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Selected Risks of the Decompression Process. Part I: Selected Inherent Residual Risks in the Decompression Process

Ryszard Kłos
Ryszard Kłos
   | 30. Apr. 2021
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Online veröffentlicht: 30. Apr. 2021
Seitenbereich: 7 - 36
Eingereicht: 25. Jan. 2020
Akzeptiert: 27. März 2020
DOI: https://doi.org/10.2478/phr-2020-0006
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© 2020 Ryszard Kłos, published by Sciendo
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1. Bühlmann A.A. Decompression-Decompression sickness. Berlin : Springer-Verlag, 1984. ISBN 3-540-13308-9; ISBN 0-387-13308-9; Search in Google Scholar

2. Lippmann J. Deeper into diving. Carnegie, Australia: J.L. Publications, 1990. ISBN 0-9590306-3-8; Search in Google Scholar

3. Lippmann J., Mitchell S. Deeper into diving. Aschburton: J.L. Publications, 2009. ISBN 0-9752290-1-X; Search in Google Scholar

4. Lewbel G.S. The decompression workbook. New York: Pisces Book Co., 1984. ISBN: 0-86636-023-9; Search in Google Scholar

5. Betts E.A. Introduction to enriched air diving. Freeport: American Nitrox Divers Inc., 1994; Search in Google Scholar

6. Comex Marseille. Medical Book. Marseille: Comex, 1986; Search in Google Scholar

7. Imbert J-P, Bontoux M. Proposition d’un manuel de procedures de decompression a l’air. Marseille: Comex Services, 1987. Final report to Centre d’Etudes Petrolleres et Marines. Fiche no 4723; Search in Google Scholar

8. Tabele dekompresji i rekompresji nurków. Praca zbiorowa. Gdynia: Dowództwo Marynarki Wojennej, 1982. Sygn.Mar.Woj. 860/81; Search in Google Scholar

9. Brubakk A.O., Neuman T.S. Bennett and Elliott’s physiology and medicine of diving. brak miejsca : Saunders, 2003. ISBN 0-7020-2571-2; Search in Google Scholar

10. Kenyon D.J. Butler G. Crude neon with nitrogen and oxygenasa hyperbaric intervention breathing mixture. Pub. No.: US 2014/0290651 A1 USA, 2 11 2014. 128/203.12: 96/134; Search in Google Scholar

11. US Navy diving manual. Praca zbiorowa (revision 7). The Direction of Commander: Naval Sea Systems Command, 2016. SS521-AG-PRO-010 0910-LP-115-1921; Search in Google Scholar

12. Kłos R. Aparaty Nurkowe z regeneracją czynnika oddechowego. Poznań: COOPgraf, 2000. ISBN 83-909187-2-2; Search in Google Scholar

13. —. Ultrasonic detection of the intravascular free gas phase in research on diving. Polish Maritime Research. 106, 2020, Tom 27, 2, strony 176-186;10.2478/pomr-2020-0039 Search in Google Scholar

14. —. Możliwości doboru ekspozycji tlenowo-nitroksowych dla aparatu nurkowego typu AMPHORA - założenia do nurkowań standardowych i eksperymentalnych. Gdynia : Polskie Towarzystwo Medycyny i Techniki Hiperbarycznej, 2012. ISBN 978-83-924989-8-8; Search in Google Scholar

15. Castagna O, de Maistre S, Schmid B, Caudal D, Regnard J. Immersion pulmonary oedema in a healthy diver not exposed to cold or strenuous exercise. Diving and Hyperbaric Medicine. March 2018, Tom 48, strony 40-44;10.28920/dhm48.1.40-44646782729557101 Search in Google Scholar

16. Alonso J.V., Chowdhury M., Borakati R., Gankande U. Swimming-induced pulmonary oedema an uncommon conditio diagnosed with POCUS ultrasound. American Journal of Emergency Medicine. 2017, Tom 35, strony 1986.e3–1986.e4;10.1016/j.ajem.2017.09.02928927999 Search in Google Scholar

17. Boussuges A., Ayme K., Chaumet G., Albier E., Borgnetta M., Gavarry O. Observa-tional study of potential risk factors of immersion pulmonary edema in healthy divers: exercise intensity is the main contributor. Sports Medicine - Open. 2017, Tom 35, 3;10.1186/s40798-017-0104-1562667428975560 Search in Google Scholar

18. Kłos R. Context analysis in the development of diving technologies (bilingual: Analiza kontekstu przy projektowaniu technologii). Polish Hyperbaric Research. 2019, Tom 62, 2, strony 7-58;10.2478/phr-2019-0005 Search in Google Scholar

19. Schipke J. D., Tetzlaff K. Why predominantly neurological decompression sickness in breath-hold divers? J Appl Physiol. 2016, Tom 120, strony 1474–1477;10.1152/japplphysiol.00840.201526796755 Search in Google Scholar

20. Kłos R., Konarski M., Olszański R. The implementation of factor analysis for the evaluation of selected blood parameter changes induced by hyperbaric exposure. International Maritime Health. 2004, Tom 55, strony 87-101; Search in Google Scholar

21. Cole B. Decompression and computer assisted diving. brak miejsca : Dive Information Company, 1993. ISBN 0-9520934-0-5; Search in Google Scholar

22. Lepawsky M., Wong R. (ed.). Empirical diving techniques of commercial sea harvesters. Richmond: Undersea and Hyperbaric Medical Society Inc., 2001. Fiftieth Workshop of the Undersea and Hyperbaric Medical Society. ISBN 0-93406-21-4; Search in Google Scholar

23. Wienke B.R. Diving above sea level. Flagstaff : Best Publishing Co., 1993. ISBN 0-941332-30-6; Search in Google Scholar

24. Natural Environment Research Council. Code of practice for scientific diving 1974 London. London: Natural Environment Research Council, 1974; Search in Google Scholar

25. The effect of exercise during decompression. Vann R.D. Norfolk: Undersea and Hyperbaric Medical Society, Inc., 1982. Abstract of the Undersea and Hyperbaric Medical Society, Inc. Annual Scientific Meeting held June 1-5,1982 in Norfolk, Virginia. http://archive.rubicon-foundation.org/7279; Search in Google Scholar

26. Potential fifty percent reduction in saturation diving decompression time using a combination of intermittent recompression and exercise. Gernhardt M.L., Abercromby A.F., Conkin J. Kapalua Maui, Hawaii: Undersea and Hyperbaric Medical Society, Inc., June 14-16, 2007. Abstract of the Undersea and Hyperbaric Medical Society, Inc. Annual ScientScientific Meeting held. Ritz-Carlton. http://archive.rubicon-foundation.org/5140; Search in Google Scholar

27. Gerth W.A., Ruterbusch V.L., Long E.T. The influence of thermal exposure on diver susceptibility to decompression sickness. Panama City : Navy Experimental Diving Unit, 2007. NEDU TR 06-07;10.21236/ADA480118 Search in Google Scholar

28. DCIEM. Diving Manual. North York: Defence and Civil Institute of Environmental Medicine, 1995. DCIEM No. 86-R-35A; Search in Google Scholar

29. NOAA. Vertical excursions breathing air from nitrogen-oxygen or air saturation exposures. Rockville: National Oceanic and Atmospheric Administration, 1976. U.S. Government Printing Office 1976-210-801/366; Search in Google Scholar

30. Kłos R. Zastosowanie metod statystycznych w technice nurkowej - Skrypt. Gdynia: Polskie Towarzystwo Medycyny i Techniki Hiperbarycznej, 2007. ISBN 978-83-924989-26; Search in Google Scholar

31. Edmonds C., Lowry C., Pennefather J. Diving and subaquatic medicine. Oxford: Butterworth Heinemann Ltd, 1992; Search in Google Scholar

32. Bartosz G. Druga twarz tlenu - wolne rodniki w przyrodzie. Warszawa: Wydawnictwo Naukowe PWN, 2008. ISBN 978-83-01-13847-9; Search in Google Scholar

33. Langelüddecke J. Trimix for the BASF fire brigade. Dräger Review. 1996, Tom 76, January, strony 17-19; Search in Google Scholar

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