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基于动态平板探测器成像的肺密度呼吸变化的肺功能诊断:一项基于动物的研究。

Pulmonary Function Diagnosis Based on Respiratory Changes in Lung Density With Dynamic Flat-Panel Detector Imaging: An Animal-Based Study.

机构信息

Biomedical Innovation Center.

Department of Radiology, and.

出版信息

Invest Radiol. 2018 Jul;53(7):417-423. doi: 10.1097/RLI.0000000000000457.

DOI:10.1097/RLI.0000000000000457
PMID:29505487
Abstract

OBJECTIVES

The aims of this study were to address the relationship between respiratory changes in image density of the lungs and tidal volume, to compare the changes between affected and unaffected lobes, and to apply this new technique to the diagnosis of atelectasis.

MATERIALS AND METHODS

Our animal care committee approved this prospective animal study. Sequential chest radiographs of 4 pigs were obtained under respiratory control with a ventilator using a dynamic flat-panel detector system. Porcine models of atelectasis were developed, and the correlation between the tidal volume and changes in pixel values measured in the lungs were analyzed. The mean difference in respiratory changes in pixel values between both lungs was tested using paired t tests. To facilitate visual evaluation, respiratory changes in pixel values were visualized in the form of a color display, that is, as changes in color scale.

RESULTS

Average pixel values in the lung regions changed according to forced respiration. High linearity was observed between changes in pixel values and tidal volume in the normal models (r = 0.99). Areas of atelectasis displayed significantly reduced changes in pixel values (P < 0.05). Of all atelectasis models with air trapping and air inflow restriction, 92.7% (19/20) were visualized as color-defective or color-marked areas on functional images, respectively.

CONCLUSION

Dynamic chest radiography allows for the relative evaluation of tidal volume, the detection of ventilation defects in the lobe unit, and a differential diagnosis between air trapping and air inflow restriction, based on respiratory changes in image density of the lungs, even without the use of contrast media.

摘要

目的

本研究旨在探讨肺部图像密度的呼吸变化与潮气量之间的关系,比较病变和未病变肺叶之间的变化,并将这一新技术应用于肺不张的诊断。

材料和方法

本动物护理委员会批准了这项前瞻性动物研究。使用呼吸机通过动态平板探测器系统对 4 头猪进行连续胸部 X 线摄影,进行呼吸控制。建立猪肺不张模型,分析潮气量与肺部像素值变化之间的相关性。使用配对 t 检验测试双肺呼吸像素值变化的平均差异。为了便于视觉评估,将像素值的呼吸变化以颜色显示的形式可视化,即颜色刻度的变化。

结果

在强制呼吸时,肺部区域的平均像素值发生变化。正常模型中,像素值变化与潮气量之间呈高度线性关系(r = 0.99)。肺不张区域的像素值变化明显减少(P < 0.05)。在所有具有空气滞留和空气流入受限的肺不张模型中,92.7%(19/20)在功能图像上分别显示为颜色缺陷或颜色标记区域。

结论

动态胸部 X 射线摄影可以相对评估潮气量,检测叶单位的通气缺陷,并根据肺部图像密度的呼吸变化,在不使用对比剂的情况下,对空气滞留和空气流入受限进行鉴别诊断。

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