INTRODUCTION: Despite computed tomography (CT) being widely used to investigate different pathologies, quantitative data from normal population is scarce. Reference values may be useful to estimate the anatomical or physiological changes induced by various diseases. METHODS: We analyzed 100 helical CT scans taken for clinical purposes and referred as non pathological by the radiologist. Profiles were manually outlined on each CT scan slice and each voxel was classified according to its gas/tissue ratio. For regional analysis lungs were divided into 10 sterno-vertebral levels. RESULTS: We studied 53 males and 47 females (age 64+/-13 years); males had a greater total lung volume, lung gas volume and lung tissue. Not inflated tissue averaged 7+/-4% of the total lung weight, poorly inflated tissue averaged 18+/-3%, normally inflated tissue averaged 65+/-8% and over inflated tissue averaged 11+/-7%. We found a significant correlation between lung weight and subject's height (p<0.0001, r2=0.49); the total lung capacity in supine position was 4066+/-1190 ml, ~1800 mL less than the predicted total lung capacity in sitting position. Superimposed pressure averaged 2.6+/-0.5 cmH2O. CONCLUSIONS: Subjects without lung disease present significant amounts of poorly inflated and over inflated tissue. Normal lung weight can be predicted from patient's height with reasonable confidence
Limits of normality of quantitative thoracic computed tomography analysis / M.T. Cressoni Mainoni, E. Gallazzi, C. Chiurazzi, A. Marino, M. Brioni, F. Menga, I. Cigada, M. Amini, A. Lemos, M. Lazzerini, E. Carlesso, P. Cadringher, D. Chiumello, L. Gattinoni. - In: CRITICAL CARE. - ISSN 1466-609X. - 17:3(2013 May 24), pp. R93.1-R93.12. [10.1186/cc12738]
Limits of normality of quantitative thoracic computed tomography analysis
M.T. Cressoni MainoniPrimo
;E. GallazziSecondo
;C. Chiurazzi;A. Marino;E. Carlesso;D. Chiumello;L. GattinoniUltimo
2013
Abstract
INTRODUCTION: Despite computed tomography (CT) being widely used to investigate different pathologies, quantitative data from normal population is scarce. Reference values may be useful to estimate the anatomical or physiological changes induced by various diseases. METHODS: We analyzed 100 helical CT scans taken for clinical purposes and referred as non pathological by the radiologist. Profiles were manually outlined on each CT scan slice and each voxel was classified according to its gas/tissue ratio. For regional analysis lungs were divided into 10 sterno-vertebral levels. RESULTS: We studied 53 males and 47 females (age 64+/-13 years); males had a greater total lung volume, lung gas volume and lung tissue. Not inflated tissue averaged 7+/-4% of the total lung weight, poorly inflated tissue averaged 18+/-3%, normally inflated tissue averaged 65+/-8% and over inflated tissue averaged 11+/-7%. We found a significant correlation between lung weight and subject's height (p<0.0001, r2=0.49); the total lung capacity in supine position was 4066+/-1190 ml, ~1800 mL less than the predicted total lung capacity in sitting position. Superimposed pressure averaged 2.6+/-0.5 cmH2O. CONCLUSIONS: Subjects without lung disease present significant amounts of poorly inflated and over inflated tissue. Normal lung weight can be predicted from patient's height with reasonable confidence
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