水凝胶弹簧圈与铂金微弹簧圈治疗后交通动脉瘤的比较研究

目的比较水凝胶弹簧圈和铂金微弹簧圈在治疗颅内动脉瘤中的应用价值。资料和方法回顾我院从2003年11月～2008年6月行水凝胶微弹簧圈和铂金微弹簧圈栓塞治疗的49例51个颅内后交通动脉瘤病例,其中Hunt-Hess分级Ⅱ级28例,Ⅲ级21例。27个动脉瘤全部采用铂金微弹簧圈栓塞,24个采用水凝胶弹簧圈栓塞。比较2种栓塞方法的安全性和使用弹簧圈的数量。结果铂金微弹簧圈组完全致密栓塞25个,瘤颈残瘤2个,6月后复查残留瘤颈消失,平均每个动脉瘤使用弹簧圈5.4个;水凝胶弹簧圈组完全致密栓塞24个,暂时性对侧肢体轻偏瘫2例,平均每个动脉瘤使用弹簧圈4.2个;2组均随访6～18月,未见复发。结论水凝胶微弹簧圈和铂金微弹簧圈治疗颅内动脉瘤都安全有效,水凝胶微弹簧圈可显著提高栓塞的致密程度,且可减少弹簧圈的使用数量,但是否可减少栓塞后动脉瘤复发仍有待进一步长期随访。

金微纳阵列表面等离激元中红外波段光谱特性

表面等离激元是金属表面自由电子在入射光激发下产生的电子集体振荡行为及其相应的电磁场分布。目前,金微纳颗粒表面等离激元除了在可见光波段内被大量研究和应用外,在中红外波段内也显示出独特的光谱特性,具备设计生产优良传感器的潜力,因而同样备受瞩目。研究表明,在中红外波段内设计表面等离激元传感器的关键问题在于如何有效地调节共振谱的共振波长、峰值吸收率以及半峰宽等主要特征参数。相比于单个微纳颗粒而言,阵列结构由于拥有良好的周期性,从而能够在上述参数的宽光谱调节方面具有独特的优势。基于此,提出一种基于金微纳颗粒组成的阵列结构,利用时域有限差分方法,在4～18μm波段范围内,通过分别改变该阵列的结构参数,包括颗粒半径、高度、间距及颗粒形状等,系统地研究了该微纳阵列结构在中红外波段对入射光的反射光谱、透射光谱和吸收光谱等特性的影响。研究发现,在8～10μm光谱内,入射光能够与其所激发的金微纳阵列表面等离激元产生共振效应,表现出明显的共振峰特性。可以通过分别改变上述结构参数来有效调节吸收率谱线共振峰的共振波长、峰值吸收率和半峰宽等主要特征参数。研究结果对中红外光谱内基于金微纳阵列结构传感器的科学研究和实际设计具有独特的理论应用价值。

金微/纳颗粒阵列的SERS效应研究

表面增强拉曼散射(surface-enhanced Raman scattering,简称为SERS)能够提供有机分子的指纹特征信息,且具有灵敏度高和响应时间快等优点,是一项具有发展前景的分析技术。纳米结构SERS基底是获得SERS信号的关键。本文利用简便的电沉积方法在硅片上制备大面积的金微/纳颗粒阵列。金纳米颗粒之间存在大量狭小的纳米间隙,在光激发下产生大量的SERS"热点",从而具有很高的SERS灵敏度。而且,这种金微/纳结构具有高结构稳定性和化学稳定性。该结构对浓度低至10-12 M的罗丹明6G(R6G)具有很高的SERS灵敏性,且具有很好的SERS信号均匀性。利用这种微/纳结构阵列SERS基底,实现对水中低浓度农药甲基对硫磷的成功检测。这表明我们制备的金微/纳颗粒阵列在检测环境中的毒性有机物污染物方面具有潜在的应用前景。

颅内动脉瘤患者应用电解铂金微弹簧圈栓塞术40例护理体会

目的:探讨导管置入电解铂金微弹簧圈(GDC)栓塞治疗颅内动脉瘤患者的护理。方法:术前重点要做好准备工作,包括病人准备,及介入室的准备,制定术中可能发生问题的防治措施;备齐抢救药物及特殊导管器械;术中严密监测生命体征,采取措施预防并发症。结果:本组39例恢复良好, 1例出现偏瘫等并发症,经治疗后于2个月内恢复正常。结论:充分做好术前准备,术中医护默契配合,术后预防各种并发症是手术成功的必要条件。

真金微书洒扇面 蒋炳贤

蒋炳贤,1945年出生,浙江绍兴人,现为中国民间文艺家协会会员、浙江省民间文艺家协会会员、浙江省工艺美术行业协会会员、工艺美术师、绍兴市工艺美术大师,获浙江省"首届优秀民间文艺人才"称号,第四届中国民间艺人节组委会评选授予"中国最受欢迎的民间艺术家"称号。2013年,他被评为最具影响力的绍兴市工艺美术民间艺人;2014年被评为第五届浙江省工艺美术大师。蒋炳贤扇面真金微书艺术特征:扇面金光熠熠、章法整齐、疏密有致。

盐酸四环素在Nafion膜上的吸附动力学及其介导的金微纳米晶体的生长

实验发现,盐酸四环素能够很好吸附到Nafion膜上,动力学研究表明其吸附是与浓度相关并由扩散控制的一级动力学过程,扩散系数为8.5×10-9 cm2 s-1,遵循BET吸附等温线,表明其多层吸附特性.研究表明,当吸附了盐酸四环素的Nafion膜浸入合适浓度的氯金酸溶液时,盐酸四环素能够介导金微纳米晶体在Nafion膜上的生长,且通过简单改变氯金酸溶液的浓度,可以调控金微纳米晶体的形态.这一实验结果为金属微纳米材料Nafion聚合物复合膜的制备提供了新思路,这种金微纳米材料Nafion聚合物复合膜在化学生物传感设计和材料科学领域具有潜在的应用价值.

负载VEGF聚合物修饰铂金微弹簧圈栓塞动脉瘤模型的研究

目的 探讨负载血管内皮生长因子（VEGF）的聚合物修饰铂金微弹簧圈对动脉瘤的栓塞效果. 方法 健康雌性SD大鼠54只采用随机数字表法分为普通铂金微弹簧罔组、聚合物涂层修饰组和负载VEGF组,每组各18只.分别将各组弹簧圈片断植入大鼠右侧颈总动脉,在弹簧圈远端将颈总动脉结扎后恢复血流,则颈总动脉残端形成囊状动脉瘤,弹簧圈片断位于动脉瘤囊内.于术后15d、30 d和90 d每组取6只大鼠,将包含有弹簧圈的一段动脉切下,同时切取普通铂金微弹簧圈组大鼠左侧一段颈总动脉作为空白对照组.HE染色观察标本内皮细胞的增殖和纤维化程度；免疫组织化学染色检测血管性假血友病因子（vwf）的表达；Western blotting检测动脉瘤局部VEGF的释放情况. 结果 术后10d、30 d、90 d时负载VEGF组动脉瘤组织纤维化分级明显高于普通铂金微弹簧圈组,术后30d时负载VEGF组纤维化分级高于聚合物涂层修饰组,差异均有统计学意义（P＜0.05）；免疫组织化学染色检测显示负载VEGF组铂金微弹簧圈在栓塞动脉瘤模型后很快形成血栓并机化,动脉瘤腔内完全被纤维化的组织填塞,并且纤维化的组织中有呈vwf阳性表达的新生小血管形成,另外3组均未观察到vwf呈阳性表达的新生血管；Western blotting结果显示负载VEGF组在术后15d、30 d时动脉瘤壁组织中VEGF因子水平明显高于其他组,而90 d时VEGF因子水平明显低于其他组. 结论 负载VEGF的聚合物修饰铂金微弹簧圈可在动脉瘤腔内缓慢释放VEGF,刺激动脉瘤内细胞增生,促进血栓机化,形成致密的纤维化组织,达到更快、更完全地闭塞动脉瘤的效果.

亚硫酸盐无氰体系电镀金凸块性能的影响因素

[目的]鉴于先进封装技术向微型化和集成化发展,电镀金凸块成为液晶显示驱动芯片互连的首选。但纯金材料存在强度不足、易形变的问题,因此提升电镀金凸块的力学性能是该领域的研究重点之一。[方法]采用亚硫酸盐无氰体系在晶圆表面电镀金凸块,研究了镀液各组分浓度、工艺参数变化及镀液老化对金凸块性能的影响。[结果]晶圆表面各部位的金凸块外观均一,无漏镀、结瘤、针孔等缺陷,退火后的显微硬度约为90 HV,其力学性能可在较为宽泛的施镀工艺窗口、镀液组分浓度范围及镀液老化过程中保持稳定。[结论]该亚硫酸盐无氰电镀金工艺有望在高密度封装领域得到推广应用。

应用于封装凸块的亚硫酸盐无氰电镀金工艺

[目的]在工业可持续发展战略下,环保无氰电镀金技术正逐步替代传统氰化物电镀金技术,并在微电子封装领域中得到推广应用。[方法]针对液晶驱动芯片封装晶圆电镀金凸块工艺制程,开发出一种新型亚硫酸盐无氰电镀金配方和工艺。[结果]自研无氰电镀金药水中添加了有机膦酸添加剂和晶体调整剂,前者能够充分抑制镍金置换,后者有助于形成低应力的等轴晶组织,可避免施镀过程中国产光刻胶挤出变形现象。该自研无氰电镀金工艺应用于晶圆时可获得微观表面平整均匀和无缺陷的金凸块。[结论]该自研无氰电镀金工艺能够满足晶圆级封装的要求,具备很好的推广应用潜力。

Effect of Different Laser Energy Nitriding on the Fretting Wear Performance of Zr Alloy

The zirconium(Zr)alloy fuel cladding is one of the key structural components of a nuclear reactor and the first and most important line of defense for accommodating fission products.During the operation of nuclear reactors,Zr alloy fuel cladding is subjected to extreme harsh environments,such as high temperature,high pressure and high flow rate for a long period of time.The wear and corrosion resistance of Zr alloys is important for the safe operation of nuclear reactors.Surface modification can effectively improve the corrosion and wear resistance of fuel cladding.Compared with coating technology,nitriding technology does not have problems for bonding between the coating and the substrate.Current research on surface nitriding of Zr alloys mainly focuses on plasma nitriding and ion implantation techniques.Research on laser nitriding of Zr alloy surfaces and their fretting wear characteristics is scarce.In this study,the surface of Zr alloy was treated with laser nitriding at different laser energies.The microstructure of Zr alloy treated with different laser energies and its fretting wear performance were studied.The results showed that after nitriding with different laser energies,the surface of the Zr alloy showed a typical molten state after melting,vaporizing and cooling under the thermal effect of the laser,and this state was more obvious with the increase of the laser energy.At the same time,doping of N atoms and formation of the ZrN phase led to different cooling rates in the molten zone that produced large tensile stresses after cooling.This led to cracks on the surface of Zr alloys after laser nitriding at different energies,and the crack density increased with increasing laser energy.This also led to an increase in the surface roughness of the Zr alloy with increasing laser energy after laser nitriding treatment.Due to the presence of water in the industrial nitrogen,nitrides were generated on the surface of the sample along with some oxides.When the laser energy was 100 mJ,there was no ZrN generation,and N existed mainly as a diffusion layer within the Zr alloy substrate.ZrN generated when the laser energy reached 200 mJ and above,which increased with the increase of laser energy.Due to the generation of ZrN phase and the presence of some oxides,the surface Vickers hardness of Zr alloys after laser nitriding treatment at different energies increased by 37.5%compared to Zr alloys.After laser nitriding treatment,the wear mechanism of Zr alloys changed.For the untreated Zr alloys,the wear mechanism was dominated by delamination and spalling wear,accompanied by oxidative and abrasive wear.The phenomenon of delamination and peeling decreased with the increase of laser energy.Wear mechanisms changed to predominantly abrasive wear with oxidative wear and delamination spalling.The wear volume of sample nitriding with laser energy 400 mJ was reduced by 46.5%compared with that of untreated Zr alloy.

Effect of brazing temperature on microstructure and tensile strength ofγ-TiAl joint vacuum brazed with micro-nano Ti−Cu−Ni−Nb−Al−Hf filler

A novel micro-nano Ti−10Cu−10Ni−8Al−8Nb−4Zr−1.5Hf filler was used to vacuum braze Ti−47Al−2Nb−2Cr−0.15B alloy at 1160−1220℃ for 30 min.The interfacial microstructure and formation mechanism of TiAl joints and the relationships among brazing temperature,interfacial microstructure and joint strength were emphatically investigated.Results show that the TiAl joints brazed at 1160 and 1180℃ possess three interfacial layers and mainly consist of α_(2)-Ti_(3)Al,τ_(3)-Al_(3)NiTi_(2) and Ti_(2)Ni,but the brazing seams are no longer layered and Ti_(2)Ni is completely replaced by the uniformly distributed τ_(3)-Al_(3)NiTi_(2) at 1200 and 1220℃ due to the destruction of α_(2)-Ti_(3)Al barrier layer.This transformation at 1200℃ obviously improves the tensile strength of the joint and obtains a maximum of 343 MPa.Notably,the outward diffusion of Al atoms from the dissolution of TiAl substrate dominates the microstructure evolution and tensile strength of the TiAl joint at different brazing temperatures.

电解可脱式弹簧圈栓塞治疗颅内动脉瘤破裂

目的 探讨血管内电解可脱式铂金微弹簧圈 (GDC)早期栓塞治疗破裂后颅内动脉瘤的临床价值。方法 对 15例破裂后颅内动脉瘤施行血管内GDC早期栓塞治疗 ,15例患者按Hunt Hess分级 :I级 8例、II级 6例、IV级 1例 ,所有病例均经DSA造影和CT扫描诊断。结果 GDC栓塞手术成功13例 ,占 86 .7% (13/ 15 ) ;13例随访 3～ 2 5个月无再次出血和并发症 ,其中 2例 6个月后复查DSA未见复发 ,全部病例头颅正侧位片显示GDC形态、位置无改变 ;栓塞手术失败的 2例患者分别于术后第 4天和 4个月死亡。结论 早期GDC血管内栓塞治疗破裂后颅内动脉瘤为有效方法 ,可以防止再次破裂出血。

沙丁胺醇免疫层析试纸条的应用研究

用胶体金和纳米金-聚苯胺-纳米金微球(GPG)分别标记制备的沙丁胺醇多克隆抗体,喷涂在玻璃纤维垫上,将包被抗原和羊抗兔二抗分别固定到硝酸纤维素膜上作为检测线(T-Line)和质控线(C-Line),干燥后组装试纸条,建立免疫层析分析方法。考查检测试纸条的灵敏度和稳定性,并应用于动物源性食品(猪肉、牛肉、羊肉和猪肝)中沙丁胺醇残留的可视化检测。实验结果可以看出,沙丁胺醇胶体金标记免疫层析分析方法的样品检出限为5μg/L,沙丁胺醇GPG标记免疫层析分析方法的样品检出限为10μg/L。

输卵管积水介入栓塞治疗160例临床体会

目的通过对160例输卵管积水患者进行介入性输卵管栓塞治疗,探讨该方法对于输卵管积水患者进行体外受精一胚胎移植(IVF-ET)前对积水进行预处理的可行性。方法选择160名因输卵管积水造成不孕的患者,应用微导管将铂金微弹簧圈送至输卵管间质部及峡部,对积水的输卵管进行栓塞。结果栓塞成功157例,无法栓塞1例,栓塞后弹簧圈发生移位2例,栓塞成功率98.2%。结论介入性输卵管栓塞术作为输卵管积水预处理的一种新方法,与目前常用的几种输卵管积水治疗方法如输卵管切除、结扎、造口和抽吸等相比,具有无手术及麻醉的并发症,安全有效,对卵巢功能无影响等特点,可使输卵管积水患者IVF-ET时避免受到输卵管积水的影响,是一种很有前途的治疗新技术。

Effect of Ni on microstructure and mechanical properties of Al−Mg−Si alloy for laser powder bed fusion

The microstructures and mechanical properties were systematically studied for the high-strength Al−5Mg_(2)Si−1.5Ni alloy fabricated by laser powder bed fusion(L-PBF).It is found that the introduction of Ni(1.5 wt.%)into an Al−5Mg_(2)Si alloy can significantly improve the L-PBF processibility and provide remarkable improvement in mechanical properties.The solidification range of just 85.5 K and the typical Al−Al3Ni eutectics could be obtained in the Ni-modified Al−5Mg_(2)Si samples with a high relative density of 99.8%at the volumetric energy density of 107.4 J/mm^(3).Additionally,the refined hierarchical microstructure was mainly characterized by heterogeneousα-Al matrix grains(14.6μm)that contain the interaction between dislocations and Al−Al3Ni eutectics as well as Mg_(2)Si particles.Through synergetic effects of grain refinement,dislocation strengthening and precipitation strengthening induced by Ni addition,the L-PBFed Al−5Mg_(2)Si−1.5Ni alloy achieved superior mechanical properties,which included the yield strength of(425±15)MPa,the ultimate tensile strength of(541±11)MPa and the elongation of(6.2±0.2)%.

输卵管积水介入栓堵的临床应用

目的：评估输卵管积水介入栓堵的疗效。方法：选择已明确诊断为输卵管积水并欲做体外受精-胚胎移植（in vitro fertilization-embryo transfer,IVF-ET）的患者900例,在数字减影血管造影机（digital subtraction angiography,DSA）下通过微导管将铂金弹簧置入输卵管的间质部和峡部,1~2个月后行常规子宫输卵管造影（hysterosalpinography,HSG）,检查输卵管栓堵是否成功。患者分为2组,对照组患者一侧输卵管里只置入1枚弹簧圈;治疗组一侧输卵管里置入多枚弹簧圈。结果：本组900例输卵管积水全部栓堵成功,共计栓堵1 645条输卵管,术后1~2个月造影复查,对照组栓堵的120条输卵管中6条输卵管弹簧圈移位而失去栓堵作用;35条输卵管弹簧圈无明显移位但栓堵部位有造影剂渗漏。治疗组的1 525条输卵管弹簧圈无移位,10条有造影剂渗漏。结论：输卵管栓堵术的成功率与采用的栓堵方式有显著关系,采取多枚弹簧圈栓堵积水输卵管的成功率明显高于采用1枚弹簧圈栓堵输卵管。介入栓堵治疗可使患者在IVF-ET时避免受到输卵管积水的影响。

A review on advances of high-throughput experimental technology for titanium alloys

Ti alloys,as leading lightweight and high-strength metallic materials,exhibit significant application potential in aerospace,marine engineering,biomedical,and other industries.However,the lack of fundamental understanding of the microstructure−property relationship results in prolonged research and development(R&D)cycles,hindering the optimization of the performance of Ti alloys.Recently,the advent of high-throughput experimental(HTE)technology has shown promise in facilitating the efficient and demand-driven development of next-generation Ti alloys.This work reviews the latest advancements in HTE technology for Ti alloys.The high-throughput preparation(HTP)techniques commonly used in the fabrication of Ti alloys are addressed,including diffusion multiple,additive manufacturing(AM),vapor deposition and others.The current applications of high-throughput characterization(HTC)techniques in Ti alloys are shown.Finally,the research achievements in HTE technology for Ti alloys are summarized and the challenges faced in their industrial application are discussed.

输卵管积水介入栓塞治疗效果临床分析

目的:探讨输卵管积水介入栓塞治疗的方法、效果、积水栓塞后对于体外受精-胚胎移植(in vitro fertilization andembryo transfer,IVF-ET)的影响。方法:对2009年1月至2011年12月就诊于我院行IVF-ET患者300例临床资料进行回顾性分析。病例分为三组。A组:因输卵管积水行输卵管介入栓塞术的患者200例为栓塞组;B组:选取输卵管积水结扎治疗组50例;C组:以既往的输卵管积水未治疗组50例为对照组。结果:A组的200例患者共栓塞350条输卵管。栓塞效果良好的输卵管有348条(99.7%);弹簧圈脱落至伞端2条,无效率为0.03%。A组及B组患者的平均临床妊娠率均高于C组,差异有显著性(P<0.05)。结论:输卵管介入栓塞术不会影响卵巢的血供,也不受腹腔粘连的影响,对于腹腔粘连严重的输卵管积水患者来说有更重要的临床应用价值,输卵管介入栓塞是IVF-ET前一种较好的输卵管积水处理方式。