Institute of Nuclear Medicine, University College London Hospitals NHS Foundation Trust, London, United Kingdom.
J Nucl Med. 2013 May;54(5):714-22. doi: 10.2967/jnumed.112.110106. Epub 2013 Mar 14.
Clinical (123)I-2-β-carbomethoxy-3β-(4-iodophenyl)-N-(3-fluoropropyl)nortropane ((123)I-FP-CIT) SPECT studies are commonly performed and reported using visual evaluation of tracer binding, an inherently subjective method. Increased objectivity can potentially be obtained using semiquantitative analysis. In this study, we assessed whether semiquantitative analysis of (123)I-FP-CIT tracer binding created more reproducible clinical reporting. A secondary aim was to determine in what form semiquantitative data should be provided to the reporter.
Fifty-four patients referred for the assessment of nigrostriatal dopaminergic degeneration were scanned using SPECT/CT, followed by semiquantitative analysis calculating striatal binding ratios (SBRs) and caudate-to-putamen ratios (CPRs). Normal reference values were obtained using 131 healthy controls enrolled on a multicenter initiative backed by the European Association of Nuclear Medicine. A purely quantitative evaluation was first performed, with each striatum scored as normal or abnormal according to reference values. Three experienced nuclear medicine physicians then scored each striatum as normal or abnormal, also indicating cases perceived as difficult, using visual evaluation, visual evaluation in combination with SBR data, and visual evaluation in combination with SBR and CPR data. Intra- and interobserver agreement and agreement between observers and the purely quantitative evaluation were assessed using κ-statistics. The agreement between scan interpretation and clinical diagnosis was assessed for patients with a postscan clinical diagnosis available (n = 35).
The physicians showed consistent reporting, with a good intraobserver agreement obtained for the visual interpretation (mean κ ± SD, 0.95 ± 0.029). Although visual interpretation of tracer binding gave good interobserver agreement (0.80 ± 0.045), this was improved as SBRs (0.86 ± 0.070) and CPRs (0.95 ± 0.040) were provided. The number of striata perceived as difficult to interpret decreased as semiquantitative data were provided (30 for the visual interpretation; 0 as SBR and CPR values were given). The agreement between physicians' interpretations and the purely quantitative evaluation showed that readers used the semiquantitative data to different extents, with a more experienced reader relying less on the semiquantitative data. Good agreement between scan interpretation and clinical diagnosis was seen.
A combined approach of visual assessment and semiquantitative analysis of tracer binding created more reproducible clinical reporting of (123)I-FP-CIT SPECT studies. Physicians should have access to both SBR and CPR data to minimize interobserver variability.
评估(123)I-FP-CIT 示踪剂结合的半定量分析是否能提供更具重复性的临床报告。次要目的是确定应向报告者提供半定量数据的形式。
54 例因黑质纹状体多巴胺能退行性变而接受 SPECT/CT 扫描的患者,随后进行半定量分析,计算纹状体结合比(SBR)和尾状核-壳核比(CPR)。采用欧洲核医学协会支持的多中心倡议,对 131 名健康对照者进行研究,获得正常参考值。首先进行纯定量评估,根据参考值将每个纹状体评为正常或异常。然后,3 名经验丰富的核医学医师使用视觉评估、视觉评估结合 SBR 数据以及视觉评估结合 SBR 和 CPR 数据,将每个纹状体评为正常或异常,并指出被认为困难的病例。使用κ统计评估观察者内和观察者间的一致性以及观察者与纯定量评估的一致性。对于有扫描后临床诊断的患者(n=35),评估扫描解读与临床诊断的一致性。
医生的报告一致,视觉解释具有良好的观察者内一致性(平均κ±SD,0.95±0.029)。虽然 SBR(0.86±0.070)和 CPR(0.95±0.040)的提供提高了示踪剂结合的视觉解释的观察者间一致性(0.80±0.045),但这是改善的。随着半定量数据的提供,被认为难以解释的纹状体数量减少(视觉解释 30 个;SBR 和 CPR 值给出时为 0 个)。医生解释与纯定量评估之间的一致性表明,读者在不同程度上使用了半定量数据,经验更丰富的读者较少依赖半定量数据。扫描解释与临床诊断之间存在良好的一致性。
视觉评估与示踪剂结合的半定量分析相结合,为(123)I-FP-CIT SPECT 研究的临床报告提供了更具重复性的方法。医生应该能够访问 SBR 和 CPR 数据,以最大程度地减少观察者间的变异性。
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