Oxidative Stress Clinical Trial
Official title:
Pik Lenin High Altitude Research Expedition 2009, a Follow-up Project of the Muztagh Ata High Altitude Research Expedition 2005
Exposure to hypobaric hypoxia demands maximum effort of the body and can lead to high altitude illnesses. Recently, there is rising interest on coagulation activation during trekking and mountaineering in higher regions and on development of oxidative stress due to hypoxia. 30 volunteers have been examined during an high altitude research expedition to the 7134m high mount Pik Lenin in Kyrgyzstan to investigate mechanisms of coagulation activation and effects of antioxidant supplements on oxidative stress.
Reactions to acute exposure to high altitude and the process of acclimatization has been of
scientific interest since many years. High altitude illnesses are specified by three
different entities: acute mountain sickness (AMS), high altitude pulmonary edema (HAPE) and
high altitude cerebral edema (HACE). Prevalence of AMS is known to be between 10 to 20% for
altitudes between 4000 and 5000m, increasing significantly in higher altitude. The
prevalence depends on the ascent rate, individual susceptibility and physical exhaustion.
Although mechanisms leading to high altitude illnesses are not yet completely clear some
progress has been made. It is well accepted that excessive pulmonary hypertension may lead
to HAPE. Furthermore, there is rising evidence about endothelial dysfunction being involved
in disease progression. Some cellular and molecular mechanisms of acute (hypobaric) hypoxia,
possibly leading to endothelial dysfunction, have been studied in a few experimental and
field settings. Paradoxical increase in systemic oxidative stress is seen under hypoxic
conditions, such as high altitude stay. Reactive oxygen species (ROS) could be demonstrated
in many endothelial disorders and capillary leakage syndromes such as septicaemia,
myocardial infarct and stroke. Furthermore, coagulation activation might result from
endothelial dysfunction but also amplify endothelial interruption. Still, most of our
knowledge concerning effects of hypoxia in general but also concerning oxidative stress is
from in vitro studies (e.g. cancer cells).
In the context of a high altitude expedition human subjects can safely be submitted to
prolonged hypoxia to explore generation of ROS and extent of procoagulatory state.
Objective
The purpose of our study is to confirm excessive oxidative stress found in our previous
study in 2005 and to investigate whether oxidative stress during high altitude exposure can
be modified by dietary supplementations of specific antioxidants. Moreover, we like to study
mechanisms of coagulation activation by assessing extent of thrombocytic and endothelial
microparticles.
Methods
After approval of the study by the regional ethics committee, written informed consent has
been obtained from 30 healthy volunteers (low land residents with mountaineering experience,
age 18-65 years). After baseline testing, double-blind randomization into 2 groups of 15
persons took place. One group received oral medication with vitamin E, vitamin C, vitamin A
and acetylcystein daily, while the other group was provided with an identical appearing
placebo preparation. Substitution started 2 month before the expedition. After examination
at "ground 0" in Zurich (409m) all members underwent testing in Base Camp (3550m), twice in
advanced Base Camp (4550m), in Camp 1 (5430m), and in Camp 2 (6265m). Beside blood sampling,
clinical examinations were performed. Metabolomics, a mass-spectrometry based analysis, for
measurement of oxidative stress, will be performed. In a subgroup microparticles will be
detected by annexin V based ELISA and by flow cytometry using specific antibodies.
;
Allocation: Randomized, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Supportive Care
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