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首页> 外文会议>IEEE Nuclear Science Symposium Conference Record >Quantification of Myocardial Blood Flow Using the Combination of Bolus Tracking and Time-registered Helical Multidetector CT Angiography During Adenosine Stress
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Quantification of Myocardial Blood Flow Using the Combination of Bolus Tracking and Time-registered Helical Multidetector CT Angiography During Adenosine Stress

机译:使用推注追踪和时间 - 注册螺旋多校制CT血管造影在腺苷应激期间的组合定量心肌血流

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The purpose of this study was to develop a quantitative method for myocardial blood flow (MBF) measurement that can be used to derive accurate myocardial perfusion measurements from contrast-enhanced multidetector computed tomography (MDCT) images with bolus tracking and helical scanning. Nine canine models of left anterior descending artery (LAD) stenosis were prepared and underwent MDCT perfusion imaging during adenosine infusion (0.14-0.21 mg/kg/min) to study a wide range of flows. Neutron-activated microspheres were injected to document MBF during adenosine infusion. Six animals underwent dynamic MDCT perfusion imaging, and K_1 and k_2, which represent the first-order transfer constants from left ventricular blood to myocardium and from myocardium to the vascular system, respectively, were measured using a compartment model. The results were compared against microsphere MBF measurements, and the extraction fraction (E) of contrast agent and the mean value of K_1/k_2 were calculated. Six animals then underwent helical MDCT perfusion imaging during adenosine infusion. Prior to discontinuation of the adenosine infusion, neutron-activated microspheres were injected to document MBF during adenosine infusion. For each animal, by using the results of E and K_1/k_2 measurements, time-registered helical MDCT myocardial attenuation data, and arterial input function data, myocardial CT value versus MBF tables were simulated for various MBF values to create look-up tables from the myocardial CT value to MBF. The results of helical MDCT-derived MBF were compared to microsphere MBF measurements. The extraction fraction in the dog as a function of flow (F) was E = (1 - exp(-(0.3396F + 0.3193)/F)). There was a strong linear association between the helical MDCT-derived MBF and the microsphere MBF (y = 1.0648× - 0.6159, R~2 = 0.8383). In conclusion, regional MBF can be measured accurately and noninvasively using the combination of bolus tracking and time-registered CT attenuation data from contrast-enhanced helical MDCT scanning during adenosine stress. The helical CTA-derived K_1 and MBF could be used to distinguish between the stenotic and remote territories under the condition of adenosine stress.
机译:本研究的目的是开发一种能够以大丸剂跟踪和螺旋扫描被用来推导准确心肌灌注测量从对比度增强的多检测器计算机化断层显像(MDCT)图像对心肌血流量(MBF)的测量定量的方法。制备左前降支(LAD)狭窄的九个犬模型和腺苷输注期间后行MDCT灌注成像(0.14-0.21毫克/千克/分钟),以研究广泛的流。中子活化球腺苷过程中注入文件MBF。六个动物经历动态MDCT灌注成像,并且K_1和K_2,其代表从左心室血液一阶转移常数到心肌和心肌从到血管系统,分别使用一个隔室模型进行测定。结果微球对MBF测量进行比较,并计算造影剂的提取级分(E)和K_1 / K_2的平均值。六只动物然后行螺旋MDCT灌注腺苷期间成像。在此之前的腺苷中断输注,中子活化的微球腺苷输注期间被注射到文件MBF。对于每个动物,通过使用E和K_1 / K_2测量的结果,时间登记螺旋MDCT心肌衰减数据,和动脉输入函数数据,心肌的CT值与MBF表进行了模拟各种MBF值以创建从查找表心肌CT值MBF。螺旋MDCT衍生MBF的结果进行了比较,微球MBF测量。在狗作为流(F)的函数的所述提取分数为E =(1 - EXP( - (0.3396F + 0.3193)/ F))。有螺旋MDCT衍生MBF和微球体MBF之间的强线性缔(Y = 1.0648× - 0.6159,R〜2 = 0.8383)。总之,区域MBF可以精确地且非侵入性使用腺苷应力期间从对比增强的螺旋扫描MDCT丸药跟踪和时间配准的CT衰减数据的组合来测量。螺旋CTA衍生K_1和MBF可以使用腺苷应力的条件下的狭窄和远程地区之间进行区分。

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