MEASUREMENT OF PULMONARY PARENCHYMAL ATTENUATION IN HEALTHY THAI SUBJECTS: USE OF SPIROMETRIC GATING WITH QUANTITATIVE CT.

Authors

  • Ponglada SUBHANNACHART Department of Radiology, Chest Disease Institute
  • Sutarat TUNGSAGUNWATTANA Department of Radiology, Chest Disease Institute
  • Sumnieng ATHTAWET Department of Radiology, Chest Disease Institute

Keywords:

Pulmo CT, Lung Attenuation, Attenuation Values, Quantitative

Abstract

Objectives: To measure lung attenuation quantitatively in normal healthy Thai people and to measure the attenuation in various areas of the normal lung with quantitative high resolution CT.

Materials and Methods: The subjects in this study were 154 healthy Thai volunteers. High resolution computerized tomography of the lung with spirometric gating (Pulmo CT) were obtained at level of the carina, 5 cm. above and 5 cm. below the carina. Scans were obtained at 50% vital capacity. Overall attenuation of the lungs and attenuation in various areas of the lungs were measured by using automatic fast contour tracing algorithms.

Results: The mean attenuation of the lung parenchyma decreased when age increased. The mean attenuation of total lung parenchyma of healthy Thai subjects was -811 ±28 HU. The attenuation of anterior and posterior segments of the lung were not statistically different. The attenuation of the central part of the lung was more than in the peripheral part of the lung.

Conclusions: Quantitative high resolution CT or Pulmo CT is non-invasive method for measurement lung tissue attenuation. This method is useful in early detection of diffuse lung lesions and in follow up study.

Downloads

Download data is not yet available.

Metrics

Metrics Loading ...

References

Kalender WA, Rienmuller R, Behr J, et al. Quantitative CT of the lung with spirometrically controlled respiratory status and automated evaluation procedures. In: Fuchs W (Ed.) Advances in CT. Berlin : Springer Verlag, 1990; 85-93.

Rienmuller RK, Behr J, Kalender WA, et al. Standardized quantitative high resolution CT in lung diseases. Journal of Computer Assisted Tomography 1991; 15(5): 742-749.

Kalender WA, Rienmuller R, Seissler W, et al. Measurement of pulmonary parenchymal attenuation: Use of spirometric gating with quantitative CT. Radiology 1990; 175: 265-268.

Pelinkovic D, Lorcher U, Chow KU, et al. Spirometric gated quantitative computed tomography of the lung in _ healthy smokers and nonsmokers. Invest Radiol 1997: 32(6): 335-343.

Gevenois PA, De Vuyst P, Littani M, et al. CT quantification of preliminary emphysema-correlation with pulmonary function tests: preliminary results on 15 patients. In: Felix R, Langr M (Eds.)

Advances in CT II, Springer, Berlin Heidelberg New York, 1992; 3-7.

Rienmuller R, Behr J, Beinert T, et al. Evaluation of CT histograms determined by spirometrically standardized high resolution CT studies of the lung in man. In: Felix R, Langr M (Eds.) Advances in CT II, Springer, Berlin Heidelberg New York, 1992; 17-24.

Beinert T, Behr J, Mehnert F, et al. Quantitative computerized tomography of the lung-respiration controlled diagnosis of diffuse lung diseases. Pneumologie 1995; 49(12) : 678-683.

Gevenois PA, De Vuyst P, Sy M, et al. Pulmonary emphysema: quantitative CT during expiration. Radiology 1996; 199(3) : 825-829.

Beinert T, Behr J, Mehnert F, et al. Spirometrically controlled quantitative CT for assessing diffuse parenchymal lung disease. J Comput Assist Tomogr 1995; 19(6): 924-931.

Guenard H, Diallo M, Laurent F, et al. Lung density and lung mass in emphysema. Chest 1992: 102:198-203.

Kalender WA, Fichte H, Bautz W, et al. Reference values for lung density and structure measured by quantitative CT. In: Pokieser H, Lechner G (Eds.) Advances in CT III, Springer-Verlag, Berlin Heidelberg New York, 1994; 290-298.

Adam H, Bernard MS, Mc Connochie K. An appraisal of CT pulmonary density mapping in normal subjects. Clin Radiol 1991; 43: 238-242.

Reuter M, Holling I, Emde L, et al. Quantitative assessment of lung density by CT in Navy personnel exposed to asbestos. In: Pokieser H, Lechner G (Eds.) Advances in CT III, Springer-Verlag, Berlin Heidelberg New York, 1994; 308-314.

Bae KT, Slone RM, Gierada DS, et al. Patients with emphysema: quantitative CT analysis before and after lung volume reduction surgery. Radiology 1997; 203: 705-714.

Rienmuller R, Altmann I, Behr J, et al. Spirometrically standardized quantitative high resolution CT of interstitial lung diseases. In: Fuchs W (Ed.) Advances in CT. Berlin: Springer Verlag, 1990; 102- 108.

Webb WR, Muller NL, Naidich DP. Diseases characterized primarily by cysts and emphysema. In: High-Resolution CT of the Lung. 3rd ed. Lippincott Williams & Wilkins, 2001: 455.

Verschakelen Ja, Van fraeyenhoven L, Laureys G, et al. Differences in CT density between dependent and nondependent portions of the lung: influence of lung volume. AJR 1993; 161: 713-717.

Nakano Y, Sakai H, Muro §S, et al. Comparison of low attenuation areas on computed tomographic scans between inner and outer segments of the lung in patients with chronic obstructive pulmonary disease: incidence and contribution to lung Function. Thorax 1999; 54(5): 384- 389.

Webb WR, Muller NL, Naidich DP. High resolution computed tomography findings of lung disease. In: High-Resolution CT of the Lung. 3rd ed. Lippincott Williams & Wilkins, 2001: 184-185.

Downloads

Published

2023-04-17

How to Cite

1.
SUBHANNACHART P, TUNGSAGUNWATTANA S, ATHTAWET S. MEASUREMENT OF PULMONARY PARENCHYMAL ATTENUATION IN HEALTHY THAI SUBJECTS: USE OF SPIROMETRIC GATING WITH QUANTITATIVE CT. ASEAN J Radiol [Internet]. 2023 Apr. 17 [cited 2024 Dec. 4];9(3):167-76. Available from: https://asean-journal-radiology.org/index.php/ajr/article/view/653

Issue

Section

Original Article