Tanaka Rie, Sanada Shigeru, Suzuki Masayuki, Kobayashi Takeshi, Matsui Takeshi, Inoue Hitoshi, Yoshihisa Nakano
Department of Radiological Technology, School of Health Sciences, Faculty of Medicine, Kanazawa University, Kodatsuno 5-11-80, Kanazawa, Japan.
Med Phys. 2004 Aug;31(8):2254-62. doi: 10.1118/1.1769351.
Kinetic information is crucial when evaluating certain pulmonary diseases. When a dynamic flat-panel detector (FPD) can be used for a chest examination, kinetic information can be obtained simply and cost-effectively. The purpose of this study was to develop methods for analyzing respiratory kinetics, such as movement of the diaphragm and lung structures, and the respiratory changes in x-ray translucency in local lung fields. Postero-anterior dynamic chest radiographs during respiration were obtained with a modified FPD, which provided dynamic chest radiographs at a rate of 3 frames/s. Image registration for correction of physical motion was followed by measurement of the distance from the lung apex to the diaphragm. Next, we used a cross-correlation technique to measure the vectors of respiratory movement in specific lung areas. Finally, the average pixel value for a given local area was calculated by tracing the same local area in the lung field. This method of analysis was used for six healthy volunteers and one emphysema patient. The results reported here represent the initial stage in the development of a method that may constitute a new method for diagnosing certain pulmonary diseases, such as chronic obstructive pulmonary disease, fibroid lung, and pneumonia. A clinical evaluation of our method is now in progress.
在评估某些肺部疾病时,动力学信息至关重要。当动态平板探测器(FPD)可用于胸部检查时,能够简单且经济高效地获取动力学信息。本研究的目的是开发分析呼吸动力学的方法,例如膈肌和肺结构的运动,以及局部肺野X线透亮度的呼吸变化。使用改良的FPD获取呼吸过程中的后前位动态胸部X线片,该设备以每秒3帧的速率提供动态胸部X线片。在进行物理运动校正的图像配准后,测量从肺尖到膈肌的距离。接下来,我们使用互相关技术测量特定肺区域的呼吸运动向量。最后,通过在肺野中追踪相同的局部区域来计算给定局部区域的平均像素值。该分析方法应用于6名健康志愿者和1名肺气肿患者。此处报告的结果代表了一种方法开发的初始阶段,该方法可能构成诊断某些肺部疾病(如慢性阻塞性肺疾病、肺纤维化和肺炎)的新方法。我们方法的临床评估正在进行中。