钆特酸
钆特酸 商品名 Artirem, Dotarem(多它灵), Clariscan等[ 1] 其他名稱 DOTA-Gd,Gd-DOTA, Gadoterate meglumine(钆特酸葡胺) (USAN US 给药途径 静脉注射 ATC碼 法律規範
血漿蛋白結合率 几乎无 药物代谢 几乎无 生物半衰期 约90分钟(血浆) 排泄途徑 原体药物经腎 ,极少部分经粪便排出
gadolinium(3+) 2-[4,7,10-tris(carboxymethyl)-1,4,7,10-tetraazacyclododecan-1-yl]acetate
CAS号 72573-82-1 Y PubChem CID DrugBank ChemSpider UNII KEGG ChEBI ChEMBL CompTox Dashboard (EPA ) 化学式 C 16 H 25 Gd N 4 O 8 摩尔质量 558.65 g·mol−1 3D模型(JSmol
[Gd+3].OC(=O)CN1CCN(CC([O-])=O)CCN(CC([O-])=O)CCN(CC([O-])=O)CC1
InChI=1S/C16H28N4O8.Gd/c21-13(22)9-17-1-2-18(10-14(23)24)5-6-20(12-16(27)28)8-7-19(4-3-17)11-15(25)26;/h1-12H2,(H,21,22)(H,23,24)(H,25,26)(H,27,28);/q;+3/p-3
Key:GFSTXYOTEVLASN-UHFFFAOYSA-K
钆特酸 (INN :gadoteric acid,简写Ga-DOTA),为钆离子(Ga3+ )的大环配体DOTA 形成的螯合物 。在医学上是一种钆造影剂(gadolinium-based contrast agents,GBCA),属大环离子型造影剂,用于磁共振成像 造影[ 2]
l
g
K
=
25.6
{\displaystyle lgK=25.6}
[ 3] [ 4]
医学上常以其葡甲胺盐的形式,即钆特酸葡胺(USAN :Gadoterate meglumine)进行注射给药[ 5] [ 6]
Dotarem注射液 钆特酸由法国加柏公司(Guerbet)研制开发,以商品名Dotarem(多它灵)于1989年获准在法国上市,2013年3月20日通过美国FDA 批准用于MRI造影[ 7]
同时也是继1982年第一个MRI造影剂马根维显 (钆喷酸,Gd-DPTA)问世后的第二个MRI造影剂[ 2]
钆特酸中心离子Ga3+ 具有强顺磁性 ,可缩短磁共振(MRI)中T1 弛豫时间,形成像衬度,为阳性造影剂。但高浓度下T2 弛豫时间缩短占优为阴性造影剂,高浓度常用于动脉期血管造影[ 2]
其被批准用于2岁以上患者的全身MRI检查,可用于大脑、脊髓以及血管检查。其本身无法透过血脑屏障,但大脑血管发生病变部分则可透过血脑屏障,因此可识别脑部肿瘤[ 8] [ 5] [ 6]
钆特酸和第一代MRI造影剂马根维显理化性能和临床应用相似。经静脉注射后,钆特酸先经血管扩散,然后迅速扩散细胞外空间。钆特酸通过肾脏以原体药物排泄,少部分分泌到肠胃道经粪便排出。钆特酸非选择性地分布在所有脑外组织的细胞外空间中,无器官特异性。钆特酸蛋白质结合力非常低因此通过肾脏相对较快地排泄。[ 2]
钆特酸作为含钆制剂,体外研究表明其具有的神经毒性,但相比于线性钆螯合物,作为大环螯合物的钆特酸相比风险更低[ 9] [ 10] [ 11]
同时具有肾源性系统纤维化(Nephrogenic systemic fibros,NSF)风险,但目前未有相关案例报道,因此不适用于肾功能受损患者[ 12] [ 13]
由DOTA 与氢氧化钆 先在80摄氏度螯合12小时,再用氨水室温下碱化使pH=11即得到钆特酸Ga-DOTA。
3 →2 O钆特酸进一步与葡萄糖 和甲胺 还原胺化得到的葡甲胺1:1混合成盐,即可得到钆特酸葡胺[ 14] [ 15]
→
H
2
,
R
u
{\displaystyle \xrightarrow {\mathrm {H_{2},Ru} } }
:
钆特酸的葡甲胺盐(钆特酸葡胺)进行脊髓MRI造影
^ Gadoteric Acid International . Drugs.com. 6 January 2021 [21 January 2021] . (原始内容存档 于2019-08-17). ^ 2.0 2.1 2.2 2.3 何国祥; 王毅翔. 造影剂药理学及临床应用. 上海: 上海科学技术出版社. 2002. ISBN 7532362264 ^ P Caravan, JJ Ellison, TJ McMurry, RB Lauffer. Gadolinium (III) chelates as MRI contrast agents: structure, dynamics, and applications. Chemical Reviews. 1999, 99 : 2293−2352. doi:10.1021/cr980440x ^ Herborn, Christoph U. MD; Honold, Elmar MD; Wolf, Michael; Kemper, Jörn MD; Kinner, Sonja MD; Adam, Gerhard MD; Barkhausen, Jörg MD. Clinical Safety and Diagnostic Value of the Gadolinium Chelate Gadoterate Meglumine (Gd-DOTA) . Investigative Radiology. 2007, 42 (1): 58–62. doi:10.1097/01.rli.0000248893.01067.e5 ^ 5.0 5.1 Dotarem- gadoterate meglumine injection . DailyMed. [29 August 2021] . (原始内容存档 于2024-12-06). ^ 6.0 6.1 Clariscan- gadoterate meglumine injection, solution . DailyMed. [29 August 2021] . (原始内容存档 于2024-12-12). ^ Hollmer M. Dotarem: A safe(r) gadolinium-based contrast imaging agent . FierceBiotech. 6 January 2014 [2024-06-25 ] . (原始内容存档 于2021-08-21). ^ DrugBank (编). Gadoteric acid . DrugBank. 22 August 2016 [2024-06-25 ] . (原始内容存档 于2019-08-17). ^ Bower DV, Richter JK, von Tengg-Kobligk H, Heverhagen JT, Runge VM. Gadolinium-Based MRI Contrast Agents Induce Mitochondrial Toxicity and Cell Death in Human Neurons, and Toxicity Increases With Reduced Kinetic Stability of the Agent . Investigative Radiology. August 2019, 54 (8): 453–463 [2024-06-25 ] . PMID 31265439 S2CID 164486744 doi:10.1097/RLI.0000000000000567 存档 于2024-12-13). ^ Alexander Radbruch , Lukas D. Weberling, Pascal J. Kieslich, Oliver Eidel, Sina Burth, Philipp Kickingereder, Sabine Heiland, Wolfgang Wick, Heinz-Peter Schlemmer, Martin Bendszus. Gadolinium Retention in the Dentate Nucleus and Globus Pallidus Is Dependent on the Class of Contrast Agent. RADIOLOG. 2015, 275 (3): 783–791. doi:10.1148/radiol.2015150337 ^ Stanescu AL, Shaw DW, Murata N, Murata K, Rutledge JC, Maloney E, et al. Brain tissue gadolinium retention in pediatric patients after contrast-enhanced magnetic resonance exams: pathological confirmation. Pediatric Radiology. March 2020, 50 (3): 388–396. PMID 31989188 S2CID 210913930 doi:10.1007/s00247-019-04535-w ^ Todd DJ, Kay J. Gadolinium-Induced Fibrosis. Annual Review of Medicine. 2016, 67 : 273–91. PMID 26768242 doi:10.1146/annurev-med-063014-124936 ^ Csilla Balassy, Donna Roberts, Stephen F. Miller3. Safety and efficacy of gadoteric acid in pediatric magnetic resonance imaging: overview of clinical trials and post-marketing studies. Pediatr Radiol. 2015, 45 : 1831–1841. doi:10.1007/s00247-015-3394-9 ^ S KauráLuthra, V MorissonáIveson, NE Felicity, J Nicholas. Gd 3+ cFLFLFK conjugate for MRI: a targeted contrast agent for FPR1 in inflammation. Chemical communications. 2013, 49 (6): 564–566. doi:10.1039/C2CC37460A ^ 韩晓丹,郭春. 钆特酸葡甲胺 . 中国药物化学杂志. 2013, 23 (5): 1.
