A Report of the ACCP-STS Joint Committee on Pulmonary Nomen- clature. Chest1975;67(5):583–593.
2.
ShapiroBA, KacmarekRM, CaneRD, PeruzziWT, HauptmanD.CPAP/PEEP therapy. In: Clinical application of respiratory care, 4th ed, 1991:335–364.
3.
DuncanAW, OhTE, HillmanDR. PEEP and CPAP. Anaesth Inten- sive Care1986;14(3):236–250.
4.
ShapiroBA, KacmarekRM, CaneRD, PeruzziWT, HauptmanD.Positive end-expiratory pressure devices. In: Clinical application of respiratory care, 4th ed., 1991:323–334.
5.
KacmarekRM, DimasS, ReynoldsJ, ShapiroBA. Technical aspects of positive end-expiratory pressure (PEEP): Part I. Physics of PEEP devices. Respir Care1982;27(12):1478–1489.
6.
KacmarekRM, DimasS, ReynoldsJ, ShapiroBA. Technical aspects of positive end-expiratory pressure (PEEP): Part II. PEEP with pos- itive-pressure ventilation. Respir Care1982;27(12):1490–1504.
7.
KacmarekRM, DimasS, ReynoldsJ, ShapiroBA. Technical aspects of positive end-expiratory pressure (PEEP): Part III. PEEP with spon- taneous ventilation. Respir Care1982;27(12):1505–1518.
8.
Conference proceedings. Positive end-expiratory pressure (PEEP). Part I. Proceedings of Journal Conference held Nov 19-21, 1987. Respir Care1988;33(6):393–520.
9.
Conference proceedings. Positive end-expiratory pressure (PEEP). Part II. Proceedings of Journal Conference held Nov 19-21, 1987. Respir Care1988;33(7):521–648.
GregoryGA, KittermanJA, PhibbsRH, TooleyWH, HamiltonWK. Treatment of the idiopathic respiratory-distress syndrome with continuous positive airway pressure. N Engl J Med1971;284(24):1333–1340.
GallagherTJ, CivettaJM, KirbyRR. Terminology update: optimal PEEP. Crit Care Med1978;6(5):323–326.
15.
SuterPM, FairleyHB, IsenbergMD. Optimum end-expiratory air- way pressure in patients with acute pulmonary failure. N Engl J Med1975;292(6):284–289.
16.
WalkinshawM, ShoemakerWC. Use of volume loading to obtain preferred levels of PEEP. Crit Care Med1980;8(2):81–86.
17.
MurrayIP, ModellJH, GallagherTJ, BannerTJ. Titration of PEEP by the arterial minus end-tidal carbon dioxide gradient. Chest1984;85 (1):100–104.
18.
NelsonL, CivettaJ, Hudson-CivettaJ.Titrating positive end-expi- ratory pressure therapy in patients with early, moderate arterial hypox- emia. Crit Care Med1987;15(1):14–19.
19.
CarrollG, TumanK, BravermanB, LogasWG, WoolN, GoldinM.IvankovichAD. Minimal positive end-expiratory pressure (PEEP) may be "best PEEP"Chest1988;93(5):1020–1025.
20.
ShapiroBA, PeruzziWT. Changing practices in ventilator man- agement. a review of the literature and suggested clinical correla- tions. Surgery1995;117(2):121–133.
21.
DalyBD, EdmondsCH, NormanJC. In vivo alveolar morphometrics with positive end expiratory pressure. Surg Forum, 1973;24:217–219.
22.
BedenbergCE, KazuiT, WebbWR. Experimental pulmonary edema: The effect of positive end expiratory pressure on lung water. Ann Thorac Surg1978;26:62–67.
23.
HopewellPC. Failure of positive end-expiratory pressure to decrease lung water content in alloxan-induced pulmonary edema. Am Rev Respir Dis1979;120(4):813–819.
24.
CaldiniP, LeithJD, BrennanMJ. Effect of continuous positive-pres- sure ventilation (CPPV) on edema formation in dog lung. J Appl Phys- iol1975;39(4):672–679.
25.
DemlingRH, StaubNC, EdmundsLH. Effect of end-expiratory air- way pressure on accumulation of extravascular lung water. J Appl Physiol1975;38(5):907–912.
26.
GoldbergHS, MitznerW, BatraG.Effect of transpulmonary and vas- cular pressures on rate of pulmonary edema formation. J Appl Phys- iol1977;43(1):14–19.
27.
MillerWC, RiceDL, UngerKM, BradleyBL. Effect of PEEP on lung water content in experimental noncardiogenic pulmonary edema. Crit Care Med1981;9(1):7–9.
28.
MaloJ, AliJ, WoodLD. How does positive end-expiratory pressure reduce intrapulmonary shunt in canine pulmonary edema? J Appl Physiol, 1984;57(4):1002–1010.
29.
ParePD, WarrinerB, BaileEM, HoggJC. Redistribution of pulmonary extravascular water with positive end-expiratory pressure in canine pulmonary edema. Am Rev Respir Dis, 1983;127(5):590–593.
30.
KumarA, FalkeKJ, GeffinB, AldredgeCF, LaverMB, LowensteinE.PontoppidanH.Continuous positive-pressure ventilation in acute respiratory failure. N Engl J Med1970;238(26):1430–1436.
31.
McIntyreRW, LawsAK, RamachandranPR. Positive expiratory pres- sure plateau: improved gas exchange during mechanical ventilation. Can Anaesth Soc J1969;16(6):477–486.
32.
StollerJK, KacmarekRM. Ventilatory strategies in the management of the adult respiratory distress syndrome. Clin Chest Med1990;11 (4):755–772.
33.
MatamisD, LemaireF, HarfA, Brun-BuissonC, AusquerJC, AtlanG.Total respiratory pressure-volume curves in the adult respiratory distress syndrome. Chest1984;86(1):58–66.
34.
BenitoS, LemaireF.Pulmonary pressure-volume relationship in acute respiratory distress syndrome in adults: role of positive end expiratory pressure. J Crit Care, 1990;5:27–34.
35.
RanieriVM, EissaNT, CorbeilC, ChasseM, BraidyJ, MatarN, Milic- EmiliJ.Effects of positive end-expiratory pressure on alveolar recruit- ment and gas exchange in patients with the adult respiratory distress syndrome. Am Rev Respir Dis1991;144(3, Part 1):544–551.
36.
GattinoniL, PesentiA, BombinoM, BaglioniS, RivoltaM, RossiF.Relationships between lung computed tomographic density, gas exchange, and PEEP in acute respiratory failure. Anesthesiology1988;69(6):824–832.
37.
GattinoniL, PesentiA, AvalliL, RossiF, BombinoM.Pressure-vol- ume curve of total respiratory system in acute respiratory failure: computed tomography scan study. Am Rev Respir Dis1987;136(3): 730–736.
38.
GattinoniL, D'AndreaL, PelosiP, VitaleG, PesentiA, FumagalliR.Regional effects and mechanism of positive end-expiratory pressure in early adult respiratory distress syndrome. JAMA1993;269 (16):2122–2127. See the published erratum in JAMA 1993;270(15):1814.
39.
GattinoniL, PelosiP, CrottiS, ValenzaF.Effects of positive end- expiratory pressure on regional distribution of tidal volume and recruit- ment in adult respiratory distress syndrome. Am J Respir Crit Care Med1995;151(6):1807–1814.
40.
ShapiroBA, KacmarekRM, CaneRD, PeruzziWT, HauptmanD.CPAP/PEEP Therapy. In: Clinical application of respiratory care. 4th ed. St. Louis: Mosby-Year Book Inc, 1991:335–364.
41.
ChandraA, CoggeshallJW, RavenscraftSA, MariniJJ. Hyperpnea limits the volume recruited by positive end-expiratory pressure. Am J Respir Crit Care Med1994;150(4):911–917.
42.
QvistJ, PontoppidanH, WilsonRS, LowensteinE, LaverMB. Hemo- dynamic responses to mechanical ventilation with PEEP: the effect of hypervolemia. Anesthesiology1975;42(1):45–55.
43.
FewellJE, AbendscheinDR, CarlsonCJ, RapaportE, MurryJF. Mech- anism of decreased right and left ventricular end-diastolic volumes during continuous positive-pressure ventilation in dogs. Cire Res1980;47(3):467–472.
44.
TeraiC, UenishiM, SugimotoH, ShimazuT, YoshiokaT, SugimotoT.Transesophageal echocardiographic dimensional analysis of four chambers during positive end-expiratory pressure. Anesthesiology1985;63(6):640–946.
45.
LeithnerC, PodolskyA, GlobitsS, FrankH, NeuholdA, PidlichJ, . Magnetic resonance imaging of the heart during positive end- expiratory pressure ventilation in normal subjects. Crit Care Med1994;22(3):426–432.
46.
HuemerG, KolevN, KurzA, ZimpferM.Influence of positive end- expiratory pressure on right and left ventricular performance assessed by Doppler two-dimensional echocardiography. Chest1994;106(1): 67–73.
47.
BiondiJW, SchulmanDS, SouferR, MatthayRA. HinesRL, KayHR, BarashPG. The effect of incremental positive end-expiratory pressure on right ventricular hemodynamics and ejection fraction. Anesth Analg1988;67(2):144–151.
48.
PinskyMR, DesmetJM, VincentJL. Effect of positive end-expiratory pressure on right ventricular function in humans. Am Rev Respir Dis1992;146(3):681–687.
49.
FewellJE, AbendscheinDR, CarlsonCJ, MurrayJF, RapaportE.Con- tinuous positive-pressure ventilation decreases right and left ventricular end-diastolic volumes in the dog. Circ Res1980;46(1):125–132.
50.
RobothamJL, LixfeldW, HollandL, MacGregorD, Bromberger- BarneaB, PernuettS, RabsonJL. The effects of positive end-expi- ratory pressure on right and left ventricular performance. Am Rev Respir Dis1980;121(4):677–683.
51.
BrooksH, KirkES, VokonasC, UrschelCW, SonnenblichEH. Per- formance of the right ventricle under stress: relation to right coro- nary flow. J Clin Invest1971;50(10):2176–2183.
52.
JardinF, FarcotJ, BoisanteL, CurienN, MargairazA, BourdariasJP. Influence of positive end-expiratory pressure on left ventricular performance. N Engl J Med1981;304(7):387–392.
53.
JardinF, Brun-NeyD, HardyA, AegerterP, BeauchetA, BourdariasJP. Combined thermodilution and two-dimensional echocardiographic determination of right ventricular function during respiratory sup- port with PEEP. Chest1991;99(1):162–168.
GraceMP, GreenbaumDM. Cardiac performance in response to PEEP in patients with cardiac dysfunction. Crit Care Med1982;10(6): 358–360.
56.
PattenMT, LiebmanPR, MannyJ, SheproD, HechtmanHB. Humorally mediated alterations in cardiac performance as a consequence of pos- itive end expiratory pressure. Surgery1978;84(2):201–205.
57.
GrindlingerGA, MannyJ, JusticeR, DunhamB, SheproD, HechtmanHB. Presence of negative inotropic agents in canine plasma dur- ing positive end-expiratory pressure. Circ Res1979;45(4):460–467.
58.
PickRA, HandlerJB, MurataGH, FriedmanIH. The cardiovascular effect of positive end-expiratory pressure. Chest1982;82(3):345–350.
59.
CujecB, PolasekP, MayersI, JohnsonD.Positive end-expiratory pres- sure increases the right-to-left shunt in mechanically ventilated patients with patent foramen ovale. Ann Internal Med1993;119(9):887–894.
60.
HagenPT, ScholzDG, EdwardsWD. Incidence and size of patent foramen ovale during the first 10 decades of life: an autopsy study of 965 normal hearts. Mayo Clin Proc, 1984;59(1):17–20.
61.
PatelM, SingerM.The optimal time for measuring the cardiores- piratory effects of positive end-expiratory pressure. Chest1993;104 (1):139–142.
62.
SladenA, LaverMB, PontoppidanH.Pulmonary complications and water retention in prolonged mechanical ventilation. N Engl J Med1968;279(9):448–453.
63.
FargeD, De-la CoussayeJE, BeloucifS, FratacciMD, PayenDM. Interactions between hemodynamic and hormonal modifications dur- ing PEEP induced antidiuresis and antinatriuresis. Chest1995;107 (4):1095–1100.
64.
BarkH, Le RoithD, NyskaM, GlickSM. Elevations in plasma ADH levels during PEEP ventilation in the dog: mechanisms involved. Am J Physiol1980;239(6):E474–E480.
65.
BrennerBM, BallermannBJ, GunningME, ZeidelML. Diverse bio- logical actions of atrial natriuretic peptide. Physiol Rev1990;70(3): 665–699.
66.
NakaoK, OgawaY, SugaS, ImuraH.Molecular biology and bio- chemistry of the natriuretic peptide system. I. Natriuretic peptides. J Hypertens, 1992;10(9):907–912.
67.
ShirakamiG, MagaribuchiT, ShinguK, SugaS, TamaiS, NakaoK, MoriK.Positive end-expiratory pressure ventilation decreases plasma atrial and brain natriuretic peptide levels in humans. Anesth Analg1993;77(6):1116–1121.
68.
FrassM, WatschingerB, TraindlO, PopovicR, PodolskyA, GisslingerH, . Atrial natriuretic peptide release in response to different positive end-expiratory pressure levels. Crit Care Med1993; 21(3): 343–347.
69.
GreenoughA, CahnV, HirdMF. Positive end expiratory pressure in acute and chronic respiratory distress. Arch Dis Child1992;67:320–323.
70.
BartholomewKM, BrownleeKG, SnowdenS, DearPR. TO PEEP or not to PEEP? Arch Dis Child1994;70(3, Special Number):F209–F212.
71.
KeszlerM, RyckmanFC, McDonaldJV, SweetLD, MorontMG, BoegliMJ, . A prospective, multicenter, randomized study of high versus low positive end-expiratory pressure during extracorporeal membrane oxygenation. J Pediatr, 1992;120(1):107–113.
DiRussoSM, NelsonLD, SafcsakK, MillerRS. Survival in patients with severe adult respiratory distress syndrome treated with high-level positive end-expiratory pressure. Crit Care Med1995;23(9):1485–1496.
