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Securing the hyperbaric treatment of decompression sickness in the polish navy

1 Decompression Sickness, R eferences 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; 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; 3. Wienke B.R. Basic decompression theory and application. Flagstaff : Best Publishing Co., 2003. ISBN 1-930536-14-3; 4. Kłos R

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A unique case of a 70-hour decompression sickness latency

References 1. Vann RD, Butler FK, Mitchell SJ, Moon RE. Decompression illness. The Lancet 2011;377:153-64. doi 10.1016/S0140-6736(10)61085-9 2. US Navy Supervisor of Diving. US Navy Diving manual, revision 6. Vol. 5. Washington (DC): US Naval Sea Systems Command; 2008 p. 20-25. 3. Francis TJR, Pearson RR, Robertson AG, Hodgson M, Dutka AJ, Flynn ET. Central nervous system decompression sickness: latency of 1070 human cases. Undersea Biomed Res 1989;6(15):403-17. PMID: 3067433 4. Desola AJ, San

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Methods for Treatment of Decompression Sickness Developed During Wreck Penetration

REFERENCES [1] Berghage T. E., Vorosmarti Jr. J., Barnard E. E. P., Recompression Treatment Tables Used Throughout the World by Government and Industry , NMRI 78-16, US Naval Medical Research Center, Bethesda Maryland 1978. [2] Doolette D. J., Mitchell S. J., Biophysical basis for inner ear decompression sickness , ‘J. Appl. Physiol.’, 2003, 94, pp. 2145–2150. [3] Hamilton R. W., Adams G. M., Harvey C. A., Knight D. R., SHAD-NISAT: A composite study of simulated shallow saturation diving , report No. 985, Naval Submarine Medical Research

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Analysis of Species Characteristics of Laboratory Animals in Reaction to Hyperbaric Environmental Conditions

conditions. Animal experiments, C. R. Soc. Biol. /Paris/ 195; 1750-1753; 4. Bennett P.B., Physiological problems of deep-sea diving, Meerestechnik 3: 177 - 185, Oct. 1972; 5. Bennett P.B. and Dossett A.N.,EEG activity of rats compressed by inert gases to 700 ft and oxygen-helium to 400 ft. Aerosp. Med. 44: 239-244, March 1973; 6. Berghage T.E., Conda K.J. and Armstrong F.W., The synergistic effect of pressure and oxygen and its relationship to decompression sickness in mice, U.S. Nav. Med. Res. Inst. and U.S. Navy Exp. Diving Unit, Res., Rep. 22-73, pg

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Detection of Patent foramen Ovale with Contrast Enhanced Transcranial Doppler at Divers

.1038/nrdp.2015.86; 7. Wilmshurst PT, Ellis BG, Jenkins BS. Paradoxical gas embolism in scuba diver with an atrial septal defect. Brit Med J1986;293:1277.DOI: 10.1136/bmj.293.6557.1277; 8. Guenzani S, Mereu D, Messersmith M, Olivari D. Arena M, Spano A, Inner-ear decompression sickness in nine trimix recreational divers. Diving Hyperb Med. 2016 Jun;46(2):111-6; 9. Vann RD, Butler FK, Mitchell SJ, Moon RE, Decompression Illness. Lancet. 2011. 2011 Jan 08;77(9760):153-64, DOI: 10.1016/S0140-6736(10)61085-9; 10. Schwerzmann M, Seiler C, Lipp E et al

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The not obvious obviousness…

-7009. Polish [Decompression sickness at the diver after the prolonged air diving on shallow depth – description of the case].

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The Water Cooling System in the Pool of the Dgkn-120 Hyperbaric Simulator Chamber

; 4. US Navy Diving Manual rev. 7 2016; 5. [23.05.2018] "Wpływ bilansu cieplnego nurka na ryzyko choroby dekompresyjnej" [The effect of diver's thermal balance on the risk of an occurrence of decompression sickness] http://www.atlantis.vizz.pl/Wplyw%20bilansu%20cieplnego%20nurka.html.

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Factor XII – A Limitation for Divers?

References 1. Kawashima M, Hayashi K, Torsiu T, Kitano M. Hystopathology of the early stage of osteonecrosis in vivers. Undersea Biomed Res 1977;4:409-417. 2. Kawashima M, Torisu T, Hayashi K, Kitano M. Pathological review of osteonecrosis in divers. Clin Orthop Relat Res 1978;130:107-117. 3. Kitano M. Three autopsy cases of acute decompression sickness-Consideration of pathogenesis about spinal cord damage in decompression sickness. J West Jap Orthop Traum 1977;26:402-408. 4. Kawashima M, Tamura

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Analysis of the risk of diving accidents in military and recreational diving

risk assessment decompression sickness in divers, Some problems of marine and diving medicine”; ed. Olszański R., Ed.II, WIM. 9. Zanchi J., Ljubkovic M., Denoble PJ., Dujic Z., Ranapurwala S., Pollock N. “Influence of repeated daily diving on decompression stress”; Int J Sports Med. 2014 Jun;35(6). 10. Simon J. Mitchell M.B. Alfred. Bove, M. “Medical Screening of Recreational Divers for Cardiovascular Disease: Consensus Discussion at the Divers Alert Network Recreational Diving Fatalities Workshop”. 11. Haas R., Hannam J., Sames C., Schmidt R

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Comments on nitrogen excretion from the diver’s organism during the reduced pressure at the final decompression station (< 1 ata)

. Dolatkowski A.: Collection of works published between 1929-1957. D-wo Mar.Woj. Gdynia 1957; 7. Łaba L.: The application of standard decompression norms in the prophylaxis of decompression sickness in divers. Evaluation of Polish Diving Tables. Biul. Inst. Med. Mor. Gdańsk nr ¾ XV, 157, 1964; 8. Marine Nationale: La Plongee. Arthand 1961; 9. M.O.N. Przepisy Służby Nurkowej Mar. Woj. Gdynia 1964; 10. Submarine Medicine Practice. Washington 1955; 11. Workman R.D.: report No 11-57. N. Exp. Div. Unit. Washington D.C. 1957.

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