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1 tween functional residual capacity (FRC) and total lung capacity.
2 yperinflation was defined as residual volume/total lung capacity.
3 ms, and had a higher percentage of predicted total lung capacity.
4 in infants from lung volumes initiated near total lung capacity.
5 capacity (FVC) (P <.01) but not with FVC and total lung capacity.
6 nd-inspiration thickness of the diaphragm at total lung capacity (0.386 +/- 0.144 cm vs. 0.439 +/- 0.
7 g abnormalities were associated with reduced total lung capacity (-0.444 liters; 95% confidence inter
8 ecreases in residual volume as compared with total lung capacity (16 percent vs. 6 percent), but the
9 ions, and it reduced lung volumes (change in total lung capacity -16%; change in residual volume -55%
11 s with Hb-SS were characterized by decreased total lung capacities (70.2 +/- 14.7% predicted) and DLC
12 nd, 108% predicted (normal range, 80%-120%); total lung capacity, 72% predicted (normal range, 80%-12
13 al model displayed hyperinflation (change in total lung capacity +8%; change in residual volume +66%)
14 (P=.02); and the ratio of residual volume to total lung capacity, a measure of thoracic gas trapping,
15 murina would interact to cause increases in total lung capacity, airspace enlargement, and pulmonary
16 12 HRCT scans--were associated with reduced total lung capacity and a lesser amount of emphysema.
18 02), and 3 years (28 patients; p=0.004), but total lung capacity and DLCO were not improved significa
19 row scanner, with spirometric monitoring at total lung capacity and during forced exhalation, with 4
21 effect of interstitial lung abnormalities on total lung capacity and emphysema was dependent on COPD
23 ents with asthma underwent breath-hold CT at total lung capacity and functional residual capacity.
24 rometry and full-lung CT-derived measures of total lung capacity and high attenuation area (HAA), and
25 by interstitial disease and air-trapping in total lung capacity and residual volume images, respecti
27 mbined, proton signal difference between TLC total lung capacity and RV residual volume correlated po
28 ng abnormalities are associated with reduced total lung capacity and the extent of emphysema is not k
29 eater lung volumes (FVC, vital capacity, and total lung capacity) and lesser flows (FEV1 and forced e
30 mes between 38.6 (39.8)% and 62.8 (31.1)% of total lung capacity, and 28 (36.3)% and 41.3 (38.7)% of
31 rced expiratory volume in 1 second, 116% for total lung capacity, and 60% for diffusing capacity of c
32 ance area, airway wall area and thickness at total lung capacity, and air trapping at functional resi
33 strated significantly increased lung volume, total lung capacity, and alveolarization compared to wil
34 VEGF164 significantly increased lung volume, total lung capacity, and alveolarization, while VEGF120
35 ad significantly decreased FEV(1), increased total lung capacity, and donor organ with lower pO(2) wh
37 diffusion lung capacity for carbon monoxide, total lung capacity, and forced vital capacity (rho = -0
38 diffusion lung capacity for carbon monoxide, total lung capacity, and forced vital capacity were rho
39 tance, tissue damping, inspiratory capacity, total lung capacity, and others, were significantly and
40 beta = 0.60, P = .0008), and residual volume/total lung capacity (beta = -0.26, P = .02) were signifi
41 ck-years of smoking, current smoking status, total lung capacity, display field of view, and scanner
43 tests (PFTs) included forced vital capacity, total lung capacity, forced expiratory volume in 1 secon
44 eticulation were associated with a decreased total lung capacity, forced vital capacity, and diffusin
45 end-expiratory pressure after deflation from total lung capacity, further demonstrating the effects o
47 n 50% predicted, significant hyperinflation (total lung capacity >100% and residual volume >150%), a
49 Results from rat experiments indicate that total lung capacity is increased when PEG is first added
51 e likely to have a restrictive lung deficit (total lung capacity <80% of the predicted value; odds ra
52 rsons with asthma, a deep inhalation (DI) to total lung capacity may lead to bronchoconstriction.
53 ese parameters were significantly lower than total lung capacity, occurring at volumes between 38.6 (
55 ative reduction in mean (SD) residual volume/total lung capacity of -12% (12%) and an increase in FEV
56 ed lung volume was 4.0 L, with PFT showing a total lung capacity of 6.2 L, residual lung volume of 2.
58 d 28 (36.3)% and 41.3 (38.7)% of pressure at total lung capacity (p < 0.05; Bonferroni post-test).
59 capacity (P = .0017), FEV(1) (P = .037), and total lung capacity (P = .013) but not their lung carbon
60 y percentage predicted, total lung capacity, total lung capacity percentage predicted, DLCO, or DLCO
61 resistance, and ratio of residual volume to total lung capacity postalbuterol predicted more than 75
62 p=0.001), oxygen utilization (p=0.04), lower total lung capacity % predicted (p=0.05), higher residua
63 onor-recipient oversizing based on predicted total lung capacity (pTLC) is associated with a reduced
66 idual lung volume or residual lung volume to total lung capacity ratio, is associated with greater LV
67 V1/forced vital capacity and residual volume/total lung capacity ratios) and greater reversibility to
68 whereas loops performed after deflation from total lung capacity remained close to the envelope defla
69 atous structural changes with an increase in total lung capacity, resulting in chronic hypoxemia, hyp
70 assessed by the ratio of residual volume to total lung capacity (RV/ TLC) (r = 0.66, p < 0.05) and e
71 ercent predicted ratio of residual volume to total lung capacity (RV/TLC%) (r = -0.65, P <.001), and
72 HI was defined as either a residual volume/total lung capacity (RV/TLC) above the upper limit of no
76 ereas the residual volume as a proportion of total lung capacity (RV:TLC) did not change in either gr
77 men than men after accounting for height and total lung capacity (segmental lumen diameter, 8.05 mm +
78 tent correlated most strongly with decreased total lung capacity (Spearman rank correlation coefficie
79 uring inspiration, static recoil pressure at total lung capacity, static lung compliance, expiratory
81 x (P = 0.05), and decreasing residual volume/total lung capacity (TLC) (P = 0.02) and % predicted res
83 Primary endpoints were CT lung density at total lung capacity (TLC) and functional residual capaci
85 x-ray (CXR) measurements to estimate actual total lung capacity (TLC) could account for disease-rela
86 onchodilator FEV1, residual volume (RV), and total lung capacity (TLC) were determined at baseline an
88 nth ICS/LABA treatment, residual volume (RV)/total lung capacity (TLC)% predicted was reduced compare
89 behaviour, present in the dependent 4 cm at total lung capacity (TLC), affects the dependent 11 cm a
90 50) spirometric, Feno, residual volume (RV)/total lung capacity (TLC), AHR, and Scond values signifi
92 oducibility, and accuracy of measurements of total lung capacity (TLC), FRC, and their ratio, we dete
94 static transpulmonary pressures obtained at total lung capacity (TLC); actual TLC %of predicted and
96 residual capacity [ FRC+1 L 1 L above FRC ], total lung capacity [ TLC total lung capacity ]) with br
98 se of qCT images (maximal bronchodilation at total lung capacity [TLC], or inspiration, and functiona
99 start group (-1.51 g/L per year [SE 0.25] at total lung capacity [TLC]; -1.55 g/L per year [0.24] at
100 nsfield unit (HU)-based density changes from total lung capacity to functional residual capacity (Del
102 the quotient of tidal volume (normalized to total lung capacity) to tidal change in Pdi (normalized
103 forced vital capacity percentage predicted, total lung capacity, total lung capacity percentage pred
104 mapped in each infant, after recruitment to total lung capacity, using stepwise airway pressure decr
105 lung was excised and inflated three times to total lung capacity (volume at 30 cm H2O) and expiratory
106 ss-sectional adjusted percent difference for total lung capacity was -1.33% (95% CI: -4.29, 1.72) and
107 1 second (FEV1), forced vital capacity, and total lung capacity were categorized based on age, gende
108 y, and the ratio between residual volume and total lung capacity were significantly different between
109 ing in static lung expansion that approaches total lung capacity with its negative impact on venous r
110 L 1 L above FRC ], total lung capacity [ TLC total lung capacity ]) with breath holds of 10-11 second