The incidence of deacclimatization to high altitude syndrome (DAHAS) prevailed up to 80% in highland troops, and 100% in manual workers, and severe DAHAS could significantly affects patients' health, work and life. So it is imperative to develop effective prevention and treatment measures for DAHAS. The present review analyzes effective prophylactic and therapeutic measures against DAHAS, implemented at our hospital.
Acclimatization ; Altitude ; Altitude Sickness ; prevention & control ; therapy ; Humans

Altitude ; Altitude Sickness ; prevention & control ; Health Services Administration ; Humans

Acute mountain sickness (AMS) is a clinical syndrome of multi-system physiological disorder after acute exposure to low pressure and low oxygen at high altitude. Quantitative proteomics can systematically quantify and describe protein composition and dynamic changes. In recent years, quantitative proteomics has been widely used in the prevention, diagnosis, treatment and pathogenesis of many diseases. This review summarizes the progress of quantitative proteomics techniques and its application in the prevention, diagnosis, treatment of AMS and mechanisms of rapidly acclimatizing to plateau, in order to provide a reference for the pathogenesis, early intervention, clinical treatment and proteomic research of AMS.
Humans ; Altitude Sickness/prevention & control* ; Proteomics ; Acute Disease ; Oxygen/metabolism*

OBJECTIVEWhile the technology of the molecular sieve oxygen generation system(MSOGS) onboard was used, pilots could not breathe pure oxygen to eliminate nitrogen during a high altitude flight. There is no report whether it is a threat to altitude decompression sickness(ADS) or not in that condition. This experiment was intended to observe the effects of breathing different oxygen-rich gases of MSOGS on denitrogenation, so that we could make the medical physiological requirements for MSOGS on-board and provide experimental basis for aeromedical supply.

METHODEight healthy males were breathed oxygen-rich gases (60%,70%,80%,90%and 99.6%) in turn for 60 min, and the concentration of nitrogen, oxygen, carbon dioxide and argon at the end of expiration interval in the oxygen mask were continuously measured by a flight mass spectrometer through the oxygen mask. According to the variety of the denitrogenation rate by breathing different oxygen-rich gases, its change law was analyzed.

RESULTSThere were significant differences (P < 0.05) about denitrogenation rate in different oxygen-rich gases due to different oxygen concentration and breathing time. The denitrogenation rate of pure oxygen was higher than that of the others. It was indicated that the concentration of nitrogen in lung would decrease along with the increase in oxygen concentration of oxygen-rich gases, and the nitrogen concentration in the lung almost decreased by 50% or even more if people were breathed 60%-90% oxygen-rich gas longer than 60 s.

CONCLUSIONThe man-made respiration environment of low nitrogen can be provided by breathing oxygen-rich gases, although the denitrogenation velocity of breathing oxygen-rich gases is lower than that of breathing pure oxygen. So it can be used as a measure to eliminate and lower the nitrogen in the body to prevent from ADS.

Altitude ; Altitude Sickness ; prevention & control ; Carbon Dioxide ; Decompression Sickness ; prevention & control ; Humans ; Male ; Nitrogen ; Oxygen ; therapeutic use ; Respiration

Acute altitude reaction is a stress response of organism to special altitude environmental factors such as hypoxia, low pressure, cold, dry and strong ultraviolet. As it is the most incident disease in high altitude areas, its prevention remains a problem to be solved. In China, the traditional Chinese (Tibetan) medicines have been recognized as an effective means of preventing and treating acute altitude sicknesses. Some single-recipe or compound traditional Chinese (Tibetan) medicines have been proved to be effective for acute altitude sicknesses. In this article, we will describe traditional Chinese (Tibetan) medicines of different types with efficacy in prevention and treatment of altitude sicknesses.
Acute Disease ; Altitude Sickness ; drug therapy ; prevention & control ; Humans ; Medicine, Chinese Traditional ; Medicine, Tibetan Traditional

AIMTo explore the influence of hyperbaric oxygen (HBO) preconditioning on anoxic resistance and anti-weariness at high altitude.

METHODS(1) SOD, MDA, NO, NOS, BLA and BUN of 20 youths living at 3 700 m altitude for half year were tested, then they were divided into group A (n=10, received HBO pretreatment twice) and group B (n=10, received HBO pretreatment 5 times) randomly. They were asked to pedal the EMG-bicycle-ergometer at the second and eighth day, and then the same items were tested. (2) 29 youth who would go to Astronomical Spot (5200 m) were randomly divided into group HBO (n=11, received HBO pretreatment once per day for 2 days at Yecheng (1400 m)) and comparison group (n=10). When they reached I Astronomical Spot, thematic biochemical index were investigated. (3) When 20 youth reached Thirty Milepost Barracks (3700 m) at the second day in their way to Immortal Gulf (5380 m) from Yecheng were randomly divided into group HBO (n=10, received HBO pretreatment once per day for 3 days) and comparison group (n=10). When they reached Immortal Gulf, the thematic biochemical index were investigated.

RESULTS(1) SOD, NO, NOS were increased and BLA, BUN, MDA were decrease in group A compared with that in group B until the eighth day, there was significant difference (P < 0.01). (2) SOD, NO, NOS were increased and BLA, BUN, MDA were decrease in group HBO compared with that in comparison that in group, there was significant difference between groups (P < 0.01, or P < 0.05).

CONCLUSIONHBO could enhance the activity of anti-oxidase and the cleared ability of lactic acid, and the effect of anti-weariness could last for 8 days.

Altitude ; Altitude Sickness ; prevention & control ; Fatigue ; prevention & control ; Humans ; Hyperbaric Oxygenation ; methods ; Hypoxia ; physiopathology ; Ischemic Preconditioning ; methods ; Male ; Oxidative Stress ; drug effects ; physiology ; Superoxide Dismutase ; metabolism ; Young Adult

Acclimatization ; physiology ; Altitude ; Altitude Sickness ; prevention & control ; Humans ; Hypoxia ; physiopathology ; Male ; Military Personnel ; Mountaineering ; physiology ; Oxygen Consumption ; physiology ; Physical Fitness ; physiology ; Young Adult

OBJECTIVETo explore the effect of prophylaxis on youth's chronic mountain sickness(CMS) who moved to an altitude of above 5 000 meters by long-term oxygen therapy (LTOT).

METHODSNinety-six male youth stationed at 5 070 m, 5 200 m and 5 380 m took oxygen continuously by nasal cannula (LTOT group) every body per day. One year later, epidemiological survey were carried out according to the international CMS diagnostic criteria consist of examining right ventricle end-diastolic dimension (RVED), right ventricular anterior wall (RVAW), right ventricular outflow tract (RVOT), main pulmonary artery (MPA), left ventricular end systolic diameter (LVSD) by ultrasonic diagnostic apparatus, and blood test of alanine aminotransferase (ALT), aspartate aminotransferase (AST), gamma-glutamyl transpeptidase (gamma-GT), creatine kinase (CK), lactate dehydrogenase (LDH), superoxide dismutase (SOD), malondialdehyde (MDA), nitric oxide (NO), nitric-oxide synthase (NOS) blood oxygen saturation (SaQ2). Then, they were compared with 91 males in the same group stationed at the same altitude (without any interventions, control group).

RESULTS(1) The epidemiological survey showed that, SaO2 were increased significantly (P < 0.05) and the prevalence rate of CMS were decreased compared with that of control group (P < 0.05). (2) Echocardiography showed that SOD, NO, NOS were increased (P < 0.05 or 0.01) and LVSD, MPA had no significant difference compared with that of control group (P > 0.05). (3) Biochemical index showed that, SOD, NO, NOS were increased (P < 0.05 or 0.01), MDA, ALT, AST, LDH were decreased (P < 0.05 or 0.01) and gamma-GT, CK had no significant difference compared with that of the control group.

CONCLUSIONAt high altitude, LTOT can reduce lipid peroxidation, improve the important organ injuries caused by hypoxia and protect the mitochondria respiratory function and play an important role on the prevention of chronic mountain sickness.

Adolescent ; Adult ; Altitude Sickness ; blood ; prevention & control ; Humans ; Male ; Oxygen ; administration & dosage ; therapeutic use ; Oxygen Inhalation Therapy ; Young Adult

OBJECTIVETo explore the effects of different doses of P-8 in increasing the Hypoxia tolerance of mice and the mechanisms involved.

METHODSThe health mice were placed into the oxygen deficit bottles and measured the survival time in the condition of hypoxia. The male mice were put into the ladder cage, then placed them into the hypobaric champer to determine the survival time of mice with decompression hypoxia (min). We observed the activity changes of the mice's organization carbonic anhydrase II (CAII). By using the drug in prophylaxis, we investigated the effects of carbonic anhydrase target-based inhibitors P-8 for improving the hypoxia tolerance.

RESULTS(1) In improving the endurance of mice in the condition of hypoxia, the survival time of 6.25 mg/(kg x d) and more doses of P-8 groups were (27.38 +/- 4.63, 29.53 +/- 4.43, 29.67 +/- 7.28, 31.55 +/- 6.34, 32.45 +/- 6.65, 36.81 +/- 7.24 and 35.41 +/- 4.20) min, compared with the control group (22.90 +/- 3.19) min , the survival time significantly prolonged (P < 0.05, P < 0.01); compared to the same dose of acetazolamide groups (24.54 +/- 3.17, 22.70 +/- 3.04, 22.67 +/- 2.99, 23.93 +/- 0.96, 27.87 +/- 5.06, 30.79 +/- 5.12 and 35.14 +/- 6.46) min, the survival time significantly prolonged; P-8 groups and Acetazolamide's minimum effective dose were 6.25 and 100 mg/(kg x d), the potency of P-8 is 16 times Acetazolamide. (2) In improving the endurance of mice in the condition of hypoxia, the survival time of middle and high doses of P-8 groups [(24.82 +/- -3.92, 28.27 +/- 5.89) min] were significantly longer than those in control group [(21.96 2.51) min, P < 0.05]; compared with the acetazolamide (23.11 +/- 3.71) min, the survival time of high dose of P-8 group was significantly prolonged. (3) Compared with the normal control group, P-8 [(25 mg/(kg x d), 50 mg/(kg x d), 100 mg/(kg x d), 200 mg/(kg x d)] dose groups inhibited the activity of carbonic anhydrase II (CAII) in the renal (P < 0.05, P < 0.01); P-8 [100 mg/(kg x d) and 200 mg/(kg x d)] dose group significantly inhibited the activity of carbonic anhydrase II (CA II) in the brain (P < 0.05).

CONCLUSIONP-8 treatment improved the endurance of mice in the condition of hypoxia and worked better than Acetazolamide. The mechanism may be related to the inhibition of carbonic anhydrase organization.

Adaptation, Physiological ; physiology ; Altitude Sickness ; prevention & control ; Animals ; Carbonic Anhydrase Inhibitors ; pharmacology ; therapeutic use ; Hypoxia ; physiopathology ; Male ; Mice

Critical care medicine (CCM) is one of the challenging issue in clinical practice. The key issues of CCM include acute lung injury, acute respiratory distress syndrome, and multiple organ dysfunction syndrome (MODS), generally termed as systemic inflammatory response syndrome (SIRS). When SIRS occurs at high altitude areas (H-SIRS), it will need be distinguished with an idiopathic acute high altitude sickness (generally termed as acute high altitude reaction syndrome), that make the differential diagnosis and treatment of H-SIRS even more difficult. It has became a high priority to properly address the relevant issues in this field: construction of disciplines; identification of speciality scopes; standardization of the diagnosis and treatment of CCM; and decreasing of the mortality of MODS at high altitude.
Acute Lung Injury ; diagnosis ; prevention & control ; therapy ; Altitude ; Altitude Sickness ; diagnosis ; Diagnosis, Differential ; Humans ; Multiple Organ Failure ; diagnosis ; prevention & control ; therapy ; Respiratory Distress Syndrome, Adult ; diagnosis ; prevention & control ; therapy ; Systemic Inflammatory Response Syndrome ; diagnosis ; prevention & control ; therapy