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吸气和呼气时使用螺旋CT评估肺容积:与肺功能测试的比较

Assessment of lung volumes using helical CT at inspiration and expiration: comparison with pulmonary function tests.

作者信息

Kauczor H U, Heussel C P, Fischer B, Klamm R, Mildenberger P, Thelen M

机构信息

Department of Radiology, Klinik fuer Radiologie, Johannes Gutenberg-Universitaet Mainz, Germany.

出版信息

AJR Am J Roentgenol. 1998 Oct;171(4):1091-5. doi: 10.2214/ajr.171.4.9763003.

DOI:10.2214/ajr.171.4.9763003
PMID:9763003
Abstract

OBJECTIVE

This study was designed to determine lung volumes using inspiratory and expiratory helical CT with two-dimensional (2D) and three-dimensional (3D) postprocessing and to compare the accuracy of those measurements with pulmonary function test results.

SUBJECTS AND METHODS

Seventy-two patients with suspected pulmonary disease underwent unenhanced helical CT (slice thickness, 8 mm; pitch, 2; increment, 8 mm) at deep inspiration and expiration. Lung volumes were determined using either a 2D approach (semiautomatic segmentation; thresholds, -1024 and -200 H) or a 3D technique (double-threshold seeded volumes of interest; thresholds, -1024 H [lower] and -900, -500, 400, -300, or -200 H [upper]). Pulmonary function tests were available for correlation in all cases.

RESULTS

Using inspiratory helical CT, we underestimated total lung capacity by 12%, which had a good correlation (r = .89) with static lung volumes. Volume revealed by expiratory helical CT was equivalent to intrathoracic gas volume, which also exhibited a good correlation (r = .88). However, using expiratory helical CT, we overestimated residual volume by 850 ml with a rather good correlation (r = .77). An emphysema index revealed moderate correlation with the relative forced expiratory volume in 1 sec (inspiration, r = -.66; expiration, r = -.54), whereas the expired volume showed a moderate correlation with the absolute forced expiratory volume in 1 sec (r = .65). The 2D approach showed lower absolute volumes than the 3D technique (mean, 3.6%; r = .99). In the 3D technique, lower upper thresholds led to reduced volumes (170 ml/100 H).

CONCLUSION

Inspiratory and expiratory helical CT show high correlation with static lung volumes. The 3D technique (-1024 to -200 H) is recommended for absolute estimation of lung volumes.

摘要

目的

本研究旨在利用吸气和呼气螺旋CT以及二维(2D)和三维(3D)后处理来测定肺容积,并将这些测量的准确性与肺功能测试结果进行比较。

对象与方法

72例疑似肺部疾病患者在深吸气和呼气时接受了非增强螺旋CT检查(层厚8mm;螺距2;间隔8mm)。使用2D方法(半自动分割;阈值为-1024和-200H)或3D技术(双阈值种子感兴趣体积;阈值为-1024H[下限]和-900、-500、400、-300或-200H[上限])来测定肺容积。所有病例均有肺功能测试结果可供进行相关性分析。

结果

使用吸气螺旋CT时,我们低估了肺总量12%,其与静态肺容积具有良好的相关性(r = 0.89)。呼气螺旋CT显示的容积相当于胸腔内气体容积,其也表现出良好的相关性(r = 0.88)。然而,使用呼气螺旋CT时,我们高估了残气量850ml,相关性较好(r = 0.77)。肺气肿指数与1秒用力呼气量相对值呈中度相关(吸气时,r = -0.66;呼气时,r = -0.54),而呼出容积与1秒用力呼气量绝对值呈中度相关(r = 0.65)。2D方法显示的绝对容积低于3D技术(平均低3.6%;r = 0.99)。在3D技术中,较低的上限阈值导致容积减小(每100H减小170ml)。

结论

吸气和呼气螺旋CT与静态肺容积显示出高度相关性。推荐使用3D技术(-1024至-200H)来绝对估计肺容积。

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