99mTc-D, l -六亚甲基-丙烯胺肟(99mTc-HMPAO):脑血流示踪剂的基本动力学研究。

A R Andersen
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引用次数: 0

摘要

亲脂性的99mTc-D, l -六亚甲基-丙烯胺肟(99mTc-HMPAO)已被开发用于单光子发射计算机断层扫描(SPECT)测量区域脑血流量(rCBF)。这种分子是不稳定的,并能迅速从亲脂形态(通过血脑屏障)转化为亲水形态(无法通过血脑屏障而被困在大脑中)。这种转化的限速步骤可能取决于还原剂谷胱甘肽。脑的亲脂性输入可以通过从动脉血中提取亲脂示踪剂的辛醇快速提取来估计。输入发生在示踪剂注入后的最初几分钟内。通过指示剂稀释法测量,在人类研究中,从血液到脑E的第一次提取率很高(在CBF为0.59 ml/g/min时为0.72)。它依赖于脑血流水平,当脑血流增加时降低。它还依赖于与蛋白质和血液成分的结合。99mTc-HMPAO最初像rCBF一样分布。在静脉注射和颈动脉内注射99mTc-HMPAO后,测量其在人脑中的潴留,可见早期的反向扩散(脑向血)。这只持续2-3分钟。反向扩散依赖于血流,导致大脑高血流区域的活动优先丧失。这可以通过算法加以纠正。该算法的效果是,在注射示踪剂后10分钟至2-3小时内获得的稳态99mTc-HMPAO分布图像与参考CBF方法使用SPECT和正电子发射断层扫描(人体研究)和定量放射自显像(大鼠)测量的rCBF图像更接近。当早期反向扩散停止时,脑内的保留非常稳定,并且在接下来的24小时内,大多数人病例中仅观察到0.4%/h的示踪剂损失。本综述得出结论,99mTc-HMPAO适用于SPECT测量rCBF。并给出了一些临床应用实例。
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99mTc-D,L-hexamethylene-propyleneamine oxime (99mTc-HMPAO): basic kinetic studies of a tracer of cerebral blood flow.

The lipophilic 99mTc-D,L-hexamethylene-propyleneamine oxime (99mTc-HMPAO) has been developed for regional cerebral blood flow (rCBF) measurements by single photon emission computed tomography (SPECT). The molecule is unstable and converts rapidly from the lipophilic form, which passes the blood-brain barrier (BBB), to the hydrophilic form, which is unable to pass the BBB and is trapped in the brain. The rate-limiting step for this conversion is probably dependent on the reductant gluthathione. The lipophilic input to the brain can be estimated by rapid octanol extraction of lipophilic tracer from arterial blood. The input takes place during the first few minutes after tracer injection. The first-pass extraction from blood to brain E is high (0.72 at a CBF of 0.59 ml/g/min) in human studies as measured by the indicator dilution method. It is dependent on the CBF level and decreases when CBF increases. It is also dependent on binding to proteins and blood constituents. 99mTc-HMPAO is initially distributed like rCBF. In measuring the retention in the human brain after intravenous and intracarotid injection of 99mTc-HMPAO, an early back-diffusion (brain to blood) is seen. This lasts only 2-3 min. The back-diffusion is flow dependent, leading to a preferential loss of activity from the high flow regions of the brain. This can be corrected for by an algorithm. The effect of the algorithm is that the steady-state 99mTc-HMPAO distribution images obtained from 10 min to 2-3 h after injection of tracer agrees more closely with rCBF images as measured by reference CBF methods using SPECT and positron emission tomography (human studies) and quantitated autoradiography (rats). The retention in the brain is very stable when the early back-diffusion has ceased, and only a small loss of tracer amounting to 0.4%/h is observed in most human cases during the next 24 h. This review concludes that 99mTc-HMPAO is suitable for measurements of rCBF by SPECT. A few examples of clinical application are given.

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