现下的会员和广告收入;PUGC更关注圈层用户的专业化内容生产与内容分享,关注用户间的圈层吸引与聚集,提升用户活跃度与黏性,实现圈层用户的流量变现和拓展产品衍生收入;UGC以用户上传视频为信息内容,以强大的后台算法和精准推送来聚合并提升用户活跃度和黏性,以直播和线上营销为主要收入来源。差异化的经营模式分析对网络视频平台企业运营优化和监管提升提供了较好的支持。

基于加权平均值的时变Hurst指数估计方法研究

近年来,随机信号的局部自相似性分析逐渐成为研究热点。文中在传统固定Hurst指数估计方法基础上引入加权平均值法,实现具有局部自相似特性随机信号的时变Hurst指数估计。基于加权平均值的时变Hurst指数估计方法是在随机信号进行指数加权的基础上结合q阶矩理论计算局部自相似参数。应用分形高斯噪声仿真时间序列和美国贝尔实验室BC-pAug89.TL网络流量数据的分析结果表明,该方法可以有效估计随机信号的局部自相似性,并具有较大实际应用价值。

基于窗函数的自相似性时变Hurst指数估计方法研究

基于描述数据自相似特性的全局性Hurst指数无法用于信号的局部自相似特性的实时分析,突破固定Hurst指数估计的传统方法,引入滑动窗函数对分形高斯噪声(FGN)仿真时间序列进行估计和研究,并对估计算法的有效性进行了验证和分析.

Alpha稳定分布噪声下时变Hurst指数估计方法研究

为了分析脉冲噪声环境下时间序列时变Hurst指数估计算法的可靠性,对Alpha稳定分布噪声下仿真随机序列的Hurst指数进行分析。本研究应用功率谱快速傅里叶变换方法仿真合成具有局部自相似特性的分数阶高斯随机序列,并叠加特征指数为1.5的Alpha稳定分布噪声,分别采用基于滑动矩形窗函数和基于滑动布莱克曼窗函数的残差方差算法分析。分析结果表明两种算法都可以有效估计时间序列时变Hurst指数,基于矩形窗函数的残差方差估计法的估计结果相对更加准确,但对脉冲噪声比较敏感;基于布莱克曼窗函数的残差方差估计法虽然准确性稍差,但是对脉冲噪声的鲁棒性更好。

老年期痴呆的中医手法治疗效果初探

目的:对老年期痴呆患者提供中医传统手法治疗并对此疗法在减轻患者精神行为问题和提高日常生活机能与认知功能方面的疗效进行评价,为该病的精神行为症状的治疗和缓解提供新思路。方法:总共71名受试者来自中国十个省市的14个中医院和养老院,为50岁以上中老年人(其中50~60岁2人,60~70岁16人,70~80岁23人,80~90岁25人,90以上5人),患有不同程度的认知功能障碍。所有病人得到为期为6个月,每周3次,每次40~60分钟的统一规程的中医手法推拿按摩治疗。使用单组治疗前后对照研究,全部参加者在入组时先做基线测查,治疗中期(3个月)和治疗结束(6个月)时再做一次同样的测查。结果:认知功能(MMSE)三月追踪和基线无显著性统计变化,但六月追踪与基线相比有显著性提高(t=2.71;p <0.01)。精神行为问题(NPI)三月追踪(t=-3.15;p <0.01)和六月追踪(t=-4.43;p <0.001)都相对基线有显著性降低。日常生活机能(ADL)三月追踪(t=3.75;p <0.001)和六月追踪(t=6.17;p <0.001)相对基线有显著性提高。这些结果表明,这些患者在接受传统中医手法治疗三个月后,在降低精神与行为问题方面有明显好转,在日常生活机能方面也有明显提高。在连续接受治疗六个月,患者的认知功能还表现出明显的好转。结论:初步证据表明传统中医手法对老年期痴呆患者有明显治疗效果。中医手法操作简单易学,在老年期痴呆患者照护实践中有很强的可行性和广泛接受性,值得进一步研究和推广。

Precipitation Microphysical Characteristics of Typhoon Ewiniar(2018) before and after Its Final Landfall over Southern China

In this paper, the evolution of the microphysical characteristics in different regions(eyewall, inner core, and outer rainbands) and different quadrants [downshear left(DL), downshear right(DR), upshear left(UL), and upshear right(UR)]during the final landfall of Typhoon Ewiniar(2018) is analyzed using two-dimensional video disdrometer and S-band polarimetric radar data collected in Guangdong, China. Due to the different types of underlying surfaces, the periods before landfall(mainly dominated by underlying sea surface) and after landfall(mainly dominated by underlying land surface) are also analyzed. Both before landfall and after landfall, the downshear quadrants had the dominate typhoon precipitation. The outer rainbands had more graupel than the inner core, resulting in a larger radar reflectivity, differential reflectivity, specific differential phase shift, and mass-weighted mean diameter below the melting layer. Compared with other regions, the eyewall region had the smallest mean logarithmic normalized intercept parameter before landfall and the smallest mean mass-weighted mean diameter and the largest mean logarithmic normalized intercept parameter after landfall. The hydrometeor size sorting was obvious in the eyewall and inner core(especially in the eyewall) after landfall. A high concentration of large raindrops fell in the DL quadrant, and more small raindrops fell in the UR quadrant. Although the icephase process and warm rain process were both important in the formation of tropical cyclone precipitation, the warm rain process(ice-phase process) contributed more liquid water before landfall(after landfall). This investigation provides a reference for improving the microphysical parameterization scheme in numerical models.

Pocket Modification of x-Amine Transaminase AtATA for Overcoming the Trade-Off Between Activity and Stability Toward 1-Acetonaphthone

Amine transaminases(ATAs)catalyze the asymmetric amination of prochiral ketones or aldehydes to their corresponding chiral amines.However,the trade-off between activity and stability in enzyme engineering represents a major obstacle to the practical application of ATAs.Overcoming this trade-off is important for developing robustly engineered enzymes and a universal approach for ATAs.Herein,we modified the binding pocket of co-ATA from Aspergillus terreus(AtATA)to identify the key amino acid residues controlling the activity and stability of AtATA toward 1-acetonaphthone.We discovered a structural switch comprising four key amino acid sites(R128,V149,L182,and L187),as well as the"best"mutant(AtATAD224K/V149A/L182 F/L187F;termed M4).Compared to the parent enzyme AtATAD224K(AtATAPa),M4 increased the catalytic efficiency(k_(cat)/K_(m)^(1-acetonaphthone),where kcatis the constant of catalytic activities and is 10.1 min^(-1),K_(m)^(1-acetonaphthoneis) Michaelis-Menten constant and is 1.7 mmol·L^(-1))and half-life(t1/2)by 59-fold to 5.9 L·min^(-1)·mmol-1and by 1.6-fold to 46.9 min,respectively.Moreover,using M4 as the biocatalyst,we converted a 20 mmol·L^(-1)aliquot of 1-acetonaphthone in a 50 mL scaled-up system to the desired product,(R)-(+)-1(1-naphthyl)ethylamine((R)-NEA),with 78%yield and high enantiomeric purity(R>99.5%)within 10 h.M4 also displayed significantly enhanced activity toward various 1-acetonaphthone analogs.The related structural properties derived by analyzing structure and sequence information of robust ATAs illustrated their enhanced activity and thermostability.Strengthening of intramolecular interactions and expansion of the angle between the substratebinding pocket and the pyridoxal 5’-phosphate(PLP)-binding pocket contributed to synchronous enhancement of ATA thermostability and activity.Moreover,this pocket engineering strategy successfully transferred enhanced activity and thermostability to three other ATAs,which exhibited 8%-22%sequence similarity with AtATA.This research has important implications for overcoming the trade-off between ATA activity and thermostability.

基于BLUE的雷达/红外异步融合算法研究

多传感器融合是提高态势感知能力的重要手段。为提高探测能力,将雷达和红外传感器组网,各传感器独立工作,在统一调度下,完成探测、跟踪、识别任务。研究该系统的雷达/红外数据融合算法,针对传感器异步探测特点,采用观测驱动的融合跟踪方法:雷达探测到目标时,采用基于状态预测的改进BLUE(Best Lin-ear Unbiased Estimation)滤波,通过方位预测的辅助,减小测角误差非线性效应,提高跟踪性能;红外探测到目标时,基于方位预测和斜距观测,构造新的转换量测模型,实现基于不完备观测的修正BLUE滤波器。理论分析和仿真证明:所述雷达/红外数据融合方法,在不同传感器布局下都具备更优的综合性能,其设计思想可解决其他类似的多传感器融合问题,有较好的应用推广潜力。

激光汽化术与前列腺电切术治疗良性前列腺增生疗效的Meta分析

目的系统评价经尿道980nm激光汽化术与前列腺电切术(TURP)治疗良性前列腺增生(BPH)的疗效。方法收集国内外关于经尿道980nm激光汽化术与TURP治疗BPH的文献,采用Revman5.3软件进行Meta分析。结果筛选后共6篇文献符合纳入标准,总计839例,其中包括980nm激光治疗组450例和TURP组389例。Meta结果显示:和TURP组相比,980nm激光组手术时间差异无统计学意义[标准化均数差(SMD)=0.11,95%CI(-0.52,0.74),P>0.05],住院时间较短[SMD=-1.95,95%CI(-3.42,-0.48),P<0.05]及术后尿管留置时间较短[SMD=-2.64,95%CI(-3.92,-1.36),P<0.05]。980 nm激光组和TURP组在术后国际前列腺症状评分(IPSS)差异无统计学意义[加权均数差(WMD)=0.12,95%CI(-0.27,0.51),P>0.05],术后生活质量评分(QOL)评分差异无统计学意义[SMD=0.00,95%CI(-0.57,0.57),P>0.05],术后最大尿流率(Qmax)差异无统计学意义[SMD=0.06,95%CI(-0.26,0.37),P>0.05]。结论 980nm激光治疗良性BPH与经典的TURP术式相比,在住院时间和术后尿管留置时间方面有优势,远期效果无明显差异。

地方政府债务、银行业结构与中小企业融资约束

选取2008-2018年中小板与创业板数据,利用现金-现金流敏感性模型,研究地方政府债务、银行业结构对中小企业融资约束的影响。研究发现,中小银行规模占比更高的银行业结构会显著缓解中小企业融资约束,但这种结果具有规模异质性和区域异质性。进一步研究发现,地方政府债务的增长挤占了以地方性银行为主的中小银行信贷资源,导致中小规模化的银行业结构不但没有实现缓解中小企业融资约束作用,反而加剧了同样存在规模异质性和区域异质性。根据研究结果,建议各地方政府在优化区域银行业结构的基础上,应该合理规范地方政府负债行为,使中小企业的融资环境得到切实改善。

基于ARIMA的网络流量建模及预测研究

随着科学技术的快速发展,互联网已经进入大数据时代,网络业务的类别和数据量急剧增加,导致网络流量数据的分析方法也随之发生了明显改变。网络流量预测是网络流量分析的一种重要方法,其分析结果不仅可以指出网络流量的未来趋势,而且通过对流量预测值的分析能够提前发现网络异常。传统的网络流量模型在如今的流量分析与预测中存在一定限制,因此探索新的网络流量建模及预测方法势在必行。通过建立自回归积分滑动平均(ARIMA)模型对贝尔实验室提供的BC-Oct89Ext实测流量数据进行网络流量预测,该模型对于部分非平稳网络流量数据的分析和预测的准确性较高,网络流量预测结果可以对网络趋势进行相应的网络资源调整,保证网络业务的服务质量与服务效率,对网络业务的快速发展具有重要意义。

硕通镜碎石术与输尿管镜碎石术治疗尿路结石有效性和安全性的Meta 分析

目的评价硕通镜和输尿管镜治疗尿路结石的有效性和安全性,并进行Meta分析。方法计算机检索英文数据库PubMed、Embase、The Cochrane Library和中文数据库CNKI、VIP、CBM及WanFang Data(检索时间为建库至2020年2月),收集有关比较硕通镜和输尿管镜治疗尿路结石的临床试验。由两名研究者独立进行文献筛选、数据提取和评价纳入文献的方法质量学,使用Review Manager 5.3软件进行Meta分析。结果该研究共纳入8篇研究,总样本量为901例。硕通镜组术后1个月结石清除率较输尿管镜组高(O^R=2.72,95%CI:1.78~4.13,P<0.05),并发症发生率较输尿管镜组低(O^R=0.33,95%CI:0.22~0.50,P<0.05);两组置鞘成功率(O^R=0.73,95%CI:0.25~2.10)、手术时间(MD=-3.14,95%CI:-11.78~5.50)和术后住院时间(MD=-0.02,95%CI:-0.13~0.09)比较,差异均无统计学意义(P>0.05)。结论硕通镜碎石术相对于传统输尿管镜而言,是一种能使患者受益的手术方式,拥有更高的结石清除率与较低的并发症发生率,但手术时间和住院时间等方面还需要更多高质量的试验予以验证,以期为临床提供参考。

生态与常规种植对土壤养分、微生物及重金属的影响

为探讨生态种植模式对土壤环境的影响,以四川成都府南河上游地区安龙村生态农业和传统农业为研究对象,比较分析了生态种植与常规种植模式对土壤养分、微生物及重金属的影响。结果表明:除细菌含量外,生态种植的土壤中微生物碳含量及真菌、放线菌数量均高于常规种植,生态种植改善了土壤中微生物群落结构;生态种植土壤中重金属Cr、Pb、Hg和As含量均低于常规种植,Cd含量相差不大,生态种植带入的重金属较少;生态种植土壤中总氮、总磷、有效氮及有效钾的含量均高于常规种植,但总钾和有效磷的含量低于常规种植,这与两种种植方式下农业投入品不同密切相关。研究表明,生态种植能一定程度提升土壤养分,改善土壤微生物群落结构,并有效减少种植带入的重金属。

基于转换量测高斯化的三坐标雷达跟踪算法

最佳线性无偏估计(BLUE,Best Linear Unbiased Estimation)滤波用于雷达目标跟踪时,有计算量小,置信度高等优点.但是当互斜距测量误差较大时,BLUE滤波会产生非高斯转换量测,导致跟踪精度降低.为解决此问题,对其量测转换模型进行修正:通过引入方位预测,减小方位误差三角函数的非线性影响,得到准高斯分布的转换量测.分析视线坐标系下BLUE滤波的性能,推导引入方位预测的条件,给出改进算法工作流程.推导三坐标雷达下的滤波模型参数,提出转换量测高斯化水平的评估指标并仿真证明:改进算法的转换量测更逼近高斯分布,因此跟踪性能更好,而计算量只有轻微增加.本算法思想同样适用于其他非线性误差较大的场合,对解决类似问题有借鉴意义.

双边市场视角下互联网平台并购对企业成长的影响研究--以美团为例

移动互联网平台突破性发展是市场关注的热点。从双边市场的异质性产品定位,到平台演进和生态化打造是移动互联网平台成长的逻辑。基于平台双边资源聚合及网络效用增强的有序投资,是实现平台成功突破的重要战略步骤。美团作为移动互联网时代下短期迅速成长的平台代表,正遵循着平台成长逻辑,对需求端的用户增长、供给端的产品多元突破、网络效应增强的算法提升以及平台商家产业互联网赋能等方面实施有序的投资与并购,实现其交易规模和变现率的高速增长,以及平台收入和利润的快速提高。

亚微米颗粒物湍流团聚数值模拟研究

亚微米颗粒物(Submicron Particle)是大气污染物的重要来源之一,危害人体健康,湍流团聚是脱除燃煤烟气中亚微米颗粒的重要手段。利用k-ε湍流模型与离散相(DPM)模型,在亚微米颗粒物湍流团聚试验平台基础上建立了一个由湍流效应和布朗运动共同作用的亚微米颗粒团聚过程的数值模型,根据试验数据对模型进行合理性验证,研究了湍流团聚器的进口流速、扰流件排布、扰流件形状对亚微米颗粒团聚特性的影响规律。结果表明:扰流件迎风面和扰流件的纵向尾迹区是碰撞和聚集的主要区域;小粒径亚微米颗粒物的团聚效率明显大于大粒径,从粒径593.5 nm处团聚效率开始变为负数;不同流速下,由于更小粒径颗粒物在涡流中跟随能力更强,PM 0.1的团聚效率均大于PM 1,湍流团聚器的进口流速不宜过大,以保证亚微米颗粒物所需要的停留时间。模拟所采用的三棱柱错排扰流件的最大团聚效率对应的流速为5 m/s;亚微米颗粒物在顺排、错排结构的团聚效率差别不大,但顺排和错排结构对亚微米颗粒物的作用机制有较大差别,顺排结构扰流件尾迹区的涡街得到充分发展,而错排结构包含更多迎风面,增大了颗粒物碰撞几率,更易受到侵蚀;此外,单个扰流件条件下,由于Y型扰流件的产涡能力更强,比圆柱型扰流件和三棱柱型扰流件具有更好的湍流团聚效果。

基于改进R/S估计算法的网络流量长相关性分析

R/S估计算法被广泛应用于随机信号的长相关性分析,但存在准确性和计算效率不高的缺点,很难应用于信号的长相关性的实时分析.为了提高传统R/S估计算法的准确度和计算效率,基于R/S估计算法中重新标度的方法进行了优化,并采用分数阶高斯噪声序列和真实的网络流量数据对算法进行验证.结果表明改进R/S估计算法在准确度和计算效率上都有明显提升,可以广泛应用于网络流量数据和水纹数据等具有长相关特性的随机信号实时处理.

二维材料最新研究进展

Research on two-dimensional(2D) materials has been explosively increasing in last seventeen years in varying subjects including condensed matter physics, electronic engineering, materials science, and chemistry since the mechanical exfoliation of graphene in 2004. Starting from graphene, 2D materials now have become a big family with numerous members and diverse categories. The unique structural features and physicochemical properties of 2D materials make them one class of the most appealing candidates for a wide range of potential applications. In particular, we have seen some major breakthroughs made in the field of 2D materials in last five years not only in developing novel synthetic methods and exploring new structures/properties but also in identifying innovative applications and pushing forward commercialisation. In this review, we provide a critical summary on the recent progress made in the field of 2D materials with a particular focus on last five years. After a brief backgroundintroduction, we first discuss the major synthetic methods for 2D materials, including the mechanical exfoliation, liquid exfoliation, vapor phase deposition, and wet-chemical synthesis as well as phase engineering of 2D materials belonging to the field of phase engineering of nanomaterials(PEN). We then introduce the superconducting/optical/magnetic properties and chirality of 2D materials along with newly emerging magic angle 2D superlattices. Following that, the promising applications of 2D materials in electronics, optoelectronics, catalysis, energy storage, solar cells, biomedicine, sensors, environments, etc. are described sequentially. Thereafter, we present the theoretic calculations and simulations of 2D materials. Finally, after concluding the current progress, we provide some personal discussions on the existing challenges and future outlooks in this rapidly developing field.