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1 standardized inspiration followed by passive exhalation.
2 ing at total lung capacity and during forced exhalation.
3 ageal, and gastric pressures recorded at end-exhalation and end-inflation Pes averaged 17.5 +/- 5.7 c
4  by a modified N2 washout technique from end-exhalation and from +40 cm H2O inspiratory pressure, res
5 in TI,vent causes tachypnea, prolongation of exhalation, and a decrease in intrinsic positive end-exp
6 n respiratory pattern and to maintain forced exhalation during pressure-support ventilation may have
7 apse greater than 50% of luminal area during exhalation (expiratory central airway collapse [ECAC]) i
8 lat)) is nonspecific and requires a constant exhalation flow rate.
9 l exhaled NO (FeNO(50)) measured at multiple exhalation flow rates in 132 children (aged 4-18 yr) wit
10 h CF are not statistically different at both exhalation flow rates of 50 ml/s (17.5 +/- 11.5 and 11.5
11 easured by pneumotachograph during a passive exhalation from +40 cm H2O to FRC measured by N2 washout
12 imulations while patients performed a gentle exhalation from FRC.
13  In contrast, unilateral LVRS did not affect exhalation from the unoperated lung (2% reduction in RV,
14 .1 +/- 1.6 breaths/min (p < 0.001), time for exhalation, from 2.0 +/- 0.2 to 2.6 +/- 0.3 s (p < 0.001
15 .8 +/- 1.5 breaths/min (p < 0.001), time for exhalation, from 2.1 +/- 0.2 to 2.3 +/- 0.2 s (p < 0.025
16 important isoform contributing to exhaled NO exhalation in healthy mice.
17 ma, in the alveoli to drop to nearly zero on exhalation; in the upper airways gamma is approximately
18 lected during a flow and pressure-controlled exhalation into a reservoir discarding dead space air co
19 gh-frequency, highly rhythmic inhalation and exhalation of air through the nose, plays an important r
20                     An estimated total daily exhalation of ca. 20 mug day(-1) was calculated for the
21 ractions and poor delivery efficiency due to exhalation of low-inertia nanoparticles.
22 the clearing of hemolymph nicotine or in the exhalation of nicotine from hemolymph.
23  the mask (Facial-MEP) or the same mask with exhalation port in the ventilator circuit (Facial-WS) an
24 tudy was conducted to evaluate the effect of exhalation port location and mask design on CO2 rebreath
25  A facial mask (inner volume of 165 mL) with exhalation port within the mask (Facial-MEP) or the same
26 rcuit (Facial-WS) and a total face mask with exhalation port within the mask (inner volume 875 mL, To
27                          Facial-MEP with its exhalation port within the mask and the smallest mask vo
28 action: monitoring respiration revealed that exhalation preceded odor-evoked activity and reversible
29 id air on the paper-sensor during the forced exhalation reduced the electrical resistance of the sens
30 sed by a continuous series of inhalation and exhalation sections, and an extremely low fundamental fr
31                          In contrast, during exhalation, the flow preferentially sweeps through this
32                                       During exhalation, the surfactant film of lipids and proteins t
33  humidity caused by cycles of inhalation and exhalation to electrical signals.
34 g and the sensor recovered rapidly after the exhalation was complete by rapid desorption of water mol
35 trate- and inhibitor-regulated changes of NO exhalation, we suggest that NOS 2 is an important isofor
36 tely 0.001 N/m) achieved in the lungs during exhalation when the surfactant film compresses.
37 ly silences respiration, trapping animals in exhalation, while stimulating Npy2r neurons causes rapid
38 caused tachypnea, yet prolonged the time for exhalation with consequent decrease in PEEP(i).
39 ing at total lung capacity and during forced exhalation, with 40 mAs, 120 kVp, and 0.625-mm detector

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