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【摘要】 目的 探讨CT引导下经皮肺穿刺活检术(PTNB)诊断非小细胞肺癌(NSCLC)准确率及其影响因素。方法 回顾性分析2010年1月1日至2016年11月1日有手术病理结果的NSCLC患者203例,所有患者在术前均行CT引导下PTNB取得组织标本病理。计算穿刺活检诊断准确率,并分析影响穿刺活检诊断准确率的因素。结果 ①CT引导下PTNB取得的小标本与手术大标本的病理结果符合率为92.6%(188/203);鳞癌和腺癌类型的符合率最高,分别为100%、97.5%,大细胞癌类型的符合率20%。大、小标本对肺腺癌、鳞癌的分型诊断差异无统计学意义(k=0.872、P=0.250)。②χ2检验结果显示观察因素中只有病灶大小是穿刺活检诊断准确率的影响因素(P=0.008)。结论 CT引导下PTNB与手术大标本在NSCLC的诊断方面有较高的符合率,值得在临床推广;病灶大小是穿刺活检诊断准确率的重要影响因素之一。
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鄂尔多斯盆地致密油长7储层喉道细小、物性差,且矿物组分复杂,外来流体易改变储层的渗流能力。为了识别外来流体对储层渗透率的伤害情况,依据SY/T 5358-2010《储层敏感性流动实验评价方法》对鄂尔多斯盆地富黄探区延长组长7储层进行敏感性实验研究。结合X衍射、全岩定量分析、铸体薄片分析等实验方法,分析了研究区长7储层敏感性类型、伤害程度以及影响程度。研究结果表明,研究区长7油层组具有弱速敏、弱水敏、弱盐敏、无碱敏、无酸敏(15%HCl)。根据该实验结果,在富黄探区长7油层组开发中应注意控制注入水的矿化度,使之与地层水矿化度相近;此外,富黄探区长7储层酸敏性矿物有方解石和绿泥石,经酸处理后方解石溶解,帮助改善喉道尺寸,长7油藏组适合进行酸化预处理。 相似文献
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在CaCl2-CaF2为基础熔盐体系、CaO-SiO2为添加料、石墨坩埚为阳极、上浮镁液为阴极的电解槽中采用电沉积法生产Mg-Si中间合金,探究了实验温度、阴极电流强度和电解时间对制备镁硅中间合金过程中反电动势以及电流效率的影响。结果发现:反电动势值随阴极电流强度的变大呈指数升高趋向;温度从860℃升高到960℃时,反电动势由1.97V降低至1.78V;加入2wt?O-SiO2可使反电动势平均降低0.26V;加料周期是48min;电流效率、硅浓度随电流的增大先升高再降低,最佳电解时长是120min;合金中硅的分布较均匀,无明显偏析。 相似文献
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Mulberry silk is composed of the two major parts of two triangle-like silk fibroin fibers and sericin covering the fibers and a few lipids. After removing the sericin on the raw silk what is left is the silk fibroin fiber. Silk fibroin is the main part of silk accounting for about 75% of the total weight. Silk fibroin contains 18 natural amino acids such as glycine Gly alanine Ala serine Ser serine aspartic acid Asp and tyrosine Tyr . The secondary structure of silk fibroin has three main conformations α-helix β-fold and random coil. Under certain conditions the three conformations can transform into each other and change the mechanical properties of the silk fibroin material. Silk fibroin extracted from silk fiber is a natural polymer with biocompatibility and biodegradability. It can be further processed into different forms of materials nanoparticles films hydrogels sponges etc. It has been applied in many fields such as biomedicine and cosmetics. In order to meet the needs of different fields researchers have conducted further chemical modification treatment based on the original excellent properties of silk fibroin. Meanwhile the active groups on various amino acid residues in silk fibroin also provide chemical reaction sites for the chemical modification of silk fibroin. The chemical modification methods of silk fibroin mainly include amino acid residue modification macromolecular grafting modification and crosslinking reaction modification. Among them amino acid residue modification can modify protein amino acid residues by chemical reagents and some groups can be introduced into the side chains of silk fibroin macromolecules. Grafting modification of silk fibroin macromolecules is one of the main means to bind functional compounds to silk fibroin macromolecular chains. The properties of grafted silk fibroin are affected by the type and grafting rate of the grafts. The chemical crosslinking reaction modification of silk fibroin macromolecules is to make the macromolecular chains connected by covalent bonds and form a network structure by means of crosslinking agents enzymes or ultraviolet irradiation. The cross-linking reaction can not only form covalent bonds within and between the molecular chains of silk fibroin thus changing its structural properties and improving its stability but be used to form covalent bonds with other polymers. At present the chemical modification of silk fibroin is mainly applied in the fields of silk textiles biomedicine and environmental science. In the field of silk textiles graft copolymerization modification of vinyl and other monomers crosslinking agent modification and other methods are used to overcome the shortcomings of silk like being easy to wrinkle. The graft modified monomers mainly include ethylene methacrylate and methylacrylamide. The active groups on crosslinking agents such as polycarboxylic acid / anhydride and epoxide are covalently combined with carboxyl hydroxyl and amino groups on macromolecules of silk fibroin to improve the wrinkle resistance of silk fabrics. In the field of biomedicine silk fibroin materials with appropriate chemical modification have better biological activity drug delivery ability antimicrobial properties and mechanical properties. The optimization of these properties enables silk fibroin materials to show great potential in drug control delivery tissue regeneration and wound repair. The applied research in the field of environmental science mainly focuses on the adsorption separation and catalysis of impurities in water. Therefore the modification of amino acid residues grafting and cross-linking of protein macromolecules can change some important properties of silk fibroin and meet the requirements of various applications and functionalization of silk fibroin. In many fields of chemical modification and application of silk fibroin protein fruitful results have been achieved which has laid a good foundation for the further development of related fields and also shows that the chemical modification of silk fibroin material has great potential and application prospects. However there are still some problems that need to be overcome and further improved in the current chemical modification methods such as mild modification conditions and accurate adjustment of the degree of modification which will be the research direction of related fields in the future. © 2022 Authors. All rights reserved. 相似文献
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最近几十年,随着我国加入世贸组织和经济全球化进程的加快,我国建筑行业呈现出快速发展的态势,同时也为了加入WTO以后,国际工程市场的变化,满足我国建筑企业走向国际市场的需要,建筑设计企业向总承包转型的推进势在必行。本文结合自己工作实践和对相关政策法规的学习,提出设计企业向工程总承包转型模式的选择建议,供同行参考。 相似文献
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为了能够科学地评价我国石油安全的程度,结合PSR"压力-状态-响应"框架构建了我国石油安全评价指标体系,运用熵权法和灰色关联分析法对我国1993~2014年的石油安全状况进行定量评价。结果表明中国自1993年成为石油净进口国以来,影响中国石油安全的三个主要因素为石油储采比、石油对外依存度和石油储备水平;1993~2014年中国石油安全的压力整体呈增大趋势,而保障石油安全的状态指标大幅波动且有下降趋势,石油响应程度因战略石油储备水平影响表现偏差,从而导致中国石油整体处于不安全状态。 相似文献