在患者数据上插入合成病灶:一种评估 PET 系统临床性能差异的方法。

IF 3 2区 医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING EJNMMI Physics Pub Date : 2024-01-22 DOI:10.1186/s40658-023-00610-2
Quentin Maronnier, Nesrine Robaine, Léonor Chaltiel, Lawrence O Dierickx, Thibaut Cassou-Mounat, Marie Terroir, Lavinia Vija, Delphine Vallot, Séverine Brillouet, Chloé Lamesa, Thomas Filleron, Olivier Caselles, Frédéric Courbon
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引用次数: 0

摘要

背景:正电子发射断层扫描(PET)性能评估对于高效指导临床实践至关重要。我们已经引入并通过实验评估了一种模拟方法,该方法可为系统性能评估创建受控的基本事实。在当前的研究中,我们的目标是利用患者数据验证该方法,并证明它与评估 PET 临床表现准确性的相关性:方法:招募 24 名患者,根据他们的体重指数(BMI)分为两组。对他们施用单剂量 2 MBq/kg 18F-FDG 并在两个 PET 系统(Discovery-IQ (DIQ) 和 Discovery-MI (DMI))上连续使用临床方案进行扫描。在每个 BMI 组中,有 60 个合成病灶被分派到三个分组,并插入相关的解剖位置。合成病灶(ISL)的植入在两次连续检查的同一位置进行。两名核医学医生通过定性和半定量报告每个检测到的病灶,对图像进行单独和盲法评估,并达成共识。我们评估了合成病灶的系统间检出率,并将其与 DMI 检测到的至少多 1.7 个目标的初始估计值和自然病灶的检出率进行了比较。我们根据观察者之间的一致性(IOA)确定了阅读者之间的变异性。当 IOA 超过 80% 时,读片者之间的变异性就足够了。此外,还研究了标准化摄取值(SUV)指标的差异:在 BMI ≤ 25 组中,合成病灶和自然病灶的相对真阳性率(RTPR)分别为 1.79 和 1.83。在 BMI > 25 组中,合成病灶和自然病灶的相对真阳性率分别为 2.03 和 2.27。对于每个 BMI 组,使用 ISL 的检出率与我们的估计值一致,也与天然病灶的检出率一致。在任何情况下,IOA 都高于 80%。SUV指标显示合成病灶和自然病灶之间的一致性很好:事实证明,ISL 可以评估 PET 扫描仪之间的性能差异。利用这些经过合成修改的临床图像,我们可以在一个逼真的解剖模型中生成一个受控的基本事实,并将 PET 扫描仪的潜力用于临床目的。
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Insertion of synthetic lesions on patient data: a method for evaluating clinical performance differences between PET systems.

Background: Performance assessment of positron emission tomography (PET) scanners is crucial to guide clinical practice with efficiency. We have already introduced and experimentally evaluated a simulation method allowing the creation of a controlled ground truth for system performance assessment. In the current study, the goal was to validate the method using patient data and demonstrate its relevance to assess PET performances accuracy in clinical conditions.

Methods: Twenty-four patients were recruited and sorted into two groups according to their body mass index (BMI). They were administered with a single dose of 2 MBq/kg 18F-FDG and scanned using clinical protocols consecutively on two PET systems: the Discovery-IQ (DIQ) and the Discovery-MI (DMI). For each BMI group, sixty synthetic lesions were dispatched in three subgroups and inserted at relevant anatomical locations. Insertion of synthetic lesions (ISL) was performed at the same location into the two consecutive exams. Two nuclear medicine physicians evaluated individually and blindly the images by qualitatively and semi-quantitatively reporting each detected lesion and agreed on a consensus. We assessed the inter-system detection rates of synthetic lesions and compared it to an initial estimate of at least 1.7 more targets detected on the DMI and the detection rates of natural lesions. We determined the inter-reader variability, evaluated according to the inter-observer agreement (IOA). Adequate inter-reader variability was found for IOA above 80%. Differences in standardized uptake value (SUV) metrics were also studied.

Results: In the BMI ≤ 25 group, the relative true positive rate (RTPR) for synthetic and natural lesions was 1.79 and 1.83, respectively. In the BMI > 25 group, the RTPR for synthetic and natural lesions was 2.03 and 2.27, respectively. For each BMI group, the detection rate using ISL was consistent to our estimate and with the detection rate measured on natural lesions. IOA above 80% was verified for any scenario. SUV metrics showed a good agreement between synthetic and natural lesions.

Conclusions: ISL proved relevant to evaluate performance differences between PET scanners. Using these synthetically modified clinical images, we can produce a controlled ground truth in a realistic anatomical model and exploit the potential of PET scanner for clinical purposes.

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来源期刊
EJNMMI Physics
EJNMMI Physics Physics and Astronomy-Radiation
CiteScore
6.70
自引率
10.00%
发文量
78
审稿时长
13 weeks
期刊介绍: EJNMMI Physics is an international platform for scientists, users and adopters of nuclear medicine with a particular interest in physics matters. As a companion journal to the European Journal of Nuclear Medicine and Molecular Imaging, this journal has a multi-disciplinary approach and welcomes original materials and studies with a focus on applied physics and mathematics as well as imaging systems engineering and prototyping in nuclear medicine. This includes physics-driven approaches or algorithms supported by physics that foster early clinical adoption of nuclear medicine imaging and therapy.
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