用于13C生物分子的帕萨迪纳(PASADENA)超极化的质量保证。
Quality assurance of PASADENA hyperpolarization for 13C biomolecules.
作者信息
Hövener Jan-Bernd, Chekmenev Eduard Y, Harris Kent C, Perman William H, Tran Thao T, Ross Brian D, Bhattacharya Pratip
机构信息
Enhanced Magnetic Resonance Laboratory, Huntington Medical Research Institutes, Pasadena, CA 91105, USA.
出版信息
MAGMA. 2009 Apr;22(2):123-34. doi: 10.1007/s10334-008-0154-y. Epub 2008 Dec 6.
OBJECT
Define MR quality assurance procedures for maximal PASADENA hyperpolarization of a biological (13)C molecular imaging reagent.
MATERIALS AND METHODS
An automated PASADENA polarizer and a parahydrogen generator were installed. (13)C enriched hydroxyethyl acrylate, 1-(13)C, 2,3,3-d(3) (HEA), was converted to hyperpolarized hydroxyethyl propionate, 1-(13)C, 2,3,3-d(3) (HEP) and fumaric acid, 1-(13)C, 2,3-d(2) (FUM) to hyperpolarized succinic acid, 1-(13)C, 2,3-d(2) (SUC), by reaction with parahydrogen and norbornadiene rhodium catalyst. Incremental optimization of successive steps in PASADENA was implemented. MR spectra and in vivo images of hyperpolarized (13)C imaging agents were acquired at 1.5 and 4.7 T.
RESULTS
Application of quality assurance (QA) criteria resulted in incremental optimization of the individual steps in PASADENA implementation. Optimal hyperpolarization of HEP of P = 20% was achieved by calibration of the NMR unit of the polarizer (B (0) field strength +/- 0.002 mT). Mean hyperpolarization of SUC, P = [15.3 +/- 1.9]% (N = 16) in D (2)O, and P = [12.8 +/- 3.1]% (N = 12) in H (2)O, was achieved every 5-8 min (range 13-20%). An in vivo (13)C succinate image of a rat was produced.
CONCLUSION
PASADENA spin hyperpolarization of SUC to 15.3% in average was demonstrated (37,400 fold signal enhancement at 4.7 T). The biological fate of (13)C succinate, a normally occurring cellular intermediate, might be monitored with enhanced sensitivity.
目的
为生物(13)C分子成像试剂的最大帕萨迪纳超极化定义磁共振质量保证程序。
材料与方法
安装了自动帕萨迪纳极化器和仲氢发生器。通过与仲氢和降冰片二烯铑催化剂反应,将富含(13)C的丙烯酸羟乙酯,1-(13)C,2,3,3-d(3)(HEA)转化为超极化的丙酸羟乙酯,1-(13)C,2,3,3-d(3)(HEP),以及将富马酸,1-(13)C,2,3-d(2)(FUM)转化为超极化的琥珀酸,1-(13)C,2,3-d(2)(SUC)。对帕萨迪纳连续步骤进行了逐步优化。在1.5和4.7 T下采集超极化(13)C成像剂的磁共振谱和体内图像。
结果
应用质量保证(QA)标准导致帕萨迪纳实施中各个步骤的逐步优化。通过校准极化器的核磁共振单元(B(0)场强±0.002 mT),实现了HEP的最佳超极化,P = 20%。在D(2)O中,SUC的平均超极化率为P = [15.3 ± 1.9]%(N = 16),在H(2)O中为P = [12.8 ± 3.1]%(N = 12),每5 - 8分钟实现一次(范围为13 - 20%)。生成了大鼠的体内(13)C琥珀酸图像。
结论
证明了帕萨迪纳自旋超极化可使SUC平均达到15.3%(在4.7 T下信号增强37400倍)。可以以更高的灵敏度监测正常存在的细胞中间体(13)C琥珀酸的生物学命运。
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