AnholmJ.D., MilneE.N., StarkP., BourneJ.C., FriedmanP.1999. Radiographic evidence of interstitial pulmonary edema after exercise at high altitude. J. Appl. Physiol., 86,2:503–509.
2.
BrasileiroF.C., VargasF.S., KavakamaJ.I., LeiteJ.J., CukierA., PréfautC.1997. High-resolution CT scan in the evaluation of exercise-induced interstitial pulmonary edema in cardiac patients. Chest., 111:1577–1182.
3.
CogoA., LegnaniD., AllegraL.1997. Respiratory function at different altitudes. Respiration., 64,6:416–421.
4.
Compte-TorreoL., Botella de MagliaJ., de Diego-DamiaA., Gomez-PerezL., Ramirez- GalleymoreP., Perpina-TorderaM.2005. Changes in spirometric parameters and arterial oxygen saturation during a mount ascent to over 3000 meters. Arch. Bronconeumol., 41,10:547–552.
5.
ContoliM., BousquetJ., FabbriL.M., MagnussenH., RabeK.F., SiafakasN.M., HamidQ., KraftM.2010. The small airways and distal lung compartment. Allergy., 65:141–151.
DeboeckG., MoraineJ.J., NaeijeR.2005. Respiratory muscle strength may explain hypoxia- induced decrease in vital capacity. Med. Sci. Sports Exerc., 37,5:754–758.
8.
DellacàR.L., ZanninE., SanciniG., RivoltaI., LeoneB.E., PedottiA., MiserocchiG.2008. Changes in the mechanical properties of the respiratory system during the development of interstitial lung edema. Respir. Res., 9:51.
9.
DehnertC., LuksA.M., SchendlerG., MenoldE., BergerM.M., MairbaurlH., FaoroV., BaileyD.M., CastellC., HahanG., VockP., SwensonE.R., BartschP.2010. No evidence for interstitial lung edema by extensive pulmonary function testing at 4559 m. Eur. Respir. J., 35:812–820.
10.
FasanoV., BonardiD., CampigottoF., PomidoriL., ValliG., GennariA., PalangeP., CogoA.2007a. Changes of oscillatory resistance and reactance at high altitude and during a simulated ascent in hypobaric chamber. Eur. Respir. J., 30,Suppl. 51:341[abstract].
11.
FasanoV., PaolucciE., PomidoriL., CogoA.2007b. High altitude exposure reduces inspiratory muscle strength. Int. J. Sport Med., 28,5:426–430.
12.
FischerR., LangS.M., BergnerA., HuberR.M.2005. Monitoring of expiratory flow rates and lung volumes during a high altitude expedition. Eur. J. Med. Res., 10,11:469–474.
13.
GautierH., PeslinR., GrassinoA., Milic-EmiliJ., HannhartB., PowellE., MiserocchiG., BonoraM., FischerJ.T.1982. Mechanical properties of the lungs during acclimatization to altitude. J. Appl. Physiol., 52,6:1407–1415.
14.
JaegerJ.J., SylvesterJ.T., CymermanA., BerberichJ.J., DennistonJ.C., MaherJ.T.1979. Evidence for increased intrathoracic fluid volume in man at high altitude. J. Appl. Physiol., 47,4:670–676.
15.
JambrikZ., GarganiL., AdamiczaA., KaszakiJ., VargaA., ForsterT., BorosM., PicanoE.2010. B-lines quantify the lung water content: a lung ultrasound versus lung gravimetry study in acute lung injury. Ultrasound Med. Biol., 36,12:2004–2010.
16.
JohnsonM.K., BirchM., CarterR., KinsellaJ., StevensonR.D.2005. Use of reactance to estimate transpulmonary resistance. Eur. Respir. J., 25:1061–1069.
17.
KatoS., NakamotoT., IizukaM.1996. Early diagnosis and estimation of pulmonary congestion and edema in patients with left-sided heart diseases from histogram of pulmonary CT number. Chest., 109,6:1439–1445.
18.
KazerooniE.A.2001. High resolution CT of the lungs. Am. J. Respir., 177:501–519.
19.
MacklemP.The physiology of small airways. 1988. Am. J. Respir. Crit. Care Med., 15:S181–S183.
20.
MansellA., PowlesA., SuttonJ.1980. Changes in pulmonary PV characteristics of human subjects at an altitude of 5366m. J. Appl. Physiol., 49:79–83.
21.
MasonN.P., BarryP.W., PollardA.J., ColliewrD.J., TaubN.A., MillerM.R., MilledgeJ.S.2002. Serial changes in spirometry during ascent to 5300m in Nepalese Himalayas. High Alt. Med. Biol., 1:185–195.
22.
MasonN.P., PetersenM., MelotC., ImanowB., MatveykineO., GautierM.T., SarybaevA., AldashevA., MirrakhimnovM.M., BrownB.H., LeathardA.D., NaeijeR.2003. Serial changes in nasal potential difference and lung electirical impedance tomography at high altitude. J. Appl. Physiol., 94,5:2043–2050.
23.
MiserocchiG.2007. Lung interstitial pressure and structure in acute hypoxia. Adv. Exp. Med. Biol., 618:141–157.
24.
MiserocchiG.2009. Mechanisms controlling the volume of pleural liquid and extravascular lung water. Eur. Respir. Rev., 18:244–252.
25.
MiserocchiG., NegriniD., GonanoC.1990. Direct measurements of interstitial pulmonary pressure in in-situ lung with intact pleural space. J. Appl. Physiol., 69,6:2168–2174.
26.
MiserocchiG., NegriniD., PassiA.et al.2001a. Development of lung edema: interstitial fluid dynamics and molecular structure. News Physiol. Sci., 16:66–71.
27.
MiserocchiG., PassiA., NegriniD., Del FabbroM., de LucaG.2001b. Pulmonary interstitial pressure and tissue matrix structure in acute hypoxia. Am. J. Physiol. (Lung Cell Mol. Physiol.)., 280:L881–L887.
28.
OgawaS., ShreeniwasR., BrettJ., ClaussM., FurieM., SternD.M.1990. The effect of hypoxia on capillary endothelial cell function: modulation of barrier and coagulant function. Br. J. Haematol., 75,4:517–524.
29.
ParkerJ.C.X., ParkerR.E., GrangerD.N., TaylorA.E.1981. Vascular permeability and trans- vascular fluid and protein transport in the dog lung. Circ. Res., 48,4:549–561.
30.
PellegrinoR., ViegiG., BrusascoV., CrapoR.O., BurgosF., CasaburiR., CoatesA., van der GrintenC.P., GustafssonP., HankinsonJ., JensenR., JohnsonD.C., MacIntyreN., McKayR., MillerM.R., NavajasD., PedersenO.F., WangerJ.2005. Interpretative strategies for lung function tests. Eur. Respir. J., 26,5:948–968.
31.
PellegrinoR., PompilioP., QuarantaM., AlivertiA., KayserB., MiserocchiG., FasanoV., CogoA., MilaneseM., CornaraG., BrusascoV., DellacàR.2010. Airway response to methacholine and exercise at high altitude in healthy lowlanders. J. Appl. Physiol., 108:256–265.
32.
PicanoE., FrassiF., AgricolaE., GligorovaS., GarganiS., MottolaG.2006. Ultrasound lung comets: a clinically useful sign of extravascular lung water. J. Am. Soc. Echocardiogr., 19:356–363.
33.
PrataliL., MarcoC., RosaS., PicanoE.2010. Frequent subclinical high-altitude pulmonary edema detected by chest sonography as ultrasound lung comets in recreational climbers. Crit. Care Med., 38:1818–1823.
34.
RivoltaI., LucchiniV., RocchettiM., KolarF., PalazzoF., ZazaA., MiserocchiG.2010. Interstitial pressure and lung oedema in chronic hypoxia. Eur. Respir. J., Aug6[Epub ahead of print].
35.
SennO., ClarenbachC.F., FischlerT., ThalmannR., Brunner-La RoccaH., EggerP., MaggioriniM., BlochK.E.2006. Do changes in lung function predict high altitude pulmonary edema at an early stage?Med. Sci. Sport Exerc., 38,9:565–570.
36.
YanS.F., OgawaS., SternD.M., PinskyD.J.1997. Hypoxia induced modulation of endothelial cell properties: regulation of barrier-function and expression of interleukin-6. Kidney Int., 51,2:419–425.
37.
WelshC.H., WagnerP.D., ReevesJ.T., LynchD., CinkT.M., ArmstrongJ., MalconianM.K., RockP.B., HoustonC.S.1993. Operation Everest II: spirometric and radiographic changes in acclimatized humans at simulated high altitudes. Am. Rev. Respir. Dis., 147,5:1239–1244.
