Optimization of a Model Corrected Blood Input Function from Dynamic FDG-PET Images of Small Animal Heart In Vivo

机译：在体内小动物心脏动态FDG-PET图像的优化校正血液输入功能

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Tracer kinetic modeling is commonly used for quantitative evaluation of dynamic Positron Emission Tomography (PET) data. However, quantitation of dynamic PET data of the mouse heart in vivo is challenging due to the small size of the heart and the limited intrinsic spatial resolution of the PET scanner. Here, we present an optimized compartment model which can simultaneously correct for spill over and partial volume effects for both blood and the tissue, compute kinetic rate parameters and generate model corrected blood input function (MCBIF) from ordered subset expectation maximization -maximum a posteriori (OSEM-MAP) cardio-respiratory gated ~(18)F-FDG PET images of the mouse heart with attenuation correction in vivo, without any invasive blood sampling. This technique not only improves quantitation but is also repetitive.

机译：示踪剂动力学建模通常用于动态正电子发射断层扫描（PET）数据的定量评估。然而，由于心脏尺寸的尺寸和PET扫描仪的有限空间分辨率，体内鼠标心脏的动态宠物数据的定量是挑战。在这里，我们介绍了一种优化的隔间模型，可以同时对血液和组织进行泄漏和部分体积效果，计算动力速率参数和从有序子集期望最大化产生模型校正血液输入功能 - 最大的后验OSEM-MAP）心脏呼吸门控〜（18）F-FDG鼠标心脏的PET图像在体内衰减校正，没有任何侵入性血液取样。这种技术不仅提高了量化，而且还可以重复。

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《IEEE Nuclear Science Symposium and Medical Imaging Conference》|2012年||共4页
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作者
Min Zhong; Bijoy K. Kundu;
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中图分类 TL-53;
关键词
PET; FDG-PET; MCBIF;

机译：宠物;FDG-PET;MCBIF;

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专利

1. Optimization of a Model Corrected Blood Input Function From Dynamic FDG-PET Images of Small Animal Heart In Vivo [J] . Min Zhong, Kundu B.K. IEEE Transactions on Nuclear Science . 2013,第5aPart1期

机译：从小动物心脏的动态FDG-PET图像中模型校正的血液输入功能的优化
2. Model Corrected Blood Input Function to Compute Cerebral FDG Uptake Rates From Dynamic Total-Body PET Images of Rats in vivo [J] . James C. Massey, Vikram Seshadri, Soumen Paul, Frontiers in Medicine . 2021,第a期

机译：模型校正血液输入功能，从体内大鼠动态总体宠物图像计算大脑FDG摄取率
3. Non-invasive determination of blood input function to compute rate of myocardial glucose uptake from dynamic FDG PET images of rat heart in vivo: comparative study between the inferior vena cava and the left ventricular blood pool with spill over and partial volume corrections [J] . Huang Qiao, Massey James C., Minczukh Krzysztof, Physics in medicine and biology. . 2019,第16期

机译：非侵袭性测定血液投入函数的血液输入功能从体内大鼠心脏动态FDG PET图像的心肌葡萄糖摄取率：下腔静脉和左心室血浆与溢出和部分体积校正的比较研究
4. Optimization of a Model Corrected Blood Input Function from Dynamic FDG-PET Images of Small Animal Heart In Vivo [C] . Min Zhong, Bijoy K. Kundu IEEE Nuclear Science Symposium and Medical Imaging Conference . 2012

机译：在体内小动物心脏动态FDG-PET图像的优化校正血液输入功能
5. Cerebral Blood Flow Measurements Using Carotid Artery Image-Derived Input Functions in Positron Emission Tomography. [D] . Fung, Edward Komin. 2013

机译：在正电子发射断层扫描中使用颈动脉图像衍生的输入函数进行脑血流量测量。
6. Optimization of a Model Corrected Blood Input Function from Dynamic FDG-PET Images of Small Animal Heart In Vivo [O] . Min Zhong, Bijoy K. Kundu -1

机译：小动物心脏动态FDG-PET图像中模型校正的血液输入功能的优化
7. Optimization of a model corrected blood input function from dynamic FDG-PET images of small animal heart in vivo [O] . Min Zhong, Bijoy K. Kundu 2012

机译：在体内小动物心脏动态FDG-PET图像的优化校正血液输入功能
8. New Composite Technique to Estimate the Input Function for FDG-PET brain Quantitative Analysis Without Any Blood Sample. [R] . Fang, Y., Wu, L., Kao, T. 2001

机译：无血液样本FDG-pET脑定量分析的新型复合技术。

Optimization of a Model Corrected Blood Input Function from Dynamic FDG-PET Images of Small Animal Heart In Vivo

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