Abstract
The pulmonary mixing index (PMI) and DeltaN{sup 2} derived from an N{sup 2} washout curve by the multiple-breath method, and the K{sub 1}/K{sub 4} ratio (K{sub 1}, K{sub 4} are the rate constant of washout obtained from the fast space and slow space, respectively) derived from regional {sup 133}Xe washout curves were evaluated in 12 healthy subjects and 22 subjects with pulmonary disease, who included 12 subjects with chronic obstructive pulmonary disease (COPD), 5 subjects with pulmonary fibrosis (PF) and 5 subjects with bronchial asthma (BA). The results were as follows: (1) PMI was 0.68{plus minus}0.31% (mean{plus minus}SD) in the PF group, 1.34{plus minus}0.40% in the BA group and 8.63{plus minus}5.01% in the COPD group. The DeltaN{sub 2} was 0.20{plus minus}0.11%, 0.64{plus minus}0.24% and 5.96{plus minus}4.21%, respectively. (2) The K{sub 1}/K{sub 4} ratio in the right lung was linearly correlated with that of the left lung (r=0.84, p<0.001). (3) The regional K{sub 1}/K{sub 4} ratio (mean{plus minus}SE) in healthy subjects was lowest in the basal region of the right lung. (4) The regional gas distribution score (RGDS) derived from the regional K{sub 1}/K{sub 4} ratios was 18.8{plus minus}0.9 (mean{plus minus}SE) in the healthy 12 subjects, 19.0{plus minus}1.2 in the PF
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Sato, Masao;
Katsuragawa, Shigehiko
[1]
- Iwate Medical Univ., Morioka (Japan). School of Medicine (Japan)
Citation Formats
Sato, Masao, and Katsuragawa, Shigehiko.
Evaluation of pulmonary gas distribution by the sup 133 Xe washout curve.
Japan: N. p.,
1989.
Web.
Sato, Masao, & Katsuragawa, Shigehiko.
Evaluation of pulmonary gas distribution by the sup 133 Xe washout curve.
Japan.
Sato, Masao, and Katsuragawa, Shigehiko.
1989.
"Evaluation of pulmonary gas distribution by the sup 133 Xe washout curve."
Japan.
@misc{etde_5101179,
title = {Evaluation of pulmonary gas distribution by the sup 133 Xe washout curve}
author = {Sato, Masao, and Katsuragawa, Shigehiko}
abstractNote = {The pulmonary mixing index (PMI) and DeltaN{sup 2} derived from an N{sup 2} washout curve by the multiple-breath method, and the K{sub 1}/K{sub 4} ratio (K{sub 1}, K{sub 4} are the rate constant of washout obtained from the fast space and slow space, respectively) derived from regional {sup 133}Xe washout curves were evaluated in 12 healthy subjects and 22 subjects with pulmonary disease, who included 12 subjects with chronic obstructive pulmonary disease (COPD), 5 subjects with pulmonary fibrosis (PF) and 5 subjects with bronchial asthma (BA). The results were as follows: (1) PMI was 0.68{plus minus}0.31% (mean{plus minus}SD) in the PF group, 1.34{plus minus}0.40% in the BA group and 8.63{plus minus}5.01% in the COPD group. The DeltaN{sub 2} was 0.20{plus minus}0.11%, 0.64{plus minus}0.24% and 5.96{plus minus}4.21%, respectively. (2) The K{sub 1}/K{sub 4} ratio in the right lung was linearly correlated with that of the left lung (r=0.84, p<0.001). (3) The regional K{sub 1}/K{sub 4} ratio (mean{plus minus}SE) in healthy subjects was lowest in the basal region of the right lung. (4) The regional gas distribution score (RGDS) derived from the regional K{sub 1}/K{sub 4} ratios was 18.8{plus minus}0.9 (mean{plus minus}SE) in the healthy 12 subjects, 19.0{plus minus}1.2 in the PF group, 11.8{plus minus}1.8 in the BA group and 6.5{plus minus}0.6 in the COPD group. It was concluded that RGDS was more sensitive and useful parameter than PMI and DeltaN{sub 2} for detecting the disturbance of pulmonary gas distribution. (author).}
journal = []
volume = {41:5}
journal type = {AC}
place = {Japan}
year = {1989}
month = {Oct}
}
title = {Evaluation of pulmonary gas distribution by the sup 133 Xe washout curve}
author = {Sato, Masao, and Katsuragawa, Shigehiko}
abstractNote = {The pulmonary mixing index (PMI) and DeltaN{sup 2} derived from an N{sup 2} washout curve by the multiple-breath method, and the K{sub 1}/K{sub 4} ratio (K{sub 1}, K{sub 4} are the rate constant of washout obtained from the fast space and slow space, respectively) derived from regional {sup 133}Xe washout curves were evaluated in 12 healthy subjects and 22 subjects with pulmonary disease, who included 12 subjects with chronic obstructive pulmonary disease (COPD), 5 subjects with pulmonary fibrosis (PF) and 5 subjects with bronchial asthma (BA). The results were as follows: (1) PMI was 0.68{plus minus}0.31% (mean{plus minus}SD) in the PF group, 1.34{plus minus}0.40% in the BA group and 8.63{plus minus}5.01% in the COPD group. The DeltaN{sub 2} was 0.20{plus minus}0.11%, 0.64{plus minus}0.24% and 5.96{plus minus}4.21%, respectively. (2) The K{sub 1}/K{sub 4} ratio in the right lung was linearly correlated with that of the left lung (r=0.84, p<0.001). (3) The regional K{sub 1}/K{sub 4} ratio (mean{plus minus}SE) in healthy subjects was lowest in the basal region of the right lung. (4) The regional gas distribution score (RGDS) derived from the regional K{sub 1}/K{sub 4} ratios was 18.8{plus minus}0.9 (mean{plus minus}SE) in the healthy 12 subjects, 19.0{plus minus}1.2 in the PF group, 11.8{plus minus}1.8 in the BA group and 6.5{plus minus}0.6 in the COPD group. It was concluded that RGDS was more sensitive and useful parameter than PMI and DeltaN{sub 2} for detecting the disturbance of pulmonary gas distribution. (author).}
journal = []
volume = {41:5}
journal type = {AC}
place = {Japan}
year = {1989}
month = {Oct}
}