Improving the Safety of Computed Tomography Through Automated Quality Measurement: A Radiologist Reader Study of Radiation Dose, Image Noise, and Image Quality.

IF 7 1区 医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Investigative Radiology Pub Date : 2024-08-01 Epub Date: 2024-01-24 DOI:10.1097/RLI.0000000000001062
Rebecca Smith-Bindman, Yifei Wang, Carly Stewart, Jason Luong, Philip W Chu, Marc Kohli, Antonio C Westphalen, Eliot Siegel, Monika Ray, Timothy P Szczykutowicz, Andrew B Bindman, Patrick S Romano
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Abstract

Objectives: The Centers for Medicare and Medicaid Services funded the development of a computed tomography (CT) quality measure for use in pay-for-performance programs, which balances automated assessments of radiation dose with image quality to incentivize dose reduction without compromising the diagnostic utility of the tests. However, no existing quantitative method for assessing CT image quality has been validated against radiologists' image quality assessments on a large number of CT examinations. Thus to develop an automated measure of image quality, we tested the relationship between radiologists' subjective ratings of image quality with measurements of radiation dose and image noise.

Materials and methods: Board-certified, posttraining, clinically active radiologists rated the image quality of 200 diagnostic CT examinations from a set of 734, representing 14 CT categories. Examinations with significant distractions, motion, or artifact were excluded. Radiologists rated diagnostic image quality as excellent, adequate, marginally acceptable, or poor; the latter 2 were considered unacceptable for rendering diagnoses. We quantified the relationship between ratings and image noise and radiation dose, by category, by analyzing the odds of an acceptable rating per standard deviation (SD) increase in noise or geometric SD (gSD) in dose.

Results: One hundred twenty-five radiologists contributed 24,800 ratings. Most (89%) were acceptable. The odds of an examination being rated acceptable statistically significantly increased per gSD increase in dose and decreased per SD increase in noise for most categories, including routine dose head, chest, and abdomen-pelvis, which together comprise 60% of examinations performed in routine practice. For routine dose abdomen-pelvis, the most common category, each gSD increase in dose raised the odds of an acceptable rating (2.33; 95% confidence interval, 1.98-3.24), whereas each SD increase in noise decreased the odds (0.90; 0.79-0.99). For only 2 CT categories, high-dose head and neck/cervical spine, neither dose nor noise was associated with ratings.

Conclusions: Radiation dose and image noise correlate with radiologists' image quality assessments for most CT categories, making them suitable as automated metrics in quality programs incentivizing reduction of excessive radiation doses.

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通过自动质量测量提高计算机断层扫描的安全性:放射医师读者对辐射剂量、图像噪音和图像质量的研究。
目标:美国医疗保险和医疗补助服务中心(Centers for Medicare and Medicaid Services)资助开发了一种计算机断层扫描(CT)质量测量方法,用于绩效付费项目,该方法在自动评估辐射剂量和图像质量之间取得平衡,以鼓励在不影响检查诊断效用的前提下减少剂量。然而,现有的 CT 图像质量定量评估方法还没有针对放射科医生对大量 CT 检查的图像质量评估进行过验证。因此,为了开发图像质量的自动测量方法,我们测试了放射科医生对图像质量的主观评价与辐射剂量和图像噪声测量之间的关系:经委员会认证、经过培训、活跃于临床的放射科医生对一组 734 例诊断 CT 检查(代表 14 个 CT 类别)中的 200 例进行了图像质量评分。排除了有明显干扰、运动或伪影的检查。放射科医生将诊断图像质量评为优秀、合格、勉强合格或较差;后两种被认为是无法接受的诊断质量。我们按类别量化了评级与图像噪声和辐射剂量之间的关系,分析了噪声或剂量的几何标准差(gSD)每增加一个标准差,获得可接受评级的几率:结果:125 名放射科医生提供了 24,800 次评分。大多数评分(89%)是可接受的。在大多数类别中,包括常规剂量的头部、胸部和腹部-骨盆检查,剂量每增加一个 gSD,检查被评为合格的几率就会在统计学上明显增加,而噪音每增加一个 SD,检查被评为合格的几率就会降低。对于最常见的常规剂量腹部-骨盆 CT 类别,剂量每增加一个 gSD,可接受评级的几率就会增加(2.33;95% 置信区间,1.98-3.24),而噪声每增加一个 SD 值,可接受评级的几率就会降低(0.90;0.79-0.99)。仅在高剂量头部和颈部/颈椎这两类 CT 中,剂量和噪声均与评分无关:辐射剂量和图像噪声与放射科医生对大多数 CT 类别的图像质量评估相关,因此适合作为质量计划中的自动指标,以鼓励减少过高的辐射剂量。
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来源期刊
Investigative Radiology
Investigative Radiology 医学-核医学
CiteScore
15.10
自引率
16.40%
发文量
188
审稿时长
4-8 weeks
期刊介绍: Investigative Radiology publishes original, peer-reviewed reports on clinical and laboratory investigations in diagnostic imaging, the diagnostic use of radioactive isotopes, computed tomography, positron emission tomography, magnetic resonance imaging, ultrasound, digital subtraction angiography, and related modalities. Emphasis is on early and timely publication. Primarily research-oriented, the journal also includes a wide variety of features of interest to clinical radiologists.
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