1. bookVolume 65 (2018): Issue 4 (December 2018)
Journal Details
License
Format
Journal
eISSN
2084-0535
First Published
30 Mar 2015
Publication timeframe
4 times per year
Languages
English
Open Access

Securing the hyperbaric treatment of decompression sickness in the polish navy

Published Online: 29 Mar 2019
Volume & Issue: Volume 65 (2018) - Issue 4 (December 2018)
Page range: 7 - 24
Received: 03 Sep 2018
Accepted: 20 Oct 2018
Journal Details
License
Format
Journal
eISSN
2084-0535
First Published
30 Mar 2015
Publication timeframe
4 times per year
Languages
English

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

2. Berghage T.E., Vorosmarti Jr. J., Barnard E.E.P. Recompression Treatment Tables Used Throughout the World by Government and Industry. Bethesda Maryland : US Naval Medical Research Center, 1978. NMRI 78-16;Search in Google Scholar

3. Wienke B.R. Basic decompression theory and application. Flagstaff : Best Publishing Co., 2003. ISBN 1-930536-14-3;Search in Google Scholar

4. Kłos R. Heliox saturation diving – theoretical basis to conduct dives and training. Edition II (revised). Gdynia : Polskie Towarzystwo Medycyny i Techniki Hiperbarycznej, 2014. ISBN 978-83-938322-1-7;Search in Google Scholar

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

6. Hills B.A. A thermodynamic and kinetic approach to decompression sickness. Adelaide : Libraries Board of South Australia, 1966. Occasional papers in physiology No 1;Search in Google Scholar

7. Kembłowski Z., Michałowski S., Strumiłło Cz. Zarzyski R. The theoretical bases of chemical engineering. Warsaw : Wydawnictwo Naukowo-Techniczne, 1985. ISBN 83-204-0649-8;Search in Google Scholar

8. 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, vol. 55, pp. 87-101;Search in Google Scholar

9. Kłos R. Diving apparatuses with regeneration of breathing gas mixture. Poznań : COOPgraf, 2000. ISBN 83-909187-2-2;Search in Google Scholar

10. Doolette D.J., Mitchell S.J. Biophysical basis for inner ear decompression sickness. J. Appl. Physiol. 2003, vol. 94, pp. 2145–2150;10.1152/japplphysiol.01090.2002Search in Google Scholar

11. Lambertsen C. J., Idicula J. A new gas lesion syndrome in man, induced by “isobaric gas counterdiffusion”. J. Appl. Physiol. 1975, vol. 39, 3, pp. 434-443;10.1152/jappl.1975.39.3.434Open DOISearch in Google Scholar

12. Lambertsen C.J. Studies in isobaric counterdiffusion. Filadelfia : Institute for Environmental Medicine, 1986;Search in Google Scholar

13. Strauss R.H. Diving medicine. New York : Grune & Stratton Inc., 1976. ISBN 0-8089-0699-2;Search in Google Scholar

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

15. US Navy diving manual. Collective work (revision 7). The Direction of Commander : Naval Sea Systems Command, 2011. SS521-AG-PRO-010 0910-LP-115-1921;Search in Google Scholar

16. Kłos R. The pathophysiology related to the toxic effect of oxygen. The hazard of central oxygen toxicity. Part 2. Polish Hyperbaric Research. 2, 2014, vol. 47, ISSN 1734-7009, pp. 15-34;10.13006/phr.47.2Search in Google Scholar

17. Wienke B.R. Technical diving in depth. Flagstaff : Best Publishing Co., 2001. ISBN 0-941332-97-7;Search in Google Scholar

18. Imbert J-P. Proposition of a perfusion limited model for isobaric counterdiffusion. Philadelphia : University of Pennsylvania Medical Center, 1975. Report Number 07-01-1975;Search in Google Scholar

19. Karreman G., Lambertsen C.J. Kinetics of isobaric counterdiffusion. Bulletin of Mathematical Biology. 1977, Vol. 39, ISSN 0092-8240, pp. 587-595;10.1016/S0092-8240(77)80060-8Search in Google Scholar

20. Kłos R. Possibilities of selection of oxygen-nitrox exposures for the AMPHORA dive device — assumptions for standard and experimental dives. Gdynia: Polskie Towarzystwo Medycyny i Techniki Hiperbarycznej, 2012. ISBN 978-83-924989-8-8;Search in Google Scholar

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

22. NOAA. NOAA diving manual - diving for science and technology. [ed.] Administration National Oceanic and Atmospheric. VI. Flagstaff : Best Publishing Co., 2017. ISBN 9781930536883;Search in Google Scholar

23. Praca zbiorowa. 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

24. NSO. Allied guide to diving medical disorders – national information. Edition A Version 1. Brussels : NATO Standardization Office (NSO), 2016. Standards Related Document ADivP-02.1 (STANAG 1432);Search in Google Scholar

25. Donald K.W. Oxygen Bends. J Appl Physiol. 1955, Vol. 7, pp. 639-644;10.1152/jappl.1955.7.6.63914381341Open DOISearch in Google Scholar

26. Donald K. Oxygen and the diver. Harley Swan : The SPA Ltd., 1992. ISBN 1-85421-176-5;Search in Google Scholar

27. Kłos R. Methods for treatment of decompression sickness developed during wreck penetration. Scientific Journal of Polish Naval Academy. 212, 2018, Tom 1, DOI: 10.2478/sjpna-2018-0002, pp. 27-53;10.2478/sjpna-2018-0002,pp.27-53Open DOISearch in Google Scholar

28. Przybyłowski T. Air travel safety for patients with chronic respiratory diseases. Medycyna po dyplomie. 11, 2010, Vol. 19, ISSN: 1689-4332, pp. 22-23.Search in Google Scholar

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