Evaluation of MR-driven versus MR-free PET/CT spatial normalization approaches for quantification of regional uptake in Dementia

IF 2.7 3区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Physica Medica-European Journal of Medical Physics Pub Date : 2025-10-01 DOI:10.1016/j.ejmp.2025.105182

Francesco Grassi , Mario Verdicchio , Carlo Cavaliere , Vincenzo Alfano , Marco Cerrone , Angelica Di Cecca , Elena Salvatore , Emanuele Nicolai , Marco Salvatore , Sabina Pappatà , Marco Aiello

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引用次数: 0

Abstract

Background:

Spatial normalization is a critical preprocessing step in PET imaging. While MR-driven normalization represents the gold standard, MR-free approaches offer an alternative that may enhance accessibility.

Purpose:

This study aims to evaluate the performance of MR-free normalization compared to MR-driven normalization across three PET modalities (18F-FDG, early-phase amyloid, and late amyloid PET), examinating regional agreement.

Methods:

56 patients with dementia performing MR and the three PET modalities were retrospectively enrolled in the study. Three different spatial normalization methods were performed: MR-driven and two MR-free (

^{15}

O-H

_{2}

O template and site-specific PET template). The agreement among different methods was pair-wise compared using intraclass correlation coefficients (ICCs).

Results:

MR-free normalization showed strong agreement with MR-driven methods for FDG and early amyloid PET, with ICCs

>

0.99 in cortical regions. The spatial normalization with early-phase amyloid site-specific template had a median ICC of 0.927, confirming its agreement with MR-driven approach. The performance was slightly lower with late amyloid-derived templates (ICC = 0.822) compared to the

^{15}

O-H

_{2}

O template. The worst reproducibility was observed in cerebellar and thalamic sub-regions, though aggregating sub-ROIs in parent regions brought to strong ICCs (

>

0.920).

Conclusion:

MR-free normalization is a viable alternative to MR-driven approaches, particularly for FDG and early amyloid PET. In addition, the results confirm the similarity of early amyloid and FDG tracers distributions.

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评估核磁共振驱动与无核磁共振PET/CT空间归一化方法对痴呆患者区域摄取的量化

背景：空间归一化是PET成像的关键预处理步骤。虽然核磁共振驱动的规范化代表了黄金标准，但无核磁共振方法提供了一种可能增强可访问性的替代方法。目的：本研究旨在评估三种PET模式（18F-FDG，早期淀粉样蛋白PET和晚期淀粉样蛋白PET）的无核磁共振归一化与核磁共振驱动归一化的性能，并检查区域一致性。方法：对56例痴呆患者进行mri和三种PET检查。采用三种不同的空间归一化方法：磁共振驱动和两种无磁共振（15O-H2O模板和部位特异性PET模板）。使用类内相关系数（ICCs）两两比较不同方法之间的一致性。结果：无核磁共振归一化显示FDG和早期淀粉样蛋白PET的核磁共振驱动方法非常一致，皮质区域ICCs为0.99。早期淀粉样蛋白位点特异性模板空间归一化的ICC中位数为0.927，证实了其与mr驱动方法的一致性。与15O-H2O模板相比，晚淀粉样蛋白衍生模板的性能略低（ICC = 0.822）。在小脑和丘脑亚区观察到最差的再现性，尽管亲本区域的总亚roi带来了较强的ICCs （> 0.920）。结论：无核磁共振归一化是核磁共振驱动方法的可行替代方案，特别是对于FDG和早期淀粉样蛋白PET。此外，结果证实了早期淀粉样蛋白和FDG示踪剂分布的相似性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Physica Medica-European Journal of Medical Physics 生物-生物物理

CiteScore

6.80

自引率

14.70%

发文量

493

审稿时长

78 days

期刊介绍： Physica Medica, European Journal of Medical Physics, publishing with Elsevier from 2007, provides an international forum for research and reviews on the following main topics: Medical Imaging Radiation Therapy Radiation Protection Measuring Systems and Signal Processing Education and training in Medical Physics Professional issues in Medical Physics.