Application of iron oxide anoparticles in neuronal tissue engineering 被引量：2

Application of iron oxide anoparticles in neuronal tissue engineering

下载PDF

导出

摘要 Since the introduction of nanotechnology, nanoscale materials have developed rapidly and have been applied in various fields including in the pharmaceutical industry, medicine, and tissue engineering. Among a variety of nanomaterials, magnetic iron oxide nanoparticles （IONPs） have been intensively investigated for numerous in vivo applications such as gene and drug delivery, diagnostics, cell labeling and sorting. Compared to nanoparticles made from other materials, IONPs have several additional unique applications due to their magnetic properties, for example, magnetic cell separation, Since the introduction of nanotechnology, nanoscale materials have developed rapidly and have been applied in various fields including in the pharmaceutical industry, medicine, and tissue engineering. Among a variety of nanomaterials, magnetic iron oxide nanoparticles （IONPs） have been intensively investigated for numerous in vivo applications such as gene and drug delivery, diagnostics, cell labeling and sorting. Compared to nanoparticles made from other materials, IONPs have several additional unique applications due to their magnetic properties, for example, magnetic cell separation,

作者 Ofra Ziv-Polat Shlomo Margel Abraham Shahar

机构地区 N.V.R Research Ltd. Department of Chemistry

出处《Neural Regeneration Research》 SCIE CAS CSCD 2015年第2期189-191,共3页 中国神经再生研究（英文版）

基金 funded by the European Community’s Seventh Framework Program(FP7-HEALTH-2011)under Grant No.278612(BIOHYBRID)

关键词 GDNF Application of iron oxide anoparticles in neuronal tissue engineering

分类号 R741 [医药卫生—神经病学与精神病学] TB383.1 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献12

1Ahmed TA, Dare EV, Hincke M (2008) Fibrin: a versatile scaffold for tis- sue engineering applications. Tissue Eng Part B Rev 14 199-215.
2Cortajarena AL, Ortega D, Ocampo SM, Gonzalez-Garcia A, Couleaud P, Miranda R, Belda-Iniesta C, Ayuso-Sacido A (2014) Engineering iron oxide nanoparticles for clinical settings. Nanobiomedicine 1:2.
3Gupta AK, Gupta M (2005) Synthesis and surface engineering of iron oxide nanoparticles for biomedical applications. Biomaterials 26:3995- 4021.
4Morano M, Wrobel S, Fregnan F, Ziv-Polat O, Shahar A, Ratzka A, Grothe C, Geuna S, Haastert-Talini K (2014) Nanotechnology versus stem cel/ engineering: in vitro comparison of neurite inductive potentials. Int J Nanomedicine 9:5289-5306.
5Shahar A, Ziv-Polat O, Margel S, Freier T (2015) Developing a Custom- ized Tissue-Engineered Implant for Peripheral Nerve Reconstruction: Role of Nanoparticles. In: Volume 5: Medical Nanobiotechnology of the Series "Nanobiomedicine" (Bhupinder Singh SP, Swaranjit Singh Cameotra, eds), pp361-380. USA: Studium Press LLC.
6Skaat H, Ziv-Polat O, Shahar A, Margel S (2011) Enhancement of mi- gration, growth and differnatiation of nasal olfactory mucosa cells by growth factor-conjugated fluorescent-maghemite nanoparticles. Bio- conjugate Chem 22:2600-2610.
7Skaat H, Ziv-Polat O, Shahar A, Last D, Mardor Y, Margel S (2012) Mag- netic scaffolds enriched with bioactive nanoparticles for tissue engi- neering. Adv Healthc Mater 1:168-171.
8Wang AZ, Gu FX, Farokhzad OC (2009) Nanoparticles for Cancer Diag- nosis and Therapy. In: Safety of Nanopartides: From Manufacturing to Medical Applications (Webster TJ, ed), pp 209-235.
9Springer New York. Ziv-Polat O, Topaz M, Brosh T, Margel S (2010) Enhancement of inci- sional wound healing by thrombin conjugated iron oxide nanoparti- des. Biomaterials 31:741- 747.
10Ziv-Polat O, Skaat H, Shahar A, Margel S (2012) Novel magnetic fibrin hydrogel scaffolds containing thrombin and growth factors conjugat- ed iron oxide nanoparticles for tissue engineering. Int J Nanomedicine 7:1259-1274.

同被引文献31

1Guo-li Ming,Hongjun Song.Adult Neurogenesis in the Mammalian Brain: Significant Answers and Significant Questions[J]. Neuron . 2011 (4)
2Mami Asano,Tatsuro Yamamoto,Takeshi Tsuruta,Naomichi Nishimura,Kei Sonoyama.??Dual labeling with 5‐bromo‐2’‐deoxyuridine and 5‐ethynyl‐2’‐deoxyuridine for estimation of cell migration rate in the small intestinal epithelium(J)Develop. Growth Differ. . 2015 (1)
3Masatake Fujimura,Fusako Usuki.??Low concentrations of methylmercury inhibit neural progenitor cell proliferation associated with up-regulation of glycogen synthase kinase 3β and subsequent degradation of cyclin E in rats(J)Toxicology and Applied Pharmacology . 2015 (1)
4Yuping Luo,Volkan Coskun,Aibing Liang,Juehua Yu,Liming Cheng,Weihong Ge,Zhanping Shi,Kunshan Zhang,Chun Li,Yaru Cui,Haijun Lin,Dandan Luo,Junbang Wang,Connie Lin,Zachary Dai,Hongwen Zhu,Jun Zhang,Jie Liu,Hailiang Liu,Jean deVellis,Steve Horvath,Yi Eve Sun,Siguang Li.??Single-Cell Transcriptome Analyses Reveal Signals to Activate Dormant Neural Stem Cells(J)Cell . 2015 (5)
5Thurman DJ.The Epidemiology of Traumatic Brain Injury in Children and Youths:A Review of Research Since 1990. Journal of Child Neurology . 2014
6Zhen Zhang,Rong Yan,Qi Zhang,Jia Li,Xiaokui Kang,Haining Wang,Linchun Huan,Lin Zhang,Fan Li,Shuyuan Yang,Jianning Zhang,Xinliang Ren,Xinyu Yang.??Hes1 , a Notch signaling downstream target, regulates adult hippocampal neurogenesis following traumatic brain injury(J)Brain Research . 2014
7Fenn AM,Skendelas JP,Moussa DN, et al.Methylene Blue Attenuates Traumatic Brain Injury-Associated Neuroinflammation and Acute Depressive-Like Behavior in Mice. Journal of Neurotrauma . 2015
8Guo KH,Li DP,Gu HY,et al.Postnatal development of nestin positive neurons in rat basal forebrain:different onset and topography with choline acetyltransferase and parvalbumin expression. In J Dev Neuro Sci . 2014
9JWFINNIE.??Animal models of traumatic brain injury: a review(J)Australian Veterinary Journal . 2008 (9)
10Prigatano G P.Impaired self-awareness after moderately severe to severe traumatic brain injury. Acta neurochirurgica. Supplement . 2005

引证文献2

1刘红林,刘志军,陈小兵,胡文忠,丁丙谦.脐带间充质干细胞在颅脑损伤模型鼠体内的迁徙与定位[J].中国组织工程研究,2016,20(1):31-35. 被引量：2
2隋立森,余佳彬,姜晓丹.大鼠创伤性颅脑损伤后脑室下区内源性神经干细胞的增殖与分化[J].南方医科大学学报,2016,36(8):1094-1099. 被引量：9

二级引证文献11

1胡艳龙,张洪兵,黄庆,王刚,王浩,刘建鑫,侯自明,杨俊,王森,侯哲.大骨瓣减压手术在重型颅脑损伤中的应用及对血小板活化指标、神经功能的影响[J].中西医结合心脑血管病杂志,2017,15(10):1246-1249. 被引量：19
2甘晓,张东波,刘向业,傅刘鹏,白新学,吴南力.脉冲磁场对颅脑损伤脑组织中内源性神经干细胞因子的影响[J].中国组织工程研究,2017,21(21):3376-3381. 被引量：4
3赵娜,宋向荣,刘秋英,李宏玲,蔡学敏,王海兰.骨髓间充质干细胞对苯所致小鼠造血损伤修复作用[J].中国职业医学,2017,44(5):537-541. 被引量：1
4韩义皇,王键.脑络欣通对大脑中动脉阻塞再灌注模型大鼠神经干细胞增殖分化的影响[J].安徽中医药大学学报,2017,36(6):58-63. 被引量：2
5黄国喜,郭浚,刘训碧,王钢胜.右美托咪定对颅脑损伤手术病人神经功能、脑氧代谢及炎症因子的调节作用[J].蚌埠医学院学报,2018,43(5):581-584. 被引量：15
6周强.颅脑创伤镇痛镇静的研究[J].医学信息,2019,32(14):46-48. 被引量：3
7刘畅,李祥,顾佳炜,王新栋,包爱军.脑室-腹腔分流术在创伤性脑损伤脑积水患者中的临床效果及对T淋巴细胞、炎症因子的影响研究[J].中国免疫学杂志,2019,35(17):2130-2135. 被引量：21
8陈婉红,蔡世雄,吴小榕.正畸牙移动中牙周血管内皮祖细胞在骨改建中的作用机制探讨[J].上海口腔医学,2019,28(6):610-615. 被引量：1
9龙勇.低温早期肠内营养护理对ICU重症颅脑损伤患者应激性溃疡护理效果研究[J].四川生理科学杂志,2020,42(3):318-321. 被引量：8
10邱夏,江涛,邹标.早期肠内营养与肠外营养对应激性溃疡患者CRP水平的影响研究[J].医学信息,2021,34(21):58-60.

1Rúben F.Pereira,Paulo J.Bártolo.3D Photo-Fabrication for Tissue Engineering and Drug Delivery[J].Engineering,2015,1(1):90-112. 被引量：6
2Sushilkumar A. JADHAV,Suresh V. PATIL.Facile synthesis of magnetic iron oxide nanoparticles and their characterization[J].Frontiers of Materials Science,2014,8(2):193-198.
3Zi-Heng LI,Shi-Chen JI,Ya-Zhen WANG,Xing-Can SHEN,Hong LIANG.Silk fibroin-based scaffolds for tissue engineering[J].Frontiers of Materials Science,2013,7(3):237-247.
4Xianshuo CAO,Jun WANG,Min LIU,Yong CHEN,Yang CAO,Xiaolong YU.Chitosan-collagen/organomontmorillonite scaffold for bone tissue engineering[J].Frontiers of Materials Science,2015,9(4):405-412.
5Minglong Zhong Zhongwu Liu Xichun Zhong Hongya Yu Dechang Zeng.Thermal Growth and Nanomagnetism of the Quasi-one Dimensional Iron Oxide[J].Journal of Materials Science & Technology,2011,27(11):985-990. 被引量：5
6Ruokun Jia,Ting Wang,Qiao Jiang,Zhengang Wang,Chen Song,Baoquan Ding.Self-Assembled DNA Nanostructures for Drug Delivery[J].Chinese Journal of Chemistry,2016,34(3):265-272. 被引量：3
7William Glasgow,Ben Fellows,Bin Qi,Taghi Darroudi,Christopher Kitchens,Longfei Ye,Thomas M. Crawford,O. Thompson Mefford.Continuous synthesis of iron oxide （Fe3O4） nanoparticles via thermal decomposition[J].Particuology,2016,14(3):47-53. 被引量：2
8孙圣男,魏超,朱赞赞,侯仰龙,Subbu S Venkatraman,徐梽川.Magnetic iron oxide nanoparticles: Synthesis and surface coating techniques for biomedical applications[J].Chinese Physics B,2014,23(3):13-31. 被引量：2
9SALOMON Montenegro.Neural Network Based Diagnostics of Actuator for an Attitude Control System[J].Computer Aided Drafting,Design and Manufacturing,2010,20(2):59-67.
10刘诗咏,吴家守,蒋华江,金正能,姜玄珍.正电性磁性氧化铁胶粒负载钯催化的Suzuki偶联反应[J].有机化学,2009,29(10):1587-1592. 被引量：6

Neural Regeneration Research

2015年第2期

浏览历史

内容加载中请稍等...

Application of iron oxide anoparticles in neuronal tissue engineering 被引量：2

参考文献12

同被引文献31

引证文献2

二级引证文献11

相关作者

相关机构

相关主题

浏览历史