|1.||Burykh, E A: 2 articles (01/2012 - 05/2010)|
|2.||Sicko, Zdzislaw: 1 article (01/2015)|
|3.||Doboszynski, Tadeusz: 1 article (01/2015)|
|4.||Kot, Jacek: 1 article (01/2015)|
|5.||Hobbs, Malcolm B: 1 article (11/2014)|
|6.||Heinonen, Ilkka: 1 article (01/2014)|
|7.||Koskenvuo, Juha: 1 article (01/2014)|
|8.||Nikinmaa, Mikko: 1 article (01/2014)|
|9.||Saraste, Antti: 1 article (01/2014)|
|10.||Knuuti, Juhani: 1 article (01/2014)|
11/01/2014 - "Impairment from gas narcosis when breathing air and enriched air nitrox underwater."
09/01/1999 - "The aim of this study is to compare two narcotic environments; a normobaric narcosis under several percentages of nitrous oxide, and an hyperbaric narcosis under 0.9 MPa of Nitrox (N2O2 mixture). "
03/01/2009 - "Heliox seems to be favored because it causes fewer problems during the recompression of divers, and above all, because nitrox can cause narcosis and contributes nitrogen. "
07/01/1998 - "The aim of this study is to compare, in the Sprague-Dawley rats striatium, changes in extracellular concentrations of Dopamine and its metabolites: Dihydroxyphenylacetic Acid (DOPAC) and Homovanillic Acid (HVA) under a normobaric narcosis (20; 40, and 60% of Nitrous Oxide (N2O)) on one hand, and under 0.9 MegaPascal of Nitrox (Nitrogen Oxygen normoxic mixture) on the other hand. "
05/01/2003 - "In each trial they were immersed in 28 degrees C water for 90 min, and inspired either room air (air trial) or a hypoxic gas mixture (hypoxia trial; 11.5% O2/88.5% N2). "
01/01/2012 - "The influence of acute normobaric hypoxia on NO metabolites level of the blood serum in volunteers at respiration of hypoxic gas mixture containing 8 % of O2 during 25 min was investigated. "
06/01/2002 - "Measurements were conducted in normoxemia, then during a 30-min period of hypoxemia (PaO2 = 56 mmHg) produced by inhalation of an hypoxic gas mixture. "
01/01/1998 - "Chronically instrumented fetal sheep were used and the ewes were induced to breathe a hypoxic gas mixture for about 90 min. This caused an initial period of hypoxemia followed by a period of mixed hypoxemia/acidemia. "
06/01/1996 - "After a minimum of 4 days of postoperation, hypoxemia was induced by having the ewe breathe a hypoxic gas mixture (10% O2, 3% CO2, in N2) for 30 min. Maternal PO2 decreased from 84 to 40 mmHg, and fetal PO2 decreased from 22 to 16 mmHg. "
09/01/1990 - "A bronchial divider was inserted, the right lung was ventilated with 100% O2, and the left lung was ventilated with either 100% O2 (hyperoxia) or a hypoxic gas mixture (hypoxia). "
03/01/1990 - "A bronchial divider was inserted, the right lung (RL) was continuously ventilated with 100% O2, and the left lung (LL) was ventilated with either 100% O2 (hyperoxia) or a hypoxic gas mixture (hypoxia). "
08/01/1989 - "The right lung (RL) was continuously ventilated with 100% O2, and the LLL was ventilated with either 100% O2 (hyperoxia) or a hypoxic gas mixture (hypoxia). "
10/01/1987 - "The right lung was ventilated continuously with 100% O2, while the left lung was ventilated with either 100% O2 ("hyperoxia") or with an hypoxic gas mixture ("hypoxia": end-tidal PO2 = 50.1 +/- 0.1 mmHg). "
08/01/1988 - "The left lung was initially ventilated with 100% O2 (hyperoxia) but subsequently underwent either reabsorption atelectasis (atelectasis; group I) or ventilation with a hypoxic gas mixture (hypoxia; group II). "
|5.||Decompression Sickness (Bends)
09/01/1995 - "A probabilistic model of decompression sickness (DCS) risk based on linear-exponential (LE) kinetics has given the best fit of the human air and nitrox DCS database. "
01/01/1995 - "Evaluation of the risk of decompression sickness in saturated nitrox diving by examination of haemostasis."
07/01/1993 - "Nine volunteer divers served as subjects for nitrox (-a: 60% N2 and 40% O2, and -b: 67.5% N2 and 32.5% O2) and air chamber dives of 20 m/60 min, 30 m/60 min and 40 m/60 min. Venous gas emboli (VGE) were examined after surfacing in a series of nitrox dives and of air dives to compare the risks of decompression sickness (DCS). "
07/01/1993 - "[Experimental studies of the effects of enriched air nitrox dive on shortening of decompression time and reduction of risks of decompression sickness]."
07/01/1993 - "Enriched air nitrox diving has been conducted to shorten decompression time as well as to reduce risks of decompression sickness. "
|3.||Nitrous Oxide (Laughing Gas)
|7.||Methacholine Chloride (Methacholine)
|4.||Investigational Therapies (Experimental Therapy)