Abdi Ahmed Jibril, Mussmann Bo, Mackenzie Alistair, Gerke Oke, Jørgensen Gitte Maria, Bechsgaard Thor Eriksen, Jensen Janni, Olsen Lone Brunshøj, Andersen Poul Erik
Department of Clinical Research, University of Southern Denmark, 5000 Odense, Denmark.
Department of Clinical Engineering, Region of Southern Denmark, 5000 Odense, Denmark.
Diagnostics (Basel). 2021 Oct 19;11(10):1932. doi: 10.3390/diagnostics11101932.
The purpose of this study was to assess the image quality of the low dose 2D/3D slot scanner (LDSS) imaging system compared to conventional digital radiography (DR) imaging systems. Visual image quality was assessed using the visual grading analysis (VGA) method. This method is a subjective approach that uses a human observer to evaluate and optimise radiographic images for different imaging technologies.
ten posterior-anterior (PA) and ten lateral (LAT) images of a chest anthropomorphic phantoms and a knee phantom were acquired by an LDSS imaging system and two conventional DR imaging systems. The images were shown in random order to three (chest) radiologists and three experienced (knee) radiographers, who scored the images against a number of criteria. Inter- and intraobserver agreement was assessed using Fleiss' kappa and weighted kappa.
the statistical comparison of the agreement between the observers showed good interobserver agreement, with Fleiss' kappa coefficients of 0.27-0.63 and 0.23-0.45 for the chest and knee protocols, respectively. Comparison of intraobserver agreement also showed good agreement with weighted kappa coefficients of 0.27-0.63 and 0.23-0.45 for the chest and knee protocols, respectively. The LDSS imaging system achieved significantly higher VGA image quality compared to the DR imaging systems in the AP and LAT chest protocols ( < 0.001). However, the LDSS imaging system achieved lower image quality than one DR system ( ≤ 0.016) and equivalent image quality to the other DR systems ( ≤ 0.27) in the knee protocol. The LDSS imaging system achieved effective dose savings of 33-52% for the chest protocol and 30-35% for the knee protocol compared with DR systems.
this work has shown that the LDSS imaging system has the potential to acquire chest and knee images at diagnostic quality and at a lower effective dose than DR systems.
本研究的目的是评估低剂量二维/三维狭缝扫描仪(LDSS)成像系统与传统数字X线摄影(DR)成像系统相比的图像质量。使用视觉分级分析(VGA)方法评估视觉图像质量。该方法是一种主观方法,利用人类观察者针对不同成像技术评估和优化X线摄影图像。
通过LDSS成像系统以及两个传统DR成像系统获取了胸部仿真人体模型和膝关节仿真模型的十张后前位(PA)和十张侧位(LAT)图像。这些图像以随机顺序展示给三名(胸部)放射科医生和三名经验丰富的(膝关节)放射技师,他们根据多项标准对图像进行评分。使用Fleiss卡方和加权卡方评估观察者间和观察者内的一致性。
观察者之间一致性的统计比较显示观察者间一致性良好,胸部和膝关节检查方案的Fleiss卡方系数分别为0.27 - 0.63和0.23 - 0.45。观察者内一致性的比较也显示良好的一致性,胸部和膝关节检查方案的加权卡方系数分别为0.27 - 0.63和0.23 - 0.45。在前后位和侧位胸部检查方案中,LDSS成像系统的VGA图像质量显著高于DR成像系统(<0.001)。然而在膝关节检查方案中,LDSS成像系统的图像质量低于一个DR系统(≤0.016)且与另一个DR系统的图像质量相当(≤0.27)。与DR系统相比,LDSS成像系统在胸部检查方案中有效剂量节省了33% - 52%,在膝关节检查方案中有效剂量节省了30% - 35%。
这项工作表明,LDSS成像系统有潜力以比DR系统更低的有效剂量获取具有诊断质量的胸部和膝关节图像。