受试者头部运动对定量脑（15）O PET 的影响及其通过基于图像的配准算法校正。

Impact of subject head motion on quantitative brain (15)O PET and its correction by image-based registration algorithm.

机构信息

Department of Radiology and Nuclear Medicine, Research Institute of Brain and Blood Vessels Akita, 6-10 Senshu-Kubota-machi, Akita, 010-0874, Japan.

出版信息

Ann Nucl Med. 2013 May;27(4):335-45. doi: 10.1007/s12149-013-0690-z. Epub 2013 Jan 29.

DOI:10.1007/s12149-013-0690-z

PMID:23359244

Abstract

OBJECTIVE

Subject head motion during sequential (15)O positron emission tomography (PET) scans can result in artifacts in cerebral blood flow (CBF) and oxygen metabolism maps. However, to our knowledge, there are no systematic studies examining this issue. Herein, we investigated the effect of head motion on quantification of CBF and oxygen metabolism, and proposed an image-based motion correction method dedicated to (15)O PET study, correcting for transmission-emission mismatch and inter-scan mismatch of emission scans.

METHODS

We analyzed (15)O PET data for patients with major arterial steno-occlusive disease (n = 130) to determine the occurrence frequency of head motion during (15)O PET examination. Image-based motion correction without and with realignment between transmission and emission scans, termed simple and 2-step method, respectively, was applied to the cases that showed severe inter-scan motion.

RESULTS

Severe inter-scan motion (>3 mm translation or >5° rotation) was observed in 27 of 520 adjacent scan pairs (5.2 %). In these cases, unrealistic values of oxygen extraction fraction (OEF) or cerebrovascular reactivity (CVR) were observed without motion correction. Motion correction eliminated these artifacts. The volume-of-interest (VOI) analysis demonstrated that the motion correction changed the OEF on the middle cerebral artery territory by 17.3 % at maximum. The inter-scan motion also affected CBV, CMRO2 and CBF, which were improved by the motion correction. A difference of VOI values between the simple and 2-step method was also observed.

CONCLUSIONS

These data suggest that image-based motion correction is useful for accurate measurement of CBF and oxygen metabolism by (15)O PET.

摘要

目的

在连续（15）O 正电子发射断层扫描（PET）扫描过程中，由于头部运动会导致脑血流（CBF）和氧代谢图出现伪影。然而，据我们所知，目前尚无系统研究探讨这一问题。在此，我们研究了头部运动会如何影响 CBF 和氧代谢的定量，并提出了一种专门用于（15）O PET 研究的基于图像的运动校正方法，用于校正传输-发射不匹配和发射扫描的扫描间不匹配。

方法

我们分析了患有主要动脉狭窄闭塞性疾病的患者的（15）O PET 数据（n = 130），以确定（15）O PET 检查过程中头部运动的发生频率。对显示严重扫描间运动的病例分别应用了无和有传输与发射扫描之间重新配准的基于图像的运动校正，分别称为简单和 2 步方法。

结果

在 520 对相邻扫描对中，有 27 对（5.2%）观察到严重的扫描间运动（＞3mm 平移或＞5°旋转）。在没有运动校正的情况下，这些病例会出现氧摄取分数（OEF）或脑血管反应性（CVR）的不真实值。运动校正消除了这些伪影。感兴趣区（VOI）分析表明，运动校正最大可改变大脑中动脉区域的 OEF 达 17.3%。扫描间运动会影响 CBV、CMRO2 和 CBF，运动校正可改善这些参数。还观察到简单和 2 步方法之间 VOI 值的差异。

结论

这些数据表明，基于图像的运动校正对于准确测量（15）O PET 的 CBF 和氧代谢非常有用。

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受试者头部运动对定量脑（15）O PET 的影响及其通过基于图像的配准算法校正。

Impact of subject head motion on quantitative brain (15)O PET and its correction by image-based registration algorithm.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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