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1 ed a potentially better approach to applying partial liquid ventilation.
2 positioning, tracheal gas insufflation, and partial liquid ventilation.
3 wer lobes of lungs from animals treated with partial liquid ventilation.
4 re no adverse events clearly attributable to partial liquid ventilation.
5 nce is improved during total, but not during partial liquid ventilation.
6 xchange is improved during total followed by partial liquid ventilation.
7 as ventilation = 0.41 +/- 0.02 mL/cm H2O/kg, partial liquid ventilation = 0.47 +/- 0.08, p = .151).
8 tilation = O.48 +/- 0.03 mL/cm H2O/kg, total/partial liquid ventilation = 0.50 +/- 0.17 mL/cm H2O/kg)
9 ompared with controls (pulmonary compliance: partial liquid ventilation, 0.43 +/- 0.04 mL/ cm H2O/kg;
10 hunt (physiologic shunt after 50 mL/kg dose: partial liquid ventilation, 2 +/- 8%; control, 64 +/- 5%
11 .001; gas ventilation = 91 +/- 12 mL/kg/min, partial liquid ventilation = 41 +/- 11 mL/kg/min, p < .0
12 /- 11%, p<.001; gas ventilation = 95 +/- 3%, partial liquid ventilation = 61 +/- 12%, p<.001), while
13 c shunt (gas ventilation = 69 +/- 11%, total/partial liquid ventilation = 71 +/- 3%) and a decrease i
14 (arterial oxygen saturation after 50 mL/kg: partial liquid ventilation, 96 +/- 3%; control, 55 +/- 8
15 m factor; d) CVF-PLV group, animals received partial liquid ventilation after cobra venom factor; e)
16 ed four groups: surfactant alone (S; n = 8); partial liquid ventilation alone (PLV-only; n = 8); surf
19 , and inflammatory infiltration in the total/partial liquid ventilation animals when compared with th
20 on, airway pressure release ventilation, and partial liquid ventilation are potential protective vent
22 or (CVF); b) PLV-CVF group, animals received partial liquid ventilation before the induction of lung
23 ntrations were lower in animals treated with partial liquid ventilation compared with conventionally
24 nal pulmonary blood flow is preserved during partial liquid ventilation compared with gas ventilation
26 s reached significance (p < .05) only in the partial liquid ventilation-conventional ventilation anim
28 received an oleic acid-induced lung injury: partial liquid ventilation during acute lung injury (OA-
30 Survival rate was significantly lower in the partial liquid ventilation-flow interruption group (p <
32 rtial liquid ventilation (S-PLV; n = 8); and partial liquid ventilation-followed by surfactant (PLV-S
33 tal liquid ventilation for 1 hr, followed by partial liquid ventilation for 1.5 hrs (total/partial li
36 enation was significantly lower in the total/partial liquid ventilation group when compared with that
40 bon (PFC) liquid, such as perflubron, during partial liquid ventilation improves lung function and al
41 ng continuous positive-pressure ventilation (partial liquid ventilation) improves lung function in an
44 ow decreased from baseline (before injury or partial liquid ventilation) in the most dependent areas
50 fferent groups: a normal group that received partial liquid ventilation (Normal-PLV) and two acute lu
51 factor; f) PLV only group, animals received partial liquid ventilation only; g) GV only group, anima
54 frequency oscillatory ventilation (HFOV) and partial liquid ventilation (PLV) also decrease lung inju
55 e of lung opacification by perflubron during partial liquid ventilation (PLV) and extracorporeal memb
59 bit pulmonary neutrophil accumulation during partial liquid ventilation (PLV) in the setting of acute
63 We compared the effects of surfactant and partial liquid ventilation (PLV), and the impact of admi
66 ne (PLV-only; n = 8); surfactant followed by partial liquid ventilation (S-PLV; n = 8); and partial l
67 appearance of perflubron-filled lungs during partial liquid ventilation to treat acute respiratory di
68 The 3H-phosphatidylcholine activity in the partial liquid ventilation treated- vs. control rabbits
78 Complications potentially associated with partial liquid ventilation were limited to pneumothorace
79 in pulmonary compliance was observed during partial liquid ventilation when compared with controls (
80 t was significantly reduced during total and partial liquid ventilation when compared with physiologi
81 survived beyond 28 days after initiation of partial liquid ventilation whereas 5 patients survived t
82 a) conventional gas ventilation (n = 8); b) partial liquid ventilation with conventional ventilation
83 h high-frequency oscillation (n = 7); and e) partial liquid ventilation with high-frequency flow inte
84 on with conventional ventilation (n = 7); c) partial liquid ventilation with high-frequency jet venti
85 h high-frequency jet ventilation (n = 7); d) partial liquid ventilation with high-frequency oscillati
86 f high-frequency oscillatory ventilation and partial liquid ventilation with perfiubron was well tole
87 ceive conventional mechanical ventilation or partial liquid ventilation with Perflubron (18 mL/kg by
91 t antiinflammatory activity and suggest that partial liquid ventilation with PFC may be considered in
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