Department of Nuclear Medicine, University Hospital Zurich, Rämistrasse 100, 8091 Zurich, Switzerland.
Eur J Nucl Med Mol Imaging. 2010 May;37(5):980-90. doi: 10.1007/s00259-009-1378-4. Epub 2010 Feb 6.
From a workflow/cost perspective integrated imaging is not an obvious solution. An analysis of scanning costs as a function of system cost and relevant imaging times is presented. This analysis ignores potential clinical advantages of integrated imaging.
An analysis comparing separate vs integrated imaging costs was performed by deriving pertinent equations and using reasonable cost numbers for imaging devices and systems, room and other variable costs. Integrated systems were divided into those sequentially and simultaneously. Sequential scanning can be done with two devices placed in a single or in two different scanning rooms. Graphs were derived which represent the cost difference between integrated imaging system options and their separate counterparts vs scanning time on one of the devices and cost ratio of an integrated system and its counterpart of separate devices.
Integrated systems are favoured by the fact that patients have to be up- and downloaded only once. If imaging times become longer than patient changing times, imaging on separate devices is advantageous. An integrated imaging cost advantage is achieved if the integrated systems typically and overall cost three fourths or less of the separate systems. If PET imaging takes 15 min or less, PET/CT imaging costs less than separate PET and CT imaging, while this time is below 5 min for SPECT/CT. A two-room integrated system has the added advantage that patient download time is not cost relevant, when imaging times on the two devices differ by more than the patient download time.
PET/CT scanning is a cost-effective implementation of an integrated system unlike most current SPECT/CT systems. Integration of two devices in two rooms by a shuttle seems the way how to make PET/MR cost-effective and may well also be a design option for SPECT/CT systems.
从工作流程/成本的角度来看,集成成像并不是一个明显的解决方案。本文分析了系统成本和相关成像时间对扫描成本的影响。本分析忽略了集成成像的潜在临床优势。
通过推导相关方程并使用合理的成像设备和系统、房间和其他可变成本的成本数字,对独立成像和集成成像成本进行了比较分析。将集成系统分为顺序和同时两种。顺序扫描可以使用两个设备放置在一个或两个不同的扫描室中完成。绘制了表示集成成像系统选项与其独立对应选项之间的成本差异的图形,以及与独立设备相比,集成系统的成本比及其对应设备的成本比。
集成系统的优势在于患者只需上下载一次。如果成像时间长于患者更换时间,则独立设备成像具有优势。如果集成系统的典型和总成本为独立系统的四分之三或更少,则可以实现集成成像的成本优势。如果 PET 成像时间为 15 分钟或更短,则 PET/CT 成像成本低于独立的 PET 和 CT 成像,而 SPECT/CT 的时间低于 5 分钟。当两个设备上的成像时间相差超过患者下载时间时,两室集成系统的另一个优点是患者下载时间与成本无关。
与大多数当前的 SPECT/CT 系统不同,PET/CT 扫描是集成系统的一种具有成本效益的实现方式。通过穿梭机将两个设备集成在两个房间中似乎是使 PET/MR 具有成本效益的一种方式,并且对于 SPECT/CT 系统来说,这也可能是一种设计选择。
