Study on Characteristics of a High-Precision Cold Gas Micro Thruster

In order to improve the reliability of the spacecraft micro cold gas propulsion system and realize the precise control of the spacecraft attitude and orbit, a micro-thrust, high-precision cold gas thruster is carried out, at the same time due to the design requirements of the spacecraft, this micro-thrust should be continuous working more than 60 minutes, the traditional solenoid valve used for the thrusts can’t complete the mission, so a long-life micro latching valve is developed as the control valve for this micro thruster, because the micro latching valve can keep its position when it cuts off the outage. Firstly, the authors introduced the design scheme and idea of the thruster. Secondly, the performance of the latching valve and the flow characteristics of the nozzle were simulated. Finally, from the experimental results and compared with the numerical study, it shows that the long-life micro cold gas thruster developed in this paper meets the mission requirements.

Slippery hydrogel with desiccation-tolerant‘skin’for high-precision additive manufacturing

Hydrogels inevitably undergo dehydration,structural collapse,and shrinkage deformation due to the uninterrupted evaporation in the atmosphere,thereby losing their flexibility,slipperiness,and manufacturing precision.Here,we propose a novel bioinspired strategy to construct a spontaneously formed‘skin’on the slippery hydrogels by incorporating biological stress metabolites trehalose into the hydrogel network,which can generate robust hydrogen bonding interactions to restrain water evaporation.The contents of trehalose in hydrogel matrix can also regulate the desiccation-tolerance,mechanical properties,and lubricating performance of slippery hydrogels in a wide range.Combining vat photopolymerization three-dimensional printing and trehalose-modified slippery hydrogels enables to achieve the structural hydrogels with high resolution,shape fidelity,and sophisticated architectures,instead of structural collapse and shrinkage deformation caused by dehydration.And thus,this proposed functional hydrogel adapts to manufacture large-scale hydrogels with sophisticated architectures in a long-term process.As a proof-of-concept demonstration,a high-precision and sophisticated slippery hydrogel vascular phantom was easily fabricated to imitate guidewire intervention.Additionally,the proposed protocol is universally applicable to diverse types of hydrogel systems.This strategy opens up a versatile methodology to fabricate dry-resistant slippery hydrogel for functional structures and devices,expanding their high-precision processing and broad applications in the atmosphere.

High-precision automatic measurement of two-dimensional geometric features based on machine vision

To realize high-precision automatic measurement of two-dimensional geometric features on parts, a cooperative measurement system based on machine vision is constructed. Its hardware structure, functional composition and working principle are introduced. The mapping relationship between the feature image coordinates and the measuring space coordinates is established. The method of measuring path planning of small field of view （FOV） images is proposed. With the cooperation of the panoramic image of the object to be measured, the small FOV images with high object plane resolution are acquired automatically. Then, the auxiliary measuring characteristics are constructed and the parameters of the features to be measured are automatically extracted. Experimental results show that the absolute value of relative error is less than 0. 03% when applying the cooperative measurement system to gauge the hole distance of 100 mm nominal size. When the object plane resolving power of the small FOV images is 16 times that of the large FOV image, the measurement accuracy of small FOV images is improved by 14 times compared with the large FOV image. It is suitable for high-precision automatic measurement of two-dimensional complex geometric features distributed on large scale parts.

维生素D治疗全面性发育迟缓患儿的临床疗效研究

背景 除了某些有明确病因的代谢性疾病导致的全面性发育迟缓(GDD),康复治疗是GDD的主要治疗方式;维生素D通过影响神经营养因子在调节神经细胞的发育和分化方面发挥着重要的神经保护作用;但目前关于补充维生素D对GDD患儿临床疗效的研究开展较少。目的 探讨补充不同剂量的维生素D对GDD患儿康复治疗的临床效果。方法 于2020年9月—2022年6月选取在郑州大学第三附属医院康复医学科首次住院就诊的120例GDD患儿为研究对象,采用随机区组化的方法将其分为常规组(38例)、400 U组(37例)和1 200 U组(35例)。常规组仅进行常规康复治疗;400 U组在常规康复治疗的基础上给予口服400 U/d维生素D;1 200 U组在常规康复训练的基础上给予口服1 200 U/d维生素D。收集3组患儿的性别、就诊年龄等基本资料;于入院时(治疗前)及第3个疗程末(治疗后)行血清25羟维生素D[25(OH)D]水平检测和Gesell发育量表评估[评估适应能力、大运动能力、精细运动能力、语言能力和社交能力5个能区的发育商(DQ)];记录发生在患儿住院期间不良事件的次数,并对上述资料进行分析比较。结果 3组患儿性别、居住地、出生季节、分娩方式、就诊年龄、出生体质量、出生胎龄、主要就诊原因比较,差异均无统计学意义(P>0.05)。治疗前,3组患儿25(OH)D水平、Gesell量表各能区DQ值比较,差异均无统计学意义(P>0.05);治疗后,1 200 U组患儿血25(OH)D水平、Gesell量表大运动能力、精细运动能力、语言能力DQ值高于常规组(P<0.05)。第1、2疗程期间,3组患儿不良事件发生率比较,差异无统计学意义(P>0.05);第3疗程期间,1 200 U组患儿不良事件发生率低于常规组及400 U组(P<0.05)。结论 补充1 200 U维生素D对GDD患儿的康复疗效有益,且能减少康复期间不良事件的发生率。

血清铁蛋白和25-羟维生素D与老年非酒精性脂肪性肝病患者颈部血管斑块及心脏代谢指数的相关性

目的探究血清铁蛋白(SF)、25-羟维生素D[25-(OH)D]与老年非酒精性脂肪性肝病(NAFLD)患者颈部血管斑块及心脏代谢指数(CMI)的相关性。方法选取医院128例老年NAFLD患者作为研究组,另选80例健康体检者资料为对照组。比较研究组和对照组及不同病变程度患者的血清Ferritin、25-(OH)D水平。根据是否形成颈动脉血管斑块将患者分为斑块组(n=36)和非斑块组(n=92)。比较两组临床资料,SF、25-(OH)D、CMI水平,分析影响老年NAFLD患者颈部血管斑块形成的多因素及血清Ferritin、25-(OH)D水平与患者颈部血管斑块及CMI的相关性。结果研究组血清SF值显著高于对照组(P<0.05),25-(OH)D水平显著低于对照组(P<0.05);SF水平:脂肪肝组<脂肪性肝炎组<肝硬化组(P<0.05),25-(OH)D水平:脂肪肝组>脂肪性肝炎组>肝硬化组(P<0.05);斑块组BMI、合并糖尿病、高血脂、血清ALT、AST、LDL-C、SF、水平、FPG、FINS、HOMA-IR、CMI、NFS值显著高于非斑块组(P<0.05),血清25-(OH)D水平显著低于非斑块组(P<0.05);多因素logistic回归分析显示,BMI、血清LDL-C、SF水平、CMI、NFS值升高是影响老年NAFLD患者颈动脉斑块形成的危险因素(P<0.05),血清25-(OH)D水平升高为保护因素(P<0.05);相关性分析显示,SF与NAFLD患者颈动脉斑块及CMI呈显著正相关(P<0.05),血清25-(OH)D水平与NAFLD患者颈动脉斑块及CMI呈显著负相关(P<0.05)。结论血清SF、25-(OH)D与NAFLD病情进展相关,且可能影响患者颈部血管斑块形成及心脏代谢,可作为NAFLD患者血管病变的诊治观察指标。

颗粒蛋白前体和神经丝轻链蛋白及维生素D对临床孤立综合征转归的预测价值

目的探讨颗粒蛋白前体(progranulin,PGRN)、神经丝轻链蛋白(neurofilament light chain,NfL)和维生素D及其受体(vitamin D receptor,VDR)在临床孤立综合征(clinically isolated syndrome,CIS)患者发病及转归中的预测价值。方法收集2017年12月至2021年12月作者医院收治的96例CIS患者,其中男33例,女63例,年龄(33.13±8.86)岁;另收集性别、年龄和长期居住地与CIS患者相匹配的神经系统非炎症疾病(non-inflammatory neurological disease,NIND)患者30例为对照组,其中男11例,女19例,年龄(31.17±5.78)岁。采用酶联免疫吸附试验法(enzyme-linked immunosorbent assay,ELISA)检测纳入者和首次转归为多发性硬化(multiple sclerosis,MS)患者的血清和脑脊液PGRN、NfL水平,淋巴细胞上清液中VDR水平。采用超高效液相色谱-串联质谱法检测外周血上清液中维生素D水平[维生素D水平=25(OH)D2水平+25(OH)D_(3)水平]。对CIS患者进行每个月电话随访1次,3个月门诊随访1次,监测血常规、肝肾功能,如出现临床转归,行头和脊髓MRI检查。结果随访时间12~38个月,中位数为24个月。57例CIS患者转归为MS(59.38%)。与NIND组比较,CIS患者血清和脑脊液PGRN水平(血清:t=-2.746,P=0.007;脑脊液:t=-17.822,P=0.000)、NfL水平(血清:t=-17.627,P=0.000;脑脊液:t=-13.543,P=0.000)升高,血清25(OH)D_(3)(t=22.512,P=0.000)和VDR水平(t=12.315,P=0.000)降低。与未转归CIS患者相比较,转归MS的患者NfL基线水平(血清:t=25.052,P=0.000;脑脊液:t=8.362,P=0.000)增高,血清25(OH)D_(3)基线水平降低(t=-4.323,P=0.000);与转归MS前比较,转归MS后患者脑脊液PGRN水平升高(t=-5.909,P=0.000),血清维生素D(t=5.265,P=0.000)、25(OH)D_(3)水平(t=5.204,P=0.000)降低,血清和脑脊液NfL水平升高(血:t=-17.229,P=0.000;脑脊液:t=-8.949,P=0.000)。ROC分析显示,CIS患者外周血25(OH)D_(3)水平低于12.58 ng/mL、脑脊液NfL水平低于1383 pg/mL易转归为MS。结论CIS患者存在神经轴突损伤。PGRN尚不能预测CIS向MS转归,NfL是预测CIS转归为MS的潜在标志物。低维生素D水平可能是CIS致病及转归为MS的预测因素。

复杂越野场景无人履带平台3D语义占据预测方法

为了理解和处理复杂越野场景中环境要素形状不规则、地形多变及路面属性复杂等问题,提出了一种基于多模态融合感知的3D语义占据预测方法.首先,基于图像和激光雷达融合网络获取初始3D语义标签;然后,对越野场景稀疏点云采用贝叶斯稠密化算法补全3D语义占据标签;最后,生成包含复杂环境要素大小、位置和语义信息的3D语义占据栅格地图.试验结果表明,该方法能够有效地提取和表示复杂越野环境中的3D信息,为复杂越野环境下无人履带平台的路径规划提供了更加准确和丰富的先验信息.

3D打印矩形粗糙通道内火箭煤油流动换热特性试验方法研究

为探究3D打印再生冷却通道在液体火箭发动机推力室中的替代应用特性,研制了具有不同内表面粗糙度的正弦波纹结构3D打印304不锈钢矩形通道。内截面名义尺寸为2.0 mm×2.0 mm,设计粗糙度分别为6.3、25.0、100.0μm,实际粗糙度Ra分别为11.88、12.70、17.53μm,通过将高温电阻率法和像素法相结合获得了3D打印通道的实际内径和壁厚,修正了火箭煤油流动换热的内壁温和热流密度,建立了3D打印粗糙通道内火箭煤油流动换热特性试验研究方法。试验参数如下:压力处于15~20 MPa范围、质量流速在12450~24900 kg·m^(-2)·s^(-1)之间、热流密度为5~15 MW·m^(-2)、流体温度为-150℃。研究结果表明:火箭煤油流动换热特性受到热流密度、流体温度和质量流速的影响;流体温度处于50~135℃范围内,换热系数增加约25%~33%;热流密度处于5.0~15.0 MW·m^(-2)范围内,换热系数增加了8.3%;质量流速为12450~24900 kg·m^(-2)·s^(-1)范围内,换热系数增加了60.2%。粗糙度增加对火箭煤油流动换热起到强化作用,粗糙度从11.88μm增加到17.53μm时,换热强化幅度超过20%以上。该研究可为3D打印通道在火箭发动机推力室中的替代应用提供参考。

Coordinate unification method of high-precision composite measurement in two dimensions

Multi-sensor coordinate unification in dimensional metrology is used in order to get holistic, more accurate and reliable information about a workpiece based on several or multiple measurement values from one or more sensors. Because of the problem that standard ball is deficient as a standard artifact in the coordinate unification of high-precision composite measurement in two dimensions （2D） , a new method is proposed in this paper which uses angle gauge blocks as standard artifacts to achieve coordinate unification between the image sensor and the tactile probe. By comparing the standard ball with the angle gauge block as a standard artifact, theoretical analysis and experimental results are given to prove that it is more precise and more convenient to use angle gauge blocks as standard artifacts to achieve coordinate unification of high-precision composite measurement in two dimensions.

绝经后女性维生素D水平与生殖特点和运动膳食情况的关系

背景:研究证明绝经后骨质疏松症与女性生殖特点和运动膳食有关,但是鲜有研究证明女性生殖特点及运动膳食是否对绝经后女性维生素D有影响。目的:探讨北京市绝经后女性维生素D水平与女性生殖特点和运动膳食情况的关系及其影响因素。方法:选取2017年9月至2018年5月北京市多个城区的17个社区现场问卷调查的727例46-75岁绝经后女性作为研究对象,问卷内容包括受试者的基本信息和月经史、绝经史、妊娠史、运动膳食情况等。采用电化学发光免疫分析仪及其配套试剂测定25-(OH)D水平;使用双能X射线骨密度检测仪测定腰椎(L1-L4、整体)和双髋关节(股骨颈、整体)的骨密度和T值;观察维生素D与生殖特点和运动膳食的相关性,并进行维生素D的影响因素分析。结果与结论:①维生素D正常组136例(18.7%),维生素D不足组389例(53.5%),维生素D缺乏组202例(27.8%);平均维生素D水平为(15.60±5.85)ng/mL。②随着维生素D水平的升高,不同部位的骨密度值及T值也随之升高。③维生素D水平与初潮年龄、月经持续天数、绝经阶段、运动情况、饮食类型、饮食偏好均呈正相关(P<0.05);与月经周期、绝经年龄、生育次数均呈负相关(P<0.05);与初孕年龄、怀孕次数无相关性(P>0.05)。④多因素有序Logistic回归分析结果显示,喝奶制品频率对绝经后女性维生素D值存在正向相关(P<0.05),且奶制品是维生素D水平的保护因素。⑤调查结果说明,北京市绝经后女性维生素D水平普遍不足、骨密度值普遍低下,维生素D水平与部分生殖特点、运动膳食情况存在关联,且其中喝奶制品是其保护因素。因此可以通过开展相关骨质疏松的健康教育,对绝经后女性膳食情况进行调整加以干预,增加体内维生素D含量,以期增加骨密度值,减少绝经后骨质疏松患病率。

维生素D调控GPXs对涎腺腺样囊性癌耐药性的影响

目的:研究维生素D调控谷胱甘肽过氧化物酶(glutathione peroxidase, GPXs)对涎腺腺样囊性癌(adenoid cystic carcinoma, ACC)耐药性的影响。方法:从佳木斯大学附属口腔医院选取人涎腺腺样囊性癌(salivary adenoid cystic carcinoma, SACC)细胞株,将SACC细胞平均分为两份,均放入等量的GPXs,分为对照组和观察组。对照组不做任何其他处理,观察组则给予维生素D溶液。比较两组SACC/DDP细胞中GPXs的含量水平;采用MTT比较两组SACC/DDP细胞的相对抑制率;采用FCM(流式细胞仪)比较两组细胞G0/G1期细胞比例。结果:观察组SACC/DDP细胞中GPXs的含量水平显著低于对照组(P<0.05)。观察组SACC/DDP细胞的Emax、IC50均显著低于对照组(P<0.05)。观察组细胞G0/G1期细胞比例显著低于对照组(P<0.05)。结论:维生素D可达到调控GPXs的含量,进而达到对SACC的耐药性。

基于Unity 3D的机构搭建虚拟实验研究与实践

机构搭建是“机械设计”课程的基础性实验。传统的实物实验存在生均设备少、搭建耗时长、过程评价不全面、无法满足疫情等突发情况下的教学需求等问题。文章以全过程实验考核为目标,借助虚拟现实技术,构建基于Unity 3D的平面机构搭建三维可视化交互场景,联动My SQL、Excel软件构建数据库,开发出集在线学习、虚拟搭建、运动仿真及综合考核“四维一体”的虚拟实验教学平台,不限时、多维度为师生提供沉浸式实验教学服务,提高了实验教学效果,降低了实验成本,为新工科应用型人才培养提供了有效途径,也为机械类虚拟实验教学改革提供了参考。

基于NKG2D及其配体探讨清热解毒方改善肝癌小鼠免疫微环境及抗肿瘤作用

目的:探讨清热解毒方对小鼠肝癌模型的抗肿瘤作用和淋巴细胞亚群、自然杀伤细胞家族2成员D(NKG2D)及其配体MULT1的影响。方法:建立小鼠H22肝癌模型,观察清热解毒方的抗肿瘤效应。采用流式细胞术检测小鼠外周血淋巴细胞亚群和肿瘤组织、瘤旁NKG2D及其配体MULT1表达情况的变化。结果:清热解毒方有一定抗肿瘤作用,且能改善荷瘤小鼠的体重降低;清热解毒方对小鼠外周血淋巴细胞亚群有一定影响,中药组较对照组B细胞、CD8^(+)T细胞比例降低,CD3^(+)T细胞比例、CD4^(+)T/CD8^(+)T增加(P<0.05);小鼠肝癌模型中,癌旁组织中NKG2D和MULT1阳性率均高于肿瘤组织,中药干预后,肿瘤组织和癌旁组织的NKG2D和MULT1阳性率均显著高于对照组(P<0.05)。结论:清热解毒方抗肿瘤机制可能与增强NKG2D及其配体介导的抗肿瘤免疫反应,调节T淋巴细胞亚群平衡,改善免疫微环境有关,而NKG2D及其配体系统可作为肿瘤治疗及预后评估的潜在靶点。

基于Smart 3D的船体结构开孔参数化工具开发

为了解决船体结构开孔设计建模效率低下的问题,基于Smart 3D二次开发框架,通过研究参数化设计方法,建立一种基于Smart3D二次开发的结构开孔参数化设计方法。在Microsoft Visual Studio集成开发环境下,基于Net FrameWork框架,运用vb.net语言进行船体结构开孔参数化建模工具的二次开发。在此基础上,以某7000 TEU箱船Smart 3D模型为应用实例,借助开发的工具进行实例验证,验证表明,该工具可实现多船体肋位上结构开孔的批量建模功能,与传统开孔技术相比,可进一步提升开孔设计建模效率,增加建模的准确性和规范性。

供应链金融对中小企业R&D投资效率的影响:基于融资约束视角

创新是中小企业保持竞争力、适应市场变化和实现可持续发展的关键。基于2016-2022年创业板中小企业相关数据,运用三阶段DEA分析、面板Tobit模型回归、二元Logistic回归等方法,探究供应链金融对中小企业R&D投资效率的影响。结果表明,供应链金融能够显著提高中小企业R&D投资效率,融资约束在二者间发挥遮掩效应。进一步分析发现,上述效应对供应链集中度较高的企业更为显著。结论可为发挥供应链金融筹资优势,促进供应链生态系统资源互补、信息共享的协同创新网络形成,进而支持中小企业创新活动提供理论支持。

基于数字化3D打印技术的导板辅助颌骨骨折颌间固定螺钉精确度研究

研究基于数字化3D打印技术的导板辅助颌骨骨折颌间固定螺钉精确度。方法 样本:本院收治的颌骨骨折患者,采样年限:2022年4月-2024年5月,数量:60例,分组法则:随机数字表法。对照组(n=30):常规颌骨骨折复位及自由手颌间固定螺钉植入;实验组(n=30):数字化3D打印技术导板辅助颌骨骨折复位及颌间固定螺钉植入。对比两组手术效果、颌间固定螺钉与牙根距离、颌间固定螺钉植入精准度、骨折复位精准度、术后2周颌间固定螺钉松动度。结果 手术效果:观察组:对照组(90.00%:66.66%,P<0.05)。实验组颌间固定螺钉与牙根距离较对照组低,颌间固定螺钉植入精准度、骨折复位精准度较对照组高(P<0.05)。咬合关系:观察组:对照组(96.67%:76.67%,P<0.05)。术后并发症发生率:观察组:对照组(3.33%:30.00%,P<0.05)。结论 数字化3D打印技术可有效提升颌间固定螺钉精确度,为颌骨骨折治疗提供更精准、可靠的手段,提高患者手术效果,减少术后并发症发生率,利于其咬合功能恢。

Moho depth inversion in the Tibetan Plateau from high-precision gravity data

The Tibetan Plateau(TP)is the youngest orogenic belt resulting from a continental collision on the Earth.It is a natural laboratory for studying continental dynamics,such as continental convergence,plate subduction,and plateau uplift.Investigating the deep structure of the TP has always been a popular issue in geological research.The Moho is the boundary between the crust and the mantle and therefore plays a crucial role in the Earth’s structure.Parameters such as depth and lateral variation,as well as the fine structure of the crust-mantle interface,reveal the lithospheric dynamics in the TP.Two methods are generally employed to study the Moho surface:seismic detection and gravity inversion.Seismic detection has the characteristic of high precision,but it is limited to a few cross-sectional lines and is quite costly.It is not suitable for and cannot be carried out over a large area of the TP.The Moho depth over a large area can be obtained through gravity inversion,but this method is affected by the nature of gravity data,and the accuracy of the inversion method is lower than that of seismic detection.In this work,a high-precision gravity field model was selected.The Parker-Oldenburg interface inversion method was used,within the constraints of seismic observations,and the Bott iteration method was introduced to enhance the inversion efficiency.The Moho depth in the TP was obtained with high precision,consistent with the seismic detection results.The research results showed that the shape of the Moho in the TP is complex and the variation range is large,reaching 60−80 km.In contrast with the adjacent area,a clear zone of sharp variation appears at the edge of the plateau.In the interior of the TP,the buried depth of the Moho is characterized by two depressions and two uplifts.To the south of the Yarlung Zangbo River,the Moho inclines to the north,and to the north,the Moho depresses downward,which was interpreted as the Indian plate subducting to the north below Tibet.The Moho depression on the north side of the Qiangtang block,reaching 72 km deep,may be a result of the southward subduction of the lithosphere.The Moho uplift of the Qiangtang block has the same strike as the Bangong−Nujiang suture zone,which may indicate that the area is compensated by a low-density and low-velocity mantle.

High-precision nonisothermal transient wellbore drift flow model suitable for the full flow pattern domain and full dip range

A reliable multiphase flow simulator is an important tool to improve wellbore integrity and production decision-making.To develop a multiphase flow model with high adaptability and high accuracy,we first build a multiphase flow database with 3561 groups of data and developed a drift closure relationship with stable continuity and high adaptability.Second,a high-order numerical scheme with strong fault capture ability is constructed by effectively combining MUSCL technology,van Albada slope limiter and AUSMV numerical scheme.Finally,the energy equation is coupled into the AUSMV numerical scheme of the drift flow model in the form of finite difference.A transient non-isothermal wellbore multiphase flow model with wide applicability is formed by integrating the three technologies,and the effects of various factors on the calculation accuracy are studied.The accuracy of the simulator is verified by comparing the measurement results with the blowout experiment of a full-scale experimental well.

Research on the principle of space high-precision temperature control system of liquid crystals based Stokes polarimeter

The magnetic field is one of the most important parameters in solar physics,and a polarimeter is the key device to measure the solar magnetic field.Liquid crystals based Stokes polarimeter is a novel technology,and will be applied for magnetic field measurement in the first space-based solar observatory satellite developed by China,Advanced Space-based Solar Observatory.However,the liquid crystals based Stokes polarimeter in space is not a mature technology.Therefore,it is of great scientific significance to study the control method and characteristics of the device.The retardation produced by a liquid crystal variable retarder is sensitive to the temperature,and the retardation changes 0.09°per 0.10℃.The error in polarization measurement caused by this change is 0.016,which affects the accuracy of magnetic field measurement.In order to ensure the stability of its performance,this paper proposes a high-precision temperature control system for liquid crystals based Stokes polarimeter in space.In order to optimize the structure design and temperature control system,the temperature field of liquid crystals based Stokes polarimeter is analyzed by the finite element method,and the influence of light on the temperature field of the liquid crystal variable retarder is analyzed theoretically.By analyzing the principle of highprecision temperature measurement in space,a high-precision temperature measurement circuit based on integrated operational amplifier,programmable amplifier and 12 bit A/D is designed,and a high-precision space temperature control system is developed by applying the integral separation PI temperature control algorithm and PWM driving heating films.The experimental results show that the effect of temperature control is accurate and stable,whenever the liquid crystals based Stokes polarimeter is either in the air or vacuum.The temperature stability is within±0.0150℃,which demonstrates greatly improved stability for the liquid crystals based Stokes polarimeter.

维生素D与1型糖尿病及其并发症相关性的研究进展

1型糖尿病(T1DM)目前被认为是由胰腺β细胞破坏所引起的慢性自身免疫性疾病,主要是由遗传因素及环境因素共同发挥作用导致胰岛β细胞被破坏,使体内胰岛素分泌绝对不足,需终身依赖体外胰岛素治疗。随着T1DM发病率在全球范围内不断增加,使得人们更加重视T1DM的预防及治疗。诸多研究已证实维生素D除对体内骨代谢及钙磷平衡具有重大价值外,在慢性炎症及免疫相关疾病的发生及进展中亦有重要作用。因此本文在介绍T1DM流行病学及维生素D作用的基础上,进一步阐述维生素D与T1DM及其并发症间的相关性,以期为临床医生综合诊治T1DM提供理论依据。