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REFERENCES: 1. Baumann MH. Pneumothorax. Semin Respir Cric Care Med 2001;22:647-656 2. De Lassence A, Tismit JF, Tafflet M, Azoulay E, Jamali S, Vinent F, Cohen Y, Garrouste-Org, Albert C, Dreyfuss D. Pneumothorax in intensive care unit: Incidence, risk factors and outcome. Anestehsiology 2006;104:5-13 3. Strange C. Pleural complications in intensive care unit. Clin Chest Med 1999;20:317-327 4. Zwillich CW, Pierson DJ, Creagh CE, Sutton FD, Schatz E, Petty TL. Complications of assisted ventilation. A prospective study of 354 consecutive episodes. Am J Med 1974

energy performance of buildings addressing indoor air quality, thermal environment, lighting and acoustics. [16] Ventilyatsionnaya ustanovka MELTEM. [17] Alo Mikola, Teet-Andrus Koiv, Hendrik Voll. (2014) Ventilation of Apartment Buildings and Nursing Homes. [18] Kalamees T. (2006). Indoor Climate Conditions and Ventilation Performance in Estonian Lightweight Detached Houses. Indoor and Built Environment , (15, 6), 555 – 569, ISSN 1423-0070 [19

REFERENCES 1. Rochwerg B, Brochard L, Elliott MW, et al. Official ERS/ATS clinical practice guidelines: noninvasive ventilation for acute respiratory failure. Eur Respir J. 2017;50:1602426. 2. Nicolini A, Stieglitz S, Bou-Khalil P, Esquinas A. Cost-utility of non-inasive mechanical ventilation: Analysis and implications in acute respiratory failure. A brief narrative review. Respr Investig. 2018;56(3):207-13. 3. Mandell A, Wunderink R, Anzueto A et al. Infectious Diseases Society of America/American Thoracic Society Consensus Guidelines on the Management of

material, animal activity and ventilation flow. Agr., Ecosyst. and Environ., 124 (3/4): 237-244. Bluteau C.V., Daniel I. (2009). Ammonia emission rates from dairy livestock buildings in Eastern Canada. Biosyst. Eng., 103 (4): 480-488. Erisman J.W., Bleeker A., Hensen A., Vermeulen A. (2008). Agriculture air quality in Europe and the future perspectives. Atmos. Environ., 42 (14): 3209-3217. Flesch T.K., Wilson J.D., Harper L.A., Crenna B.P. (2005). Estimating gas emissions fromafarm with an inverse-dispersion technique. Atmos. Environ., 39 (27): 4863-4874. Kang J.H., Lee

References [1] W. Budryk. Wentylacja kopalń. Przewietrzanie wyrobisk, część 1, Katowice: Wydawnictwo Górniczo-Hutnicze, 1961. [2] H. Bystroń. „Zastosowanie schematu potencjalnego do analizy bezpieczeństwa sieci wentylacyjnej”, in Przegląd Górniczy, no. 3, 1971, pp. 127-135. [3] H. Cross. „Analysis of Flow in Networks of conduits or Conductors”, in Bulletin of Illinois University, Engineering Experiment Station, no. 286, 1936. [4] M.J. McPherson. Subsurface Ventilation and Environmental Engineering, London: Chapman & Hall, 1993. [5] J. Pawiński, J. Roszkowski and

References Allard, F. - Santamouris, M. - Alvarez, S. - Programme, P. (1998) Natural ventilation in building. London: James & James (Science Publishers) Ltd., 1998. Bielek, B. - Bielek, M. - Szabó, D. - Majsniar, V. (2014) Development of facade ventilation units of under pressure ventilation system integrated into elements of lightweight transparent facade, SUT - Faculty of Civil Engineering, Bratislava, 2014. Bielek, B. - Szabó, D. (2014) Laboratory experimental verification and optimization of acoustic parameters of facade elements for the building of Panorama

References Albright L.D., Timmons M.B. (1984). Behavior of dairy cattle in free stall housing. Trans. ASAE 27: 1119-1126. Arnold G.J., Veenhuizen M.A. (1994). Livestock Housing Ventilation Fan Selection. Ohio State Cooperative Extension Factsheet. Columbus, Ohio: The Ohio State University. Bickert W.G. (2000). Dairy freestall housing and equipment. MidWest Plan Service Iowa State University, 7th ed., p. 3 Cook N.B., Bennett T.B., Nordlund K.V. (2005). Monitoring indices of cow comfort in freestall-housed dairy herds. J. Dairy Sci., 88 (11): 3876-3885. De Palo P

:597-601. 5. Moncada S, Higgs A. The L-arginine-nitric oxide pathway. N Engl J Med. 1993; 329:2002-12. 6. Broccard AF, Hotchkiss JR, Vannay C, Markert M, Sauty A, Feihl F, et al. Protective effects of hypercapnic acidosis on ventilator-induced lung injury. Am J Respir Crit Care. Med 2001; 164:802-6. 7. Li LF, Liao SK, Lee CH, Huang CC, Quinn DA. Involvement of Akt and endothelial nitric oxide synthase in ventilation-induced neutrophil infiltration: a prospective, controlled animal experiment. Crit Care. 2007: 11:R89. 8. Choi WI, Quinn DA, Park KM, Moufarrej RK, Jafari B

, Newsletter no.9. [5] Kolokotsa, M. S. (2013). Passive cooling dissipation techniques for buildings and other structures: The state of the art. 1st venticool Conference, 25-26 September 2013, Athens, from [6] Hassid, S. (2013). Individual appreciation of air conditioned surroundings. 1st venticool Conference, p. 3rd TightVent. 25-26 September 2013, Athens, 74.1367313206. [7] Edna Shaviv, A. (2001). Thermal mass and night ventilation as passive cooling design strategy

airway device during percutaneous tracheostomy. Anaesthesia 2014; 69(7):757-63. 4. Strametz R, Pachler C, Kramer JF et al. Laryngeal mask airway versus endotracheal tube for percutaneous dilatational tracheostomy in critically ill adult patients. Cochrane Database Syst Rev. 2014; 6:CD009901. 5. Pratt T, Bromilow J. Laryngeal mask airway for airway control during percutaneous dilatational tracheostomy. Anaesth Intensive Care 2011; 39(6):1009-13. 6. Pourciau DC, Hotard DP 3rd, Hayley S et al. Safety and efficacy of laryngeal mask airway ventilation in obese patients with