[1]徐宏艳,张玉民,褚丽萍.树枝状聚合物在双模态分子影像探针制备中的作用及研究进展[J].国际放射医学核医学杂志,2014,38(2):96-100.[doi:10.3760/cma.j.issn.1673-4114.2014.02.007]
 Xu Hongyan,Zhang Yumin,Chu Liping.The function and research progress of dendrimer on preparing bimodal molecular imaging probe[J].International Journal of Radiation Medicine and Nuclear Medicine,2014,38(2):96-100.[doi:10.3760/cma.j.issn.1673-4114.2014.02.007]
点击复制

树枝状聚合物在双模态分子影像探针制备中的作用及研究进展(/HTML)
分享到:

《国际放射医学核医学杂志》[ISSN:1673-4114/CN:12-1381/R]

卷:
38
期数:
2014年第2期
页码:
96-100
栏目:
出版日期:
2014-03-25

文章信息/Info

Title:
The function and research progress of dendrimer on preparing bimodal molecular imaging probe
作者:
徐宏艳 张玉民 褚丽萍
北京协和医学院中国医学科学院放射医学研究所, 天津市放射医学与分子核医学重点实验室, 天津 300192
Author(s):
Xu Hongyan Zhang Yumin Chu Liping
Tianjin Key Laboratory of Radiation Medicine and Molecular Nuclear Medicine, Institute of Radiation Medicine, Chinese Academy of Medical Sciences, Peking Union Medical College, Tianjin 300192, China
关键词:
双模态分子影像树枝状聚合物纳米载体
Keywords:
Bimodal molecular imagingDendrimerNanocarriers
DOI:
10.3760/cma.j.issn.1673-4114.2014.02.007
摘要:
随着医疗水平的不断提高,人们对疾病的早期诊断和准确定位的要求越来越高。近年来,PET/CT和SPECT/CT已广泛应用于临床。为了能够在早期精确诊断的同时准确定位病灶,双模态成像方式备受科研人员和临床工作者的关注。双模态分子影像学的发展除了需要先进的成像设备外,最关键的是开发新型且高效的双模态成像探针。树枝状高分子纳米材料由于其结构均一,粒径可控,同时表面具有大量活性基团可用于连接多种分子探针,是一类潜在的双模态分子探针载体。该文就树枝状聚合物作为双模态探针载体,在光学成像/MRI、SPECT/CT及CT/MRI等成像领域中的应用研究进行相关的介绍。
Abstract:
With the continuous improvement of the recent medical,people’s demand for the early diagnosis and accurate localization of the disease have been increased.Recently,the PET/CT and SPECT/CT have been widely used in clinic.In order to accurately locate lesions and diagnose the disease at the same time,the bimodal molecular imaging have been widely concerned by the researchers and clinical scientists.Other than the advanced imaging equipment,the most important for the bimodal molecular imaging is to develop new and efficient bimodal molecular imaging probes.Dendrimer nanomaterial is a potential bimodal molecular imaging probe vector because of its uniform structure,controllable particle size,and meanwhile the surface with a large number of active groups which can be used to connect multiple molecular probes.This paper introduced the application of dendrimer nanomaterial used as bimodal molecular imaging probe vector in optical imaging/MRI,SPECT/CT and CT/MRI.

参考文献/References:

[1] Weissleder R. Molecular imaging:exploring the next frontier[J]. Radiology, 1999, 212(3):609-614.
[2] 王江涛,韩萍.医学图像融合的临床应用与新进展[J].医学影像学杂志,2009,19(4):476-478.
[3] 赵倩,李娟,王荣福.PET/MRI显像技术与其他分子影像技术的比较[J].中国医学装备,2013,10(1):4-7.
[4] Pysz MA, Gambhir SS, Willmann JK. Molecular imaging:current status and emerging strategies[J]. Clin Radiol, 2010, 65(7):500-516.
[5] Lee S, Chen X. Dual-modality probes for in vivo molecular imaging[J]. Mol Imaging, 2009, 8(2):87-100.
[6] 黄佳国,曾文彬,周明,等.双模态分子影像探针研究进展[J].生物物理学报,2011,27(4):301-311.
[7] Ma N, Ma C, Deng Y, et al. Advances in applications of dendritic compounds[J]. J Nanosci Nanotechnol, 2013, 13(1):33-39.
[8] Koga T,Iimura M, Higashi N. Novel peptide-shelled dendrimer with dramatically changeable thermo-responsive character[J]. Macromol Biosci, 2012, 12(8):1043-1047.
[9] Lo ST, Kumar A, Hsieh JT, et al. Dendrimer nanoscaffolds for potential theranostics of prostate cancer with a focus on radiochemistry[J]. Mol Pharm, 2013, 10(3):793-812.
[10] Caminade AM, Laurent R, Zablocka M, et al. Organophosphorus chemistry for the synthesis of dendrimers[J]. Molecules, 2012, 17(11):13605-13621.
[11] Yamamoto A. Improvement of intestinal absorption of poorly absorbable drugs by polyamidoamine (PAMAM)dendrimers as novel absorption enhancers[J]. Yakugaku Zasshi, 2010, 130(9):1123-1127.
[12] Jiang YY, Tang GT, Zhang LH, et al. PEGylated PAMAM dendrimers as a potential drug delivery carrier:in vitro and in vivo comparative evaluation of covalently conjugated drug and noncovalent drug inclusion complex[J]. J Drug Target, 2010, 18(5):389-403.
[13] Tomalia DA, Reyna LA, Svenson S. Dendrimers as multi-purpose nanodevices for oncology drug delivery and diagnostic imaging[J]. Biochem Soc Trans, 2007, 35(5):61-67.
[14] 陈铨,张永学.分子成像技术的研究进展[J].国际放射医学核医学杂志,2011,35(5):290-295.
[15] Boswell CA, Eck PK, Regino CA, et al. Synthesis, characterization, and biological evaluation of integrin alphavbeta3-targeted PAMAM dendrimers[J]. Mol Pharm, 2008, 5(4):527-539.
[16] Chen WT, Thirumalai D, Shih TT, et al. Dynamic contrast-en-hanced folate-receptor-targeted MR imaging using a Gd-loaded PEG-dendrimer-folate conjugate in a mouse xenograft tumor model[J]. Mol Imaging Biol, 2010, 12(2):145-154.
[17] All MM, Bhuiyan MP, Janic B, et al. A nano-sized PARACEST-flu-orescence imaging contrast agent facilitates and validates in vivo CEST MRI detection of glioma[J]. Nanomedicine (Lond), 2012, 7(12):1827-1837.
[18] Kosaka N, Bernardo M, Mitsunaga M, et al. MR and optical imaging of early micrometastases in lymph nodes:triple labeling with nanosized agents yielding distinct signals[J]. Contrast Media Mol Imaging, 2012, 7(2):247-253.
[19] Franc BL, Acton PD, Marl C, et al. Small-animal SPECT and SPECT/CT:important tools for preclinical investigation[J]. J Nucl Med, 2008, 49(10):1651-1663.
[20] Criscione JM, Dobrucki LW, Zhuang ZW, et al. Development and application of a multimodal contrast agent for SPECT/CT hybrid imaging[J]. Bioconjug Chem, 2011, 22(9):1784-1792.
[21] Parrott MC, Benhabbour SR, Saab C, et al. Synthesis, radiolabeling, and bio-imaging of high-generation polyester dendrimers[J]. J Am Cbem Soc, 2009, 131(8):2906-2916.
[22] Regino CA, Walbridge S, Bernardo M, et al. A dual CT-MR den-drimer contrast agent as a surrogate marker for convection-en-hanced delivery of intracerebral macromoleeular therapeutic agents[J]. Contrast Media Mol Imaging, 2008, 3(1):2-8.
[23] Wen S, Li K, Cai H, et al. Muhifunctional dendrimer-entrapped gold nanoparticles for dual mode CT/MR imaging applications[J]. Biomaterials, 2013, 34(5):1570-1580.
[24] Li K, Wen S, Larson AC, et al. Multifunctional dendrimer-based nanoparticles for in vivo MWCT dual-modal molecular imaging of breast cancer[J], lnt J Nanomedicine, 2013, 8:2589-2600.
[25] Chen Q, Li K, Wen S, et al. Targeted CT/MR dual mode imaging of tumors using multifunctional dcndrimer-entrapped gold nanoparticles[J]. Biomaterials, 2013, 34(21):5200-5209.
[26] Akhter S, Ahmad I, Ahmad MZ, et al. Nanomedicines as cancer therapeutics:current status[J]. Curt Cancer Drug Targets, 2013, 13(4):362-378.
[27] Alavidjeh MS, Haririan I, Khorramizadeh MR, et al. Anionic linear-globular dendrimers:biocompatible hybrid materials with potential uses in nanomedicine[J]. J Mater Sci Mater Med, 2010, 21(4):1121-1133.

备注/Memo

备注/Memo:
收稿日期:2013-12-05;改回日期:。
基金项目:国家自然科学基金(81171371,51203189,51303213);天津市自然科学基金(13JCZDJC28100);协和青年基金和中央高校基本科研业务费专项资金(3332013045);中国医学科学院放射医学研究所学科发展基金(SF1314)
通讯作者:褚丽萍(Email:chulp89@163.com)
更新日期/Last Update: 1900-01-01