本文主要研究内容
作者王凯(2019)在《四氧化三铁基复合纳米颗粒的制备及其生物应用研究》一文中研究指出:目前,磁共振成像(Magnetic Resonance Imaging,MRI)己经成为临床医学中广泛用于非损伤性疾病诊断手段之一。超顺磁性纳米颗粒通过影响人体组织在磁场中的弛豫,增强不同组织的对比度,所以可作为MRI造影剂用于增强MRI检测信号的对比度。近年来,基于超顺磁性纳米颗粒的多功能纳米生物分子探针成为新的研究热点。该类探针兼具增强MRI对比度、磁热治疗、药物运载、靶向识别等功能,在生物医学领域尤其是肿瘤的早期检测和治疗领域有着重要的研究意义和实际应用价值。本论文基于生物安全性能良好的超顺磁性Fe304纳米颗粒,利用新颖的修饰材料,制备了四种多功能纳米探针,系统研究了它们在生物体内的MRI造影、荧光成像以及缺铁性贫血治疗方面的生物应用性能。研究内容主要包括:(1)Fe3O4@当归多糖(Fe3O4@ASP)复合纳米颗粒的制备及肝脏MRI研究。采用溶剂热合成法和酯化反应制备出Fe3O4@ASP复合纳米颗粒。当归多糖修饰的复合纳米颗粒具有水溶性好、生物相容性好、生物毒性低等特点,可用于生物体内的MRI检测。通过尾静脉注射法将复合纳米颗粒注入小鼠体内,复合纳米颗粒富集在肝脏中,并完成代谢,小鼠肝脏内有良好的T2和T2*成像效果。小鼠使用复合纳米颗粒灌胃30天后,MRI检测和代谢器官组织病理学切片显示生物体没有出现聚集和病变。因此,Fe3O4@ASP复合纳米颗粒是一种新型的低生物毒性、高T2*信号强度、可以用于肝脏成像检测的MRI造影剂。(2)Fe3O4@黄芪多糖(Fe3O4@APS)复合纳米颗粒缺铁性贫血治疗和MRI研究。黄芪多糖有较好的生物活性,能够刺激造血功能形成红细胞。首先对复合纳米颗粒进行细胞毒性测试,表明它是一种低细胞毒性材料。继而,进行小鼠灌胃的动物实验,结果表明,小鼠灌胃30天后器官中铁浓度值和组织病理学切片均与正常小鼠相近,表明Fe3O4@APS是一种生物安全性良好的复合纳米颗粒。使用Fe3O4@APS复合纳米颗粒以2.0 mg/kg/d的剂量对缺铁性贫血大鼠模型组进行30天灌胃治疗,研究结果表明,大鼠的缺铁性贫血症状有了明显的改善。同时,MRI检测表明,Fe3O4@APS复合纳米颗粒是高T2*信号的MRI造影剂。因此,Fe304@APS复合纳米颗粒是具有良好应用前景的缺铁性贫血治疗药物和MRI造影剂。(3)设计并制备了 Fe3O4@壳聚糖-石墨烯量子点(Fe3O4@CS-GQDs)MRI/荧光成像双模生物分子探针。壳聚糖表面有丰富的氨基,石墨烯量子点中的羧基与Fe3O4@CS复合纳米颗粒表面的氨基结合,形成石墨烯量子点修饰的复合纳米颗粒。复合纳米颗粒的荧光性能测试和MRI测试证明复合纳米颗粒具有良好的荧光性能和T2 MRI造影功能。MTT细胞毒性实验证明复合纳米颗粒的细胞毒性较小。因此,该复合纳米颗粒是一种潜在的可应用于生物体内的MRI/荧光双模生物分子探针。(4)设计并制备了对pH值敏感的Fe3O4-罗丹明6G纳米分子探针。纳米探针的细胞荧光检测结果表明,该探针在pH值为4的细胞中,荧光成像效果最好,随着pH值的升高,荧光信号减弱,在癌细胞的荧光信号明显高于正常细胞。Fe3O4-罗丹明6G纳米分子探针在细胞和动物测试中都有极佳的T2 MRI造影功能。说明Fe3O4-罗丹明6G分子探针是集荧光成像和MRI于一体的pH值敏感型双模探针,在癌细胞的检测诊断中有明显的优势。
Abstract
mu qian ,ci gong zhen cheng xiang (Magnetic Resonance Imaging,MRI)ji jing cheng wei lin chuang yi xue zhong an fan yong yu fei sun shang xing ji bing zhen duan shou duan zhi yi 。chao shun ci xing na mi ke li tong guo ying xiang ren ti zu zhi zai ci chang zhong de chi yu ,zeng jiang bu tong zu zhi de dui bi du ,suo yi ke zuo wei MRIzao ying ji yong yu zeng jiang MRIjian ce xin hao de dui bi du 。jin nian lai ,ji yu chao shun ci xing na mi ke li de duo gong neng na mi sheng wu fen zi tan zhen cheng wei xin de yan jiu re dian 。gai lei tan zhen jian ju zeng jiang MRIdui bi du 、ci re zhi liao 、yao wu yun zai 、ba xiang shi bie deng gong neng ,zai sheng wu yi xue ling yu you ji shi zhong liu de zao ji jian ce he zhi liao ling yu you zhao chong yao de yan jiu yi yi he shi ji ying yong jia zhi 。ben lun wen ji yu sheng wu an quan xing neng liang hao de chao shun ci xing Fe304na mi ke li ,li yong xin ying de xiu shi cai liao ,zhi bei le si chong duo gong neng na mi tan zhen ,ji tong yan jiu le ta men zai sheng wu ti nei de MRIzao ying 、ying guang cheng xiang yi ji que tie xing pin xie zhi liao fang mian de sheng wu ying yong xing neng 。yan jiu nei rong zhu yao bao gua :(1)Fe3O4@dang gui duo tang (Fe3O4@ASP)fu ge na mi ke li de zhi bei ji gan zang MRIyan jiu 。cai yong rong ji re ge cheng fa he zhi hua fan ying zhi bei chu Fe3O4@ASPfu ge na mi ke li 。dang gui duo tang xiu shi de fu ge na mi ke li ju you shui rong xing hao 、sheng wu xiang rong xing hao 、sheng wu du xing di deng te dian ,ke yong yu sheng wu ti nei de MRIjian ce 。tong guo wei jing mai zhu she fa jiang fu ge na mi ke li zhu ru xiao shu ti nei ,fu ge na mi ke li fu ji zai gan zang zhong ,bing wan cheng dai xie ,xiao shu gan zang nei you liang hao de T2he T2*cheng xiang xiao guo 。xiao shu shi yong fu ge na mi ke li guan wei 30tian hou ,MRIjian ce he dai xie qi guan zu zhi bing li xue qie pian xian shi sheng wu ti mei you chu xian ju ji he bing bian 。yin ci ,Fe3O4@ASPfu ge na mi ke li shi yi chong xin xing de di sheng wu du xing 、gao T2*xin hao jiang du 、ke yi yong yu gan zang cheng xiang jian ce de MRIzao ying ji 。(2)Fe3O4@huang qi duo tang (Fe3O4@APS)fu ge na mi ke li que tie xing pin xie zhi liao he MRIyan jiu 。huang qi duo tang you jiao hao de sheng wu huo xing ,neng gou ci ji zao xie gong neng xing cheng gong xi bao 。shou xian dui fu ge na mi ke li jin hang xi bao du xing ce shi ,biao ming ta shi yi chong di xi bao du xing cai liao 。ji er ,jin hang xiao shu guan wei de dong wu shi yan ,jie guo biao ming ,xiao shu guan wei 30tian hou qi guan zhong tie nong du zhi he zu zhi bing li xue qie pian jun yu zheng chang xiao shu xiang jin ,biao ming Fe3O4@APSshi yi chong sheng wu an quan xing liang hao de fu ge na mi ke li 。shi yong Fe3O4@APSfu ge na mi ke li yi 2.0 mg/kg/dde ji liang dui que tie xing pin xie da shu mo xing zu jin hang 30tian guan wei zhi liao ,yan jiu jie guo biao ming ,da shu de que tie xing pin xie zheng zhuang you le ming xian de gai shan 。tong shi ,MRIjian ce biao ming ,Fe3O4@APSfu ge na mi ke li shi gao T2*xin hao de MRIzao ying ji 。yin ci ,Fe304@APSfu ge na mi ke li shi ju you liang hao ying yong qian jing de que tie xing pin xie zhi liao yao wu he MRIzao ying ji 。(3)she ji bing zhi bei le Fe3O4@ke ju tang -dan mo xi liang zi dian (Fe3O4@CS-GQDs)MRI/ying guang cheng xiang shuang mo sheng wu fen zi tan zhen 。ke ju tang biao mian you feng fu de an ji ,dan mo xi liang zi dian zhong de suo ji yu Fe3O4@CSfu ge na mi ke li biao mian de an ji jie ge ,xing cheng dan mo xi liang zi dian xiu shi de fu ge na mi ke li 。fu ge na mi ke li de ying guang xing neng ce shi he MRIce shi zheng ming fu ge na mi ke li ju you liang hao de ying guang xing neng he T2 MRIzao ying gong neng 。MTTxi bao du xing shi yan zheng ming fu ge na mi ke li de xi bao du xing jiao xiao 。yin ci ,gai fu ge na mi ke li shi yi chong qian zai de ke ying yong yu sheng wu ti nei de MRI/ying guang shuang mo sheng wu fen zi tan zhen 。(4)she ji bing zhi bei le dui pHzhi min gan de Fe3O4-luo dan ming 6Gna mi fen zi tan zhen 。na mi tan zhen de xi bao ying guang jian ce jie guo biao ming ,gai tan zhen zai pHzhi wei 4de xi bao zhong ,ying guang cheng xiang xiao guo zui hao ,sui zhao pHzhi de sheng gao ,ying guang xin hao jian ruo ,zai ai xi bao de ying guang xin hao ming xian gao yu zheng chang xi bao 。Fe3O4-luo dan ming 6Gna mi fen zi tan zhen zai xi bao he dong wu ce shi zhong dou you ji jia de T2 MRIzao ying gong neng 。shui ming Fe3O4-luo dan ming 6Gfen zi tan zhen shi ji ying guang cheng xiang he MRIyu yi ti de pHzhi min gan xing shuang mo tan zhen ,zai ai xi bao de jian ce zhen duan zhong you ming xian de you shi 。
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论文详细介绍
论文作者分别是来自北京科技大学的王凯,发表于刊物北京科技大学2019-06-27论文,是一篇关于纳米颗粒论文,天然多糖论文,磁共振成像论文,缺铁性贫血论文,双模探针论文,北京科技大学2019-06-27论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自北京科技大学2019-06-27论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:纳米颗粒论文; 天然多糖论文; 磁共振成像论文; 缺铁性贫血论文; 双模探针论文; 北京科技大学2019-06-27论文;