放射诊断相当程度上受益于高科技设备、电子和计算机的进步 ,这些进展仅极小地影响传统 X线成像。新概念和新术语 ,诸如计算机 X线摄影、数字 X线摄影 ,图像存档与通信系统已经形成。这些潜在的新的处理方法 ,可使医学成像采用先进的影像设备和计算机改进放射诊断的能力。计算机 X线摄影是一个较新的概念 ,它可有效地减少 X线摄影的失败 ,并提供一个更完整的解剖境界以帮助放射医师显示图像。此技术能改善靶点的清晰度和定性。有关设备的知识对于记录和处理是重要的 ,计算机 X线摄影和图像存档与通信系统的完美结合是一个很好的范例。这种结合是远程放射学的先决条件。数字控制技术要求有一个完整的设施。我们正在进入一个高技术的医疗应用的崭新领域 ,计算机 X线摄影系统正在被确认和定型 ,这不仅是放射技师而且也是计算机专家、工程师和物理学家共同开发的新领域 ,其最终目的是将这些高技术 X线摄影系统和计算机带进新世纪的医学影像科。 Radiation diagnosis benefits to a large extent from advances in high-tech equipment, electronics and computers that have only minimal impact on traditional radiography. New concepts and new terms, such as computerized radiography, digital radiography, image archiving and communication systems have been developed. These potential new treatments allow medical imaging to use advanced imaging equipment and computers to improve the diagnostic capabilities of radiation. Computer X-ray photography is a relatively new concept that can effectively reduce the failure of radiography and provide a more complete anatomical realm to help radiologists display images. This technique can improve the clarity and characterization of the target. Knowledge about the device is important for recording and handling, and the perfect combination of computerized radiography and image archiving and communication systems is a good example. This combination is a prerequisite for teleradiology. Digital control technology requires a complete facility. We are entering a completely new field of high-tech medical applications where computerized radiography systems are being identified and finalized. This is not only a radiology technician but also a new area that computer scientists, engineers and physicists work on, with the ultimate goal of These high-tech radiographic systems and computers bring new medical imaging subjects into the future.