A new strategy for ionospheric remote sensing using the 130.4/135.6 nm airglow intensity ratios

We demonstrate here that global-scale determination of a key ionospheric parameter,the peak height of the F_(2)region(h_(m)F_(2)),can be obtained by making a simple ratio measurement of the atomic oxygen 130.4 and 135.6 nm emissions in the far-ultraviolet nightglow with a nadir-viewing system such as a pair of photometers suitable for flight on a CubeSat.We further demonstrate that measurements from an altitude that is within the typical range of nighttime h_(m)F_(2)250−450 km can provide the ratios that are needed for retrieval of the h_(m)F_(2).Our study is conducted mostly through numerical simulations by using radiative transfer models of the two emissions coupled with empirical models of the atmosphere and ionosphere.Modeling results show that the relationship between the h_(m)F_(2)and the intensity ratio is sensitive to the altitude from which the emissions are observed,primarily because of the distinctly different degrees of resonant scattering of the two emissions in the atmosphere.A roughly quadratic relationship can be established for observations from an orbit of~400 km,which enables h_(m)F_(2)retrieval.Parametric analysis indicates that the relationship can be affected by the ambient atmospheric conditions through resonant scattering and O2 absorption.For typical nighttime conditions with h_(m)F_(2)250−450 km,retrieval of the h_(m)F_(2)from synthetic observations shows that the typical errors are only a few kilometers(up to~20 km),depending on the accuracy of the ambient conditions predicted by the empirical models.Our findings pave the way for use of the 130.4/135.6 nm intensity ratios for global-scale monitoring of the nighttime ionosphere at mid to low latitudes.

Finite element analysis on the collapse of infill walls with holes and different length-to-height ratios

Wenchuan earthquake damage survey displayed the major structures of buildings suffered only small damages,but it was common that infill walls suffered heavy damages or even collapse. To study the failure forms and collapse mechanism of infill walls in an earthquake,the influence of opening or length-to-height ratio on shake-resisting capability of filling walls was analyzed,and measures to improve the anti-collapse ability of infill walls were put forwaed. The numerical simulations on collapse process in earthquake were carried out by using ABAQUS software. We used 5 single story and single span models. It is revealed that the rigidity and compressive capacity of infill walls are reduced because of the infill walls with holes and the increases of length-to-height ratios. Adding constructional columns and horizontal beams can ensure structural integrity and improve the anti-collapse ability of the wall.

Dynamics and Wheel's Slip Ratio of a Wheel-legged Robot in Wheeled Motion Considering the Change of Height

The existing research on dynamics and slip ratio of wheeled mobile robot （WMR） are derived without considering the effect of height, and the existing models can not be used to analyze the dynamics performance of the robot with variable height while moving such as NOROS- Ⅱ. The existing method of dynamics modeling is improved by adding the constraint equation between perpendicular displacement of body and horizontal displacement of wheel into the constraint conditions. The dynamic model of NOROS- Ⅱ in wheel motion is built by the Lagrange method under nonholonomic constraints. The inverse dynamics is calculated in three different paths based on this model, and the results demonstrate that torques of hip pitching joints are inversely proportional to the height of robot. The relative error of calculated torques is less than 2% compared with that of ADAMS simulation, by which the validity of dynamic model is verified, Moreover, the relative horizontal motion between fore/hind wheels and body is produced when the height is changed, and thus the accurate slip ratio can not be obtained by the traditional equation. The improved slip ratio equations with the parameter of the vertical velocity of body are introduced for fore wheels and hind wheels respectively. Numerical simulations of slip ratios are conducted to reveal the effect of varied height on slip ratios of different wheels. The result shows that the slip ratios of fore/hind wheels become larger/smaller respectively as the height increases, and as the height is reduced, the reverse applies. The proposed research of dynamic model and slip ratio based on the robot height provides the effective method to analyze the dynamics of WMRs with varying height.

Research on the squeeze cast technology of the castings with large ratio of height to thickness

The squeeze cast technology is only applicable, at present, to the castings with a ratio of height to thickness less than 3.5. Researching the squeeze cast technology for castings with a large ratio of height to thickness will broaden the applicable range of the advanced casting technology. This paper describes a study of the temperature distribution during solidification for castings with a ratio of height to thickness of 7 by the methods of experiment and computer simulation. The shrinkage porosity distribution in the castings and the mechanical properties of the castings were also researched. The experimental and simulated results show that increasing squeeze force, or enhancing mold temperature, cannot reduce the shrinkage porosities in the castings. When castings solidify in a sequential manner and the squeeze force effectively acts on the surface of the liquid metal, the shrinkage porosities in the castings are eliminated and mechanical properties are clearly improved.

Rational cutting height for large cutting height fully mechanized top-coal caving

Large cutting height fully mechanized top-coal caving is a new mining method that improves recovery ratio and single-pass production. It also allows safe and efficient mining. A rational cutting height is one key parameter of this technique. Numerical simulation and a granular-media model experiment were used to analyze the effect of cutting height on the rock pressure of a fully mechanized top-coal caving work face. The recovery ratio was also studied. As the cutting height increases the top-coal thickness is reduced. Changing the ratio of cutting to drawing height intensifies the face pressure and the top-coal shattering. A maximum cutting height exists under a given set of conditions due to issues with surrounding rock-mass control. An increase in cutting height makes the top-coal cave better and the recovery ratio when drawing top-coal is then improved. A method of adjusting the face rock pressure is presented. Changing the cutting to drawing height ratio is the technique used to control face rock pressure. The recovery ratio when cutting coal exceeds that when caving top-coal so the face recovery ratio may be improved by over sizing the cutting height and increasing the top-coal drawing ratio. An optimum ratio of cutting to drawing height exists that maximizes the face recovery ratio. A rational cutting height is determined by comprehensively considering the surrounding rock-mass control and the recovery ratio. At the same time increasing the cutting height can improve single pass mining during fully mechanized top-coal caving.

The height-width ratio limited value for rubber bearing isolated structure computed by uniform design method

Rubber isolation is the most mature control technology in practical application, and is widely used by short rigid buildings. However, many high isolation buildings have been built around the world in recent years, which do not follow the existing criterions and codes. Many researchers began to research the special problems caused by larger height-width ratio isolation structures. The overturning effect of high height-width ratio structures with rubber bearing is firstly studied. Considering the main factors, such as the height-width ratio of structures, type of site, the designed basic acceleration of ground motion and the decouple factor in horizon, computing experiment is defined with the Uniform Design Method, which is also known as designing isolation structure. The forces of the bearing under edge of structures based on the position of the rubber bearing are calculated. The result indicates that the rubber bearings will lose its functionality under very high tension and compressing force of earthquake motion in horizon and vertical, when the height-width ratio is over a certain value. Thus, based on the calculation result of isolation structures defined in the uniform design method, regression analysis is conducted, and also the rubber edge force regression formula are gotten, which has higher correlation and smaller standard deviation. This formula can be used to roughly calculate whether the pull force occurs at the edge of the building. By the edge bearings of isolation structure minimum force formula, the height-width ratio limited value of the isolation structure is deducted when rubber bearing has minimum force of zero.

Change of the mode of failure by interface friction and width-to-height ratio of coal specimens

Bumps in coal mines have been recognized as a major hazard for many years. These sudden and violent failures around mine openings have compromised safety, ventilation and access to mine workings.Previous studies showed that the violence of coal specimen failure depends on both the interface friction and width-to-height（W/H） ratio of coal specimen. The mode of failure for a uniaxially loaded coal specimen or a coal pillar is a combination of both shear failure along the interface and compressive failure in the coal. The shear failure along the interface triggered the compressive failure in coal. The compressive failure of a coal specimen or a coal pillar can be controlled by changing its W/H ratio. As the W/H ratio increases, the ultimate strength increases. Hence, with a proper combination of interface friction and the W/H ratio of pillar or coal specimen, the mode of failure will change from sudden violent failure which is brittle failure to non-violent failure which is ductile failure. The main objective of this paper is to determine at what W/H ratio and interface friction the mode of failure changes from violent to non-violent. In this research, coal specimens of W/H ratio ranging from 1 to 10 were uniaxially tested under two interface frictions of 0.1 and 0.25, and the results are presented and discussed.

Multi-objective Optimization of a Two-Stage Helical Gearbox to Improve Efficiency and Reduce Height

The goal of this research is to look at multi-target optimization of a two-stage helical gearbox in order to determine the best key design elements for reducing gearbox height and enhancing gearbox efficiency.To do this,the method known as Taguchi and GRA(Grey Relation Analysis)were used in two stages to address the problem.The single-objective optimization problem was addressed first to close the gap between variable levels,and then the multi-objective optimization problem was solved to determine the best primary design variables.The first and second stage CWFWs(Coefficients of Wheel Face Width),ACS(Permissible Contact Stresses),and first stage gear ratio were also calculated.The study’s findings were utilized to identify the best values for five critical design aspects of a two-stage helical gearbox.

老年高血压人群腰围身高比与新发脑梗死的关系

目的研究腰围身高比(WHtR)与老年人新发脑梗死的相关性。方法纳入开滦地区研究人群9096例老年高血压患者,以首次发生脑梗死为终点事件,采取前瞻性队列研究方法进行研究,依据观察对象WHtR值以0.05为间距等距分为四组,分别为G1组(WHtR<0.45)、G2组(0.45≤WHtR<0.50)、G3组(0.50≤WHtR<0.55)及G4组(WHtR≥0.55),用寿命表方法统计各人群的累积终点事件发生率,采用Cox比例风险分析方法,探讨WHtR在新发脑梗死中的作用。模型一为单一因子Cox比例风险分析模式,只考察WHtR对脑梗死发生风险的作用;在此基础上,模型二为校正性别、年龄、体重及血清超敏C反应蛋白、收缩压、血清甘油三酯、抽烟史、血清空腹血糖、饮酒情况、高密度脂蛋白胆固醇、舒张压、体育运动、低密度脂蛋白胆固醇、文化程度、服降压药史后观察WHtR对新发脑梗死的作用。结果随访时间为(9.3±2.7)年,期间共新发脑梗死848例。以G2组为对照,单因素Cox比例风险回归模型分析显示G1组、G3组和G4各组发生脑梗死的HR(95%CI)分别为1.00(0.67~1.50)、1.29(1.05~1.60)、1.36(1.12~1.66);多因素Cox比例风险回归模型分析显示G1组、G3组和G4各组发生脑梗死的HR(95%CI)分别为1.09(0.72~1.65)、1.24(0.99~1.54)、1.31(1.05~1.62)。结论老年高血压人群当0.45≤WHtR<0.50时脑卒中发病风险最低,WHtR≥0.55与新发脑梗死风险增加相关。

基于不同标准的苏州市7~17岁儿童青少年中心性肥胖流行现状评估

目的基于不同标准,了解苏州市7~17岁儿童青少年中心性肥胖流行现状。方法采用分层整群随机抽样方法,2019年9—10月,抽取苏州市7~17岁儿童青少年3150人进行问卷调查和现场测量,采用5项相关标准评价中心性肥胖流行情况;并以腰围-中国标准为参照标准,进行其他4项标准一致性分析。结果该人群中心性肥胖检出率,腰围-国际标准为24.70%,腰围-中国标准为20.60%,腰围-美国标准为6.54%,腰高比-中国标准为23.65%,腰高比-国际标准为14.22%。不同标准下,均呈现男生高于女生(P值均<0.05);基于腰围-国际标准、腰围-中国标准的12~17岁组中心性肥胖检出率高于7~11岁组,基于腰围-美国标准的12~17岁组中心性肥胖检出率低于7~11岁组,差异均有统计学意义(P值均<0.05)。以腰围-中国标准作为参照,腰围-国际标准和腰高比-中国标准一致性极好,Kappa值分别为0.87、0.79。结论苏州市7~17岁儿童青少年中心性肥胖有一定检出率,建议同时关注基于腰围和腰高比评价儿童青少年中心性肥胖流行情况。

宽高比对煤柱型冲击地压影响规律的实验研究

我国深部煤炭开采日趋复杂,区段煤柱在采动、构造或坚硬顶底板影响下极易诱发煤柱型冲击地压,煤柱型冲击地压的防治已成为煤矿安全高效开采的难题,研究不同宽高比条件下区段煤柱的力学性能及冲击破坏特性对煤柱型冲击地压防治具有积极意义。采用不同宽高比煤样的“岩-煤-岩”组合体进行了单轴压缩实验,通过分析煤岩组合体的冲击倾向性、动态破坏特征、分形维数和声发射特征参数等,研究了宽高比对煤柱冲击破坏的影响规律。结果发现:①煤柱的宽高比对煤岩组合体的冲击倾向性具有显著影响,宽高比不小于2∶1时,其冲击能量指数K_(E)为1.82~2.65,冲击倾向性无明显变化;小于2∶1时冲击倾向性呈先升高后降低的趋势,1∶1时K_(E)最大,达到了15.43。②随宽高比减小,煤岩组合体破坏特征依次表现为:拉压破坏—压剪破坏—拉剪破坏。煤柱宽高比为5∶1~3∶1时,煤岩组合体破坏较为缓慢;宽高比为2∶1时开始出现片状煤屑弹出,冲击破坏剧烈程度较低;宽高比为1∶1和0.75∶1时,具有明显的冲击破坏特性;宽高比为0.5∶1时,煤岩组合体整体稳定性下降,相对0.75∶1煤岩组合体煤柱破坏的剧烈程度降低。③峰后声发射能量释放率与分形维数D变化规律相似,均随宽高比减小呈先升高后降低的趋势。宽高比不小于2∶1时,煤岩组合体破坏过程中能量持续释放时间较长,煤柱破坏平缓;宽高比为1∶1时,能量释放率和D值明显增大,相较宽高比不小于2∶1煤岩组合体的能量释放率增大了约4倍,D值增大了0.18~0.23,煤柱冲击破坏最为剧烈;宽高比0.75∶1煤岩组合体能量释放率与D值分别降低了约10%和0.01,破坏剧烈程度与1∶1煤岩组合体相近;宽高比减小至0.5∶1时,相关参数的降低幅度约为0.75∶1煤岩组合体的6倍,破坏剧烈程度相对较小。研究表明:宽高比对煤柱的冲击破坏具有显著影响,整体上,煤柱冲击破坏剧烈程度随宽高比减小(5∶1~0.5∶1)呈先升高后逐渐降低的趋势;煤柱宽高比大于3∶1时,煤柱冲击危险性相对较小,煤柱宽高比为1∶1和0.75∶1时冲击危险性较大,0.5∶1次之。

星载GNSS-R检测太湖水华可行性分析

星载全球导航卫星系统反射信号(GNSS-R)属于被动遥感技术,具有数据重访周期高、全天时、全天候、信号源丰富等优势。基于此,研究星载GNSS-R检测太湖水华的可行性。星载GNSS-R可以有效检测反射面的粗糙程度,通过使用相干反射表征反射面的粗糙度,研究不同风速区间内相干反射与蓝藻水华的关系。利用2020年4—8月美国气旋全球导航卫星系统(CYGNSS)数据,计算CYGNSS镜面反射点的时延多普勒图(DDM)功率比。以“哨兵-3”卫星水色遥感仪器(OLCI)影像最大特征峰高度(MPH)算法反演出的太湖叶绿素浓度作为参照,与欧洲中期天气预报中心(ECMWF)的风速产品进行时空间线性匹配,分析发现,在1~2.5 m/s风速区间内,叶绿素浓度达到0.1 mg/L以上时,极易引起镜面反射点发生相干反射,且功率比与叶绿素浓度的相关系数为0.84,具有良好的相关性。实验结果证明了利用星载GNSS-R的功率比及相关特性实现太湖水华检测的可行性。

木屑颗粒堆积参数对液体渗流特性的影响规律

为了探究木屑颗粒堆积参数对液体渗流特性的影响规律,参照达西渗流实验,设计开发了渗流实验系统,选取颗粒床层湿度、渗流速度、床层储水量及透水率作为评价颗粒床层内液体渗流特性的指标,在对各因素进行初步筛选的基础上,实验研究木屑颗粒堆积床层的粒径分布、压缩高度比以及渗透压力(注水量)对液体渗流特性的影响.实验结果表明,相同粒径分布,注水量为1500 mL时,压缩高度比从0.80降到0.50,木屑颗粒床层湿度变化幅值为3.32%;相同粒径分布,压缩高度比为0.50,注水量从1500 mL增加到3000 mL时,木屑颗粒床层湿度变化幅值为2.30%;相同压缩高度比和注水量,全粒径分布、不同级配粒径分布及小粒径分布时木屑颗粒床层最大湿度分别为54.4%、54.0%及53.7%,变化幅值为0.7%.在本文研究范围内,压缩高度比对颗粒床层湿度影响最大,初始注水量次之,颗粒级配影响最小.相同粒径分布,注水量为2000 mL时,压缩高度比从0.80降到0.50,木屑颗粒床层渗流速度变化幅值为18.92×10^(-4) m/s;相同粒径分布,压缩高度比为0.50,注水量从1500 mL增加到3000 mL时,木屑颗粒床层渗流速度变化幅值为1.08×10^(-4) m/s;相同压缩高度比和注水量,全粒径分布、不同级配粒径分布及小粒径分布时木屑颗粒床层最大渗流速度分别为20.7×10^(-4) m/s、15.4×10^(-4) m/s及18.2×10^(-4) m/s,变化幅值为5.3×10^(-4) m/s.在本文研究范围内,压缩高度比对颗粒床层渗流速度影响最大,颗粒级配次之,初始注水量影响最小.综合各类因素考虑,不同粒径级配的木屑颗粒床层,压缩高度比为0.70、注水量为2000 mL时木屑颗粒床层中的液体渗流特性较好,此时,床层湿度为52.5%,平均渗流速度为9.86×10^(-4) m/s,床层储水量为1149 mL,床层透水率为42.56%.相关结果可为后续可压缩性颗粒堆积物的存放以及水基灭火剂开发需要关注的参数提供指导.

多因素影响下巷道围岩稳定性分析及优化设计研究

针对深部煤层巷道矿压显现剧烈且巷道变形难以控制的问题,基于Kastner公式对巷道高宽比、侧压系数、埋深、断面形状、围岩强度5种影响巷道围岩稳定性的因素展开正交数值模拟实验,通过方差和直观分析图法研究了各因素对巷道变形破坏的敏感性。采用平面弹性复变函数理论分析了不同侧压系数与巷道高宽比下椭圆和矩形巷道围岩的应力分布规律,对椭圆形和矩形巷道宽高比和形状进行了优化设计。研究结果表明:围岩强度与侧压系数是影响巷道围岩稳定性的主要因素,埋深、断面形状、巷道高宽比为次要因素;椭圆形巷道在等轴应力比下围岩应力差值最小;矩形巷道宽度为5 m、高宽比为0.6左右时,应力集中程度较小;针对矩形巷道应力快速增高区,在考虑承压特性和断面利用率的基础上设计了圆角矩形优化巷道,确立了圆角半径的计算公式,通过数值模拟验证了其良好的性能。

考虑作物冠层高度的屋脊形大棚形状优化

为提高屋脊形大棚太阳辐射利用率,增强保温蓄热能力。该研究依据大棚内部作物对采光和蓄热保温的需求,提出了基于冠层高度和恒定体积约束的屋脊形大棚形状优化模型,设置大棚采光面捕获太阳辐射量大及有效种植面积尽可能大的约束条件,在内部能量需求恒定的条件下分析大棚高度比及方位角对太阳辐射捕获量的影响规律,并优选出不同脊位比大棚在不同地区下的最优参数组合。结果表明:1)大棚所捕获的太阳辐射量大多随高度比减小而逐渐减小,在高度比k=5时为最大值;相同高度比下,脊位比越大,大棚所捕获的太阳辐射量越大;当高度比k=5时,沈阳地区脊位比为0.65、0.75和0.85的大棚相对于脊位比为0.50时的增长率分别为2.67%、4.42%和6.17%。2)大棚太阳辐射捕获量大多随方位角增加呈先减小后增加趋势,在方位角0°~90°的范围内,脊位比越大,大棚所捕获的太阳辐射量越多,在90°~180°的范围内相反;当大棚脊位比为0.65、0.75和0.85时,随着地区纬度的增加,大棚太阳辐射捕获量最低值点所对应的方位角值逐渐减小,不同脊位比之间的差异逐渐减小。3)大棚在不同地区优选得到的高度比值仅与作物冠层高度有关;地区纬度越高,脊位比及高度比越大,大棚优选得到的方位角相对于南北走向偏转的角度越大。该研究可依据作物冠层高度大小在大棚捕获太阳辐射量尽可能多的前提下减少大棚供热成本,为推进塑料大棚的整体规划发展提供理论依据。

凹槽叶顶的气膜冷却特性

涡轮工作时,叶顶间隙内高速高温的间隙泄露流会直接冲刷动叶顶部,产生局部高温区域,因此控制间隙泄露流至关重要。基于压敏漆涂料(PSP)实验,研究了密度比、吹风比和间隙高度对凹槽叶顶气膜冷却特性的影响。研究结果表明:密度比增大,凹槽叶顶气膜冷却效果逐渐提高,尤其是大间隙下冷效提高较为明显,叶顶面平均冷效增加了35%;间隙高度和吹风比对叶顶表面冷效的作用不是单一的,小间隙条件下,叶顶表面气膜冷效随着吹风比增大而增大,大间隙条件下,吹风比的增加使得叶顶表面气膜冷效先减小后增加,同时小吹风比时,间隙高度增加提高了叶顶尾缘区域和孔周围的气膜冷效,叶顶面平均冷效提高了6.85%。

基于大高宽比CD-AFM探针的设计与制备

针对传统原子力显微镜(AFM)探针和关键尺寸原子力显微镜(CD-AFM)探针受限于针尖有效扫描高度较低,无法对深沟槽和大悬垂侧壁结构进行精准扫描成像的问题,提出了一种大高宽比针尖结构的新型CDAFM探针设计与制备方案。开发的新型CD-AFM探针针尖有效高度为5.1~5.8μm,高宽比达到14,相较于传统硅基CD-AFM探针,其有效高度提升了约4倍。利用开发的探针完成了标称深度为2.3μm、深宽比为4.6的深沟槽样品测试。

基于声发射特征的不同高径比矸石胶结充填柱单轴压缩损伤演化

为研究高径比对矸石胶结充填柱单轴压缩性能的影响,本实验制备了高径比为0.5~4.0的5组圆柱体试件进行单轴压缩试验,同时利用数字图像相关技术(DIC)和声发射进行监测,探讨了不同高径比充填柱的破坏特征.研究表明:矸石胶结充填柱的峰值应力和峰值应变都会随着高径比的增大而减小,并与高径比呈指数关系;充填柱的破坏形式在高径比大于2.0后从整体破坏转为局部破坏,局部应变大于16%可以导致充填柱整体失稳;充填柱的高径比从1.0升高到4.0,损伤程度下降到11%;充填柱在累计振铃计数快速上升区中的破坏占总破坏的比例随高径比的增大从22.6%增加到72.3%,高径比大于2.0时该比例达到40.9%且上升速度加快,破坏的集中程度较高;声发射最终累积振铃计数先随着高径比增大而增大,在高径比为2.0以后开始减小,且高径比对振铃集中出现的位置有较大影响;用声发射能量与振铃计数的比值(E/C)反应能量释放剧烈程度,平均E/C随高径比增大从1.26增大到2.76,高径比大于2.0时峰后能量释放较为剧烈.试验结果可以为结构充填开采中充填柱高径比的选取提供参考.

GEO卫星机会源近岸海面高度测量性能评估

基于同步地球轨道(Geostationary Earth Orbit,GEO)卫星的机会源技术已被证明其在近岸海面高度测量中的应用潜力,但目前研究主要围绕可行性论证展开,极少开展全方位的测量性能评估.为此,从仿真和试验两个角度评估了信号带宽、非相干累加次数、信噪比及波形峰值跟踪算法对GEO卫星机会源海面测高性能的影响.评估结果表明当非相干累加次数和信噪比大于最优非相干累加次数和最优信噪比时,测高性能将不再显著提升.因此,通过选择最优非相干累加次数,以及设计合理的接收天线增益、射频增益及接收机带宽使信噪比大于最优信噪比对GEO卫星机会源海面测高至关重要.通过对比插值和拟合两种波形跟踪算法发现拟合法能提供比插值法更高的测量精度.利用北斗B3I信号和ASTRA 19.2 E卫星信号开展GEO卫星海面测高的试验评估.试验结果表明:在非相干累加次数大于10000、信噪比大于7 dB时,北斗B3I信号和ASTRA 19.2 E卫星信号可分别提供精度约为0.20 m和0.10 m的海面高度.针对GEO卫星多频或多通道传输特点,提出了基于信号频谱合成提高海面测高精度的方法.当利用中卫1号卫星10个通道信号进行合成时,插值法和拟合法的仿真测距精度分别为3.50 cm和0.69 cm.

初次单侧全髋关节置换后骨盆倾斜转归的因素分析

背景:骨盆倾斜多见于髋关节疾病,也是全髋关节置换后常见的功能问题。目的:探讨股骨头坏死患者单侧全髋关节置换后骨盆倾斜的发生机制与恢复情况。方法:回顾性收集2021年6月至2023年2月广州中医药大学第一附属医院骨伤中心股骨头坏死科收治的100例股骨头坏死且接受单侧全髋关节置换患者的临床资料,根据术后3 d时骨盆倾斜严重程度分为3组,A组(<2°)48例,B组(2°-3°)34例,C组(>3°)18例。统计并比较3组患者术前、术后骨盆冠状面倾斜角度、双侧臀中肌长度、股骨头旋转中心高度以及双侧臀中肌长度差值、股骨头旋转中心高度差值、骨盆倾斜角度变化比值。采用皮尔逊相关系数检验术后骨盆倾斜角度与其他指标的相关性。结果与结论:①术后短期内发生骨盆倾斜加重;②术后3 d至术后1个月时段骨盆倾斜角度变化比值组间存在差异,C组>B组>A组;术后1-3个月时段C组与其他各组存在差异,C组变化比值最小;术后3 d至术后3个月时段组间变化比值无差异;③双侧臀中肌差值术后逐渐减小,术后3个月时双侧臀中肌比较无差异;④术后双侧旋转中心差值增大,术后3个月时双侧高度差值小于术前;⑤术后3 d时骨盆倾斜角度、病程与术后3个月骨盆倾斜角度呈显著相关性(均P=0.000),术前双侧臀中肌差值与术后3 d时骨盆倾斜角度呈显著相关性(P=0.006);⑥提示股骨头坏死患者全髋关节置换后发生功能性骨盆倾斜;术后骨盆倾斜的矫正是基于术后功能性骨盆倾斜角度的适应性恢复;功能性骨盆倾斜的产生是以术后短期骨性结构重建、软组织积累性损害存续为基础的机体代偿适应。