Current perspectives on the management of lateral pelvic lymph nodes in rectal cancer

Significant controversies exist with regards to the optimal management of lateral pelvic lymph nodes metastases(mLLN)in patients with low rectal cancer.The differing views held by Japanese and Western clinicians on the management of mLLN have been well documented.However,the adequacy of pelvic lymph node dissection(PLND)or neoadjuvant chemoradiation(NACRT)alone in addition to total mesorectal excision(TME)have recently come into question,due to the relatively high incidence of lateral local recurrences following PLND and TME,or NACRT and TME alone.Recently,a more selective approach to PLND has been suggested,involving a combination of neoadjuvant therapy,followed by PLND only to patients in whom the oncological benefit is likely to outweigh the risk of potential adverse events.A number of studies have attempted to retrospectively identify certain nodal characteristics on preoperative imaging,such as nodal size,appearance,and size reduction following neoadjuvant therapy.However,no consensus has been reached regarding the optimal criteria for a selective approach to PLND,partly due to the heterogeneity and retrospective nature of most of these studies.This review aims to provide an overview of recent evidence with regards to the diagnostic challenges,considerations for,and outcomes of the current management strategies for mLLN in rectal cancer patients.

A Monolithic, FEM-Based Approach for the Coupled Squeeze Film Problem of an Oscillating Elastic Micro-Plate Using 3D 27-Node Elements

In this study we describe an FEM-based methodology to solve the coupled fluid-structure problem due to squeeze film effects present in vibratory MEMS devices, such as resonators, gyroscopes, and acoustic transducers. The aforementioned devices often consist of a plate-like structure that vibrates normal to a fixed substrate, and is generally not perfectly vacuum packed. This results in a thin film of air being sandwiched between the moving plate and the fixed substrate, which behaves like a squeeze film offering both stiffness and damping. Typically, such structures are actuated electro-statically, necessitating the thin air gap for improving the efficiency of actuation and the sensitivity of detection. To accurately model these devices the squeeze film effect must be incorporated. Extensive literature is present on mod- eling squeeze film effects for rigid motion for both perforated as well as non-perforated plates. Studies which model the plate elasticity often use approximate mode shapes as input to the 2D Reynolds Equation. Recent works which try to solve the coupled fluid elasticity problem, report iterative FEM-based solution strategies for the 2D Reynolds Equation coupled with the 3D elasticity Equation. In this work we present a FEM-based single step solution for the coupled problem at hand, using only one type of element (27 node 3D brick). The structure is modeled with 27 node brick elements of which the lowest layer of nodes is also treated as the fluid domain (2D) and the integrals over fluid domain are evaluated for these nodes only. We also apply an electrostatic loading to our model by considering an equivalent electro-static pressure load on the top surface of the structure. Thus we solve the coupled 2D-fluid-3D-structure problem in a single step, using only one element type. The FEM results show good agreement with both existing analytical solutions and published experimental data.

Simulation of Droplet-gas Flow in the Effervescent Atomization Spray with an Impinging Plate

Abstract A comprehensive three-dimensional model of droplet-gas flow was presented to study the evolution of spray in the effervescent atomization spray with an impinging plate. For gas phase, the N-S equation with the κ-ε turbulence model was solved, considering two-way coupling interaction between droplets and gas phase. Dispersed droplet phase is modeled as Lagrangian entities, accounting for the physics of droplet generation from primary and secondary breakup, droplet collision and coalescence, droplet momentum and heat transfer. The mean size and sta- tistical distribution of atomized droplets at various nozzle-to-plate distances were calculated. Some simulation resuits were compared well with experimental data. The results show that the existence of the impinging plate has a pronounced influence on the droplet mean size, size distribution and the droplet spatial distribution. The air-to-liquid ratio has obvious effects on the droplet size and distribution.

Study of Single Plated Principle on Large Diameter Circular Weft Knitting Machine

A new theory and method that differs from the tradition-al single plated weft - knitting theory and method hasbeen expounded after theoretical analyzing and experi-mental proving. If the new method is used when platingstitch is knitted on large diameter weft knitting machine,the thorny problem of long standing that ground yarn iseasy to appear on the face side of fabric is solved. Thenew method, i.e, the production of physical ability oftraining uniform for serviceman has been used.

STATISTICAL ANALYSIS OF YARN APPEARANCE IN SINGLE PLATED WORK KNITTED ON LARGE DIAMETER CIRCULAR WEFT KNITTING MACHINE

In this paper the significance analysis has been made of the factors influencing the yarn appearing of single plated weft-knit fabrics knitted on large diameter machine by a mathematical statistical method. By means of orthogonal test and variance analysis, it is known that the feeding tension is the significant factor influencing the yarn appearance and the ground yarn tension should be larger than the face yarn tension. Through comparison, it is also known that the drawing off force should be regulated suitably, the carrier should be near the first closed needle, and the sinker should be out late slightly.

A criterion for flow mechanisms through vertical sharp-edged orifice and model for the orifice discharge coefficient

According to the experimental data of the orifice discharge coefficient for the flow through a vertical sharp-edged orifice obtained in the previous study of this work,a theoretical criterion for flow mechanisms of small orifice（viz.thick-walled orifice and nozzle） and large orifice（viz.thin-walled orifice） was proposed based on the ratio of orifice diameter to plate thickness.It can help explain the dissipation of the mechanical energy loss in the flow process for the two flow mechanisms under different operating regimes.The main parameters such as orifice diameter,plate thickness and liquid head were correlated,and a semi-empirical model for orifice coefficient and an empirical model with high precision at the stable region were developed.

纵向钢筋C型卡槽连接单向拉伸力学性能

为提高装配式纵向钢筋连接的施工效率,提出了C型卡槽连接方式,制作9个连接件并进行单向拉伸试验,观察其破坏形态,研究试件荷载-位移曲线、应变发展过程,分析不同锚固板直径对连接件连接性能的影响;基于混凝土局部受压计算公式,推导出C型卡槽连接钢筋的承载力计算公式,并给出不同锚固板直径与带锚固板钢筋直径的适配表。结果表明:锚固板直径为43 mm和48 mm的连接件发生带锚固板钢筋拉断破坏,荷载-位移曲线与单根钢筋拉伸的荷载-位移曲线相似,均能满足JGJ 107—2016和ACI 318对接头的强度要求;锚固板直径为38 mm的连接件是依据JGJ 256—2011选取锚固板直径,试验过程中发生带锚固板钢筋拔出破坏,证明按照规程取值,锚固板直径偏小,无法满足连接要求;锚固板直径为38 mm的连接件其荷载-位移曲线呈现波浪形,承载力虽小于前两者,但仍具有较好的延性和较高的残余承载力;所有连接件的C型卡槽在整个受力过程中应变值较小,始终处于弹性阶段,C型卡槽环向应变表现为压应变,C型卡槽连接钢筋承载力的理论计算结果与试验结果相符。

棒电极直径和端部形状对短空气间隙交流击穿电压的影响研究

空气间隙交流击穿特性试验常采用棒棒、棒板电极作为试验电极,目前棒电极直径、棒端部形状对空气间隙交流击穿电压的影响尚不清晰。为此,用直径2 cm、1 cm的圆棒和直径1 cm的尖棒搭建棒棒、棒板电极,开展5~40 cm短空气间隙下的交流击穿试验,研究棒电极直径和端部形状对空气间隙交流击穿电压的影响。结果表明:在试验棒电极直径和端部形状范围内,空气间隙距离5~20 cm时,各棒棒或棒板电极空气间隙击穿电压相对偏差在5.93%~33%之间,随着空气间隙距离增大,棒电极直径和端部形状对棒棒、棒板空气间隙击穿电压的影响逐渐减弱;空气间隙距离大于20 cm时,各棒棒或棒板电极空气间隙击穿电压相对偏差均小于5%。研究认为,空气间隙距离超过20 cm时,棒电极直径和端部形状对棒棒、棒板空气间隙击穿电压无影响。

轻钢龙骨防火组合楼板梁板节点连接试验研究

轻钢龙骨防火组合楼板是一种新型的装配式楼板,因为自重较小,同时具有较大的承载力,板底板顶附层为防火楼板,具有较好的防火能力,该种楼板作为简支板直接放置于工字钢梁上,支座处无法传递负弯矩,因此在梁顶支座处会出现一条通缝,严重影响使用效果,同时简支板体系也不符合抗震规范的要求。本文提出一种新的支座处梁板节点连接方式,目的是通过合理连接,实现支座处能够传递负弯矩,由简支变为固结。试验采用液压千斤顶对试件施加静荷载,对11个全比例节点连接试件进行研究,考虑连接件搭接长度、连接件厚度、连接所用的自攻螺钉(螺栓)的数量,以及连接件尺寸对梁板连接节点承载力和挠度的影响,并对节点连接件与C型轻钢龙骨之间的变形协调能力做出了分析。研究表明,本文提出的以Z型钢为连接件的梁板节点连接方法安全可靠,可实现该新型楼板的双跨以及多跨连接。

大跨度装配式单层网壳十字形半刚性螺栓连接节点抗弯性能研究

装配式连接节点是大跨度装配式单层空间网壳结构体系的关键。提出一种适用于大跨度单层网壳结构的十字形板装配式节点。该节点由圆钢管、十字形钢板、角钢、矩形连接盖板、圆盖板和高强螺栓组成,其中圆钢管、盖板、十字形钢板在工厂焊接,现场将十字形板和角钢、矩形盖板用高强螺栓连接。该节点通过设置角钢、矩形连接盖板和十字形钢板螺栓连接,在节点受到弯曲荷载时,角钢和矩形连接盖板可以首先承受弯曲荷载,从而减少节点内侧的十字形钢板塑性损伤,并且提高节点的抗弯性能。利用有限元模拟方法,构建新型连接节点有限元模型,分析了十字形钢板和角钢厚度等变量如何影响节点在平面内外的抗弯性能。通过对各组成部分尺寸的参数化研究,得到了这些因素对所提出的连接节点平面内外抗弯性能的影响规律。研究结果表明,采用角钢与矩形盖板相连接形成的十字形节点,在抗弯刚度和承载力方面表现出了优异的性能。通过调节十字形板厚度、螺栓个数、角钢和盖板厚度可调控节点的初始抗弯刚度和抗弯承载力。基于刚性节点设计方法,对该半刚性节点进行尺寸理论设计,结果表明该方法可以保证节点弯矩设计值基本达到圆钢管的屈服弯矩,满足设计要求,提高节点安全。

钢结构梁柱加固节点框架损伤演化过程数值模拟分析

为研究不同因素对钢结构梁柱加固节点框架演化过程损伤的影响,选择4个钢结构梁柱加固节点框架试件作为实验对象,在其他条件不变基础上,改变试件轴压比、钢盖板厚度以及混凝土强度,用ABAQUS软件对钢结构梁柱加固节点框架进行模拟,观察损伤演化过程的应力云图情况,并对屈服位移与峰值位移进行统计。结果表明:轴压比以及钢盖板厚度对受力性能影响不大,混凝土强度对受力性能影响较大,并且随着混凝土强度的增加,钢结构梁柱加固节点框架的承载力也在增加,在节点框架设计时,应适当增加混凝土强度,提高节点框架承载力。

不锈钢端板攻丝高强度螺栓连接抗拉承载力分析

下文对新型不锈钢端板攻丝连接与传统高强度螺栓连接抗拉受力性能进行试验对比,并对不锈钢端板攻丝连接进行有限元分析,研究其破坏形态、受力机理和极限承载能力。分析结果表明:随着攻丝端板板厚的增加,连接件破坏形态由攻丝端板破坏转向螺栓第一排螺纹处拉断破坏,揭示了新型不锈钢端板攻丝连接形式的破坏机理,且攻丝连接件极限承载力达到了传统连接理论值,表明连接件的可靠。

单灶cN0M0期甲状腺微小乳头状癌超声与病理测量的直径差异

目的:比较低危甲状腺微小乳头状癌(papillary thyroid microcarcinoma,PTMC)术前超声与术后病理测量的直径差异,并分析其与术后淋巴结转移的关系。方法:回顾性分析2021年4月至2022年1月在南京中医药大学附属中西医结合医院甲状腺乳腺外科就诊接受甲状腺腺叶切除术或全甲状腺切除术的单灶cN0M0 PTMC病人234例,比较超声与病理测量的直径差异,并分析出现颈部中央区淋巴结转移相关的风险因素。结果:PTMC中位最大直径的超声测量结果为6.8(5.6,8.4)mm,明显大于病理测量结果5.0(4.0,7.0)mm(P=0.000)。其中,37.2%的PTMC超声与病理测量直径一致,61.1%超声评估大于病理,仅1.7%超声评估小于病理。超声与病理测量的直径之间存在线性相关,回归方程可表示如下:病理直径=0.799×超声直径-0.221。28.6%的PTMC病人存在中央区淋巴结转移。多元Logistic回归分析结果表明,病理测量直径是发生中央区淋巴结转移的危险因素(OR=17.845,95%CI:2.507~127.025,P=0.004),截断值为5.5 mm,对应的超声测量直径为7.2 mm。结论:超声与病理测量单灶cN0M0 PTMC直径差异有统计学意义,但也存在显著相关性。病理直径>5.5 mm、超声测量直径>7.2 mm,PTMC发生中央区淋巴结转移的风险增加。

大豆茎秆相关表型自动检测方法研究

针对成熟期大豆植株中茎节数和茎粗表型的自动获取问题,将其分解为茎节识别、茎秆区域检测、茎节定位与排序、茎粗计算等若干子问题,提出一种融合目标检测、语义分割、路径规划等算法的茎秆表型自动检测方法。以A*寻径算法和目标检测算法为基础,实现了茎节自动检测与计数;以类比法、曲率法和最大内切圆法为基础,实现了茎粗自动检测与计算。针对成熟期植株中豆荚遮挡导致茎秆表型检测精度不佳的问题,在以YOLOv5s为基准的目标检测模型上融入坐标注意力机制,以增强对被遮挡茎节的关注,同时,针对豆荚密集导致的茎节误检问题,设计融合位置信息的过滤算法,将茎节检测任务的平均检测准确度(mAP)提升至93.2%,高于基准模型2.4百分点。使用语义分割模型识别茎秆区域,优化后的均交并比(mIoU)达82.6%。基于语义分割后的茎秆区域,对比3种茎粗检测方法,以最大内切圆法准确率最高。在实际植株样本图片上的检测结果表明,所提出的方法在茎节数和茎粗表型上的平均绝对误差分别为1.33个和0.99 mm,与人工测量的阈值要求基本相符,均方根误差分别为1.74和1.20,平均绝对百分比误差分别为8.96%和16.37%。

不同长径比柱形炸药水下爆炸气泡动力学行为特性

采用实验与数值模拟相结合的方法,研究了不同长径比的柱形装药在固支方板下爆炸气泡动力学行为;对质量2.5g、长径比分别为1∶1和2∶1的TNT炸药进行了水中固支方板下的爆炸实验,利用高速摄影记录爆炸气泡演化图像;使用ABAQUS软件对长径比为5∶1、10∶1、20∶1的柱形装药,在竖直与水平设置条件下的水下爆炸气泡演化过程进行了数值模拟。结果表明,炸药长径比为1∶1和2∶1时,爆炸气泡演化现象无明显差别。当药柱竖直放置时,由于炸药长径比不同导致的爆炸气泡初始形态差异,会在气泡演化过程中迅速消弭;但长径比与起爆位置都对射流速度有不同程度的影响;当药柱水平放置时,起爆点位置会影响气泡的对称性和水射流形态;药柱端部起爆时,气泡膨胀过程的形态略微不对称,水射流向起爆点方向偏移;炸药长径比越大爆炸水射流在气泡内部越宽,并且水射流的载荷越小;药柱中心起爆时,爆炸气泡产生竖直向上的水射流,不发生偏移。

肺结节直径及实变肿瘤比等指标在术中淋巴结清扫中的应用价值

目的 探究肺结节直径及实变肿瘤比等指标对早期浸润性肺癌(cT1aN0M0)淋巴结转移的预测价值,以指导术中淋巴结清扫方式的选择。方法 回顾性分析2022年1月-2023年12月在安徽医科大学第一附属医院接受单发肺结节手术切除,且术后病理证实为浸润性肺癌的患者502例,收集患者的临床资料、影像学资料及术后病理资料。按有无淋巴结转移分为两亚组,分别对组间人口学、影像学资料、术后病理资料进行对比,采用单因素和多因素Logistic回归探究肺结节直径及实变肿瘤比等指标与淋巴结转移之间的相关性,受试者工作(ROC)曲线探究结节直径及实变肿瘤比的临界值及诊断性能。结果 502例早期浸润性肺癌患者中,共有88例(17.5%)发现淋巴结转移,通过单因素及多因素分析显示肺结节直径、CEA、病理类型、脉管癌栓侵犯为淋巴结转移的独立影响因素,ROC曲线显示肺结节直径预测淋巴结转移的最大截止值为17.70mm。术前检查为部分实性结节的260例早期浸润性肺癌患者,共有28例(10.8%)存在淋巴结转移,通过单因素及多因素分析显示实变肿瘤比、肺结节直径、CEA、病理类型、脉管癌栓侵犯是淋巴结转移的独立影响因素。ROC曲线显示,肺结节直径、实变肿瘤比预测淋巴结转移的最大截止值分别为19.45 mm、0.717。结论 肺结节直径及实变肿瘤比可通过预测淋巴结转移有效指导肺结节患者术中是否需行系统性淋巴结清扫,CEA、病理类型、脉管癌栓侵犯可作为综合评估因素。

H圆筒型FPSO垂荡板装配、焊接及疲劳节点打磨研究

H圆筒型FPSO是国内自主设计建造的亚洲首艘浮式生产储卸油装置,在海洋石油勘探开发中发挥着不可或缺的作用。其工作环境较为恶劣,涌浪和潮汐会对圆筒型FPSO筒体外侧造成反复冲击,而垂荡板作为筒体外侧各分段连接的重要结构,与圆筒型FPSO的安全服役寿命有着重要联系。因此,在预制过程中,对于其精度控制、焊接工艺、疲劳打磨等要求极为苛刻。基于此,结合H圆筒型FPSO建造过程中的实际案例,指出了含坡口垂荡板装配、焊接及疲劳区域打磨的关键技术和难点,提出了100 mm检验线法来检查垂荡板位置定位、坡口长肉再打磨的焊接装配方案,并设计了一种多功能检样板,用于解决疲劳节点打磨精度控制问题,这对圆筒型FPSO的建造施工有一定的理论指导及现实意义。

高性能材料桥梁外挂板摩擦耗能节点受力性能试验及分析

为实现高性能材料外挂板与桥梁主梁的装配式连接,提出一种由螺栓、长圆孔垫片、圆孔垫片、防松垫圈、垫高垫片和角钢组成的新型摩擦耗能节点。设计并开展了新型摩擦耗能节点的推出试验,探究了超高性能混凝土(Ultra-high Performance Concrete,UHPC)、玻璃纤维增强水泥(Glass Fiber Reinforced Concrete,GRC)两种材料外挂板节点在不同方向剪切力作用下的荷载-滑移特征、螺栓滑移路径、极限承载力和破坏模式,并采用数值模拟方法对不同螺栓直径节点的受力性能进行扩大参数分析。试验结果表明:该摩擦耗能节点抗剪破坏形态均为螺栓剪断,螺栓刺入混凝土会造成螺栓孔壁不同程度压碎,GRC挂板螺栓孔壁损坏较严重且有裂缝形成,UHPC挂板仅被螺栓轻微刺入。节点受剪方向对螺栓滑移路径、变形特性以及节点极限承载力有明显影响,沿长螺栓孔短边方向推出抗剪承载力高于沿长边推出;M16螺栓节点抗剪承载力约为螺栓抗拉承载力的72%~87%。数值模拟结果表明:螺栓直径每增大2 mm节点抗剪极限承载力约提升16%,改变UHPC强度对节点抗剪承载力无明显影响,破坏模式均为螺杆受剪断裂。

预制内置钢板剪力墙连接及其受力性能分析

为提高建筑施工效率和推广环保理念,提出了预制内置钢板混凝土剪力墙结构。利用ABAQUS软件建立了现浇钢板混凝土剪力墙与预制钢板混凝土剪力墙模型,对比了两者的受力性能。同时,还建立了不同影响参数下的预制钢板混凝土剪力墙模型,分析了各参数对剪力墙性能的影响。结果表明:预制钢板混凝土剪力墙与现浇钢板混凝土剪力墙受力性能相似。对于预制钢板混凝土剪力墙,随着栓钉个数的增加,节点极限承载力会先提升后下降,研究建议将剪力墙螺栓个数设计为24个。增加轴压比和混凝土强度等级均可使节点极限承载力有所提升。

既有网架受拉球节点托板加固技术试验研究

针对既有网架结构下弦受拉球节点加固问题,提出一种基于临杆焊接托板的加固方法。该方法综合考虑了受拉球节点与杆件的材质、空间结构以及尺度效应的影响,通过将球节点周围相邻杆件焊接托板进行加固,使得该方法便于施工,且能够普遍适用于各类受拉球节点的加固工程,并通过模型试验验证和仿真研究,焊接托板后的节点域承载能力大幅提升,加固效果良好,为既有网架受拉球节点加固提供了新思路。