Abstract
Presence of an air pocket and its size play an important role in survival of victims buried in the avalanche snow. Even small air pockets facilitate breathing. We hypothesize that the size of the air pocket significantly affects the airflow resistance and work of breathing. The aims of the study are (1) to investigate the effect of the presence of an air pocket on gas exchange and work of breathing in subjects breathing into the simulated avalanche snow and (2) to test whether it is possible to breathe with no air pocket. The prospective interventional double-blinded study involved 12 male volunteers, from which 10 completed the whole protocol. Each volunteer underwent two phases of the experiment in a random order: phase “AP”—breathing into the snow with a one-liter air pocket, and phase “NP”—breathing into the snow with no air pocket. Physiological parameters, fractions of oxygen and carbon dioxide in the airways and work of breathing expressed as pressure-time product were recorded continuously. The main finding of the study is that it is possible to breath in the avalanche snow even with no air pocket (0 L volume), but breathing under this condition is associated with significantly increased work of breathing. The significant differences were initially observed for end-tidal values of the respiratory gases (EtO2 and EtCO2) and peripheral oxygen saturation (SpO2) between AP and NP phases, whereas significant differences in inspiratory fractions occurred much later (for FIO2) or never (for FICO2). The limiting factor in no air pocket conditions is excessive increase in work of breathing that induces increase in metabolism accompanied by higher oxygen consumption and carbon dioxide production. The presence of even a small air pocket reduces significantly the work of breathing.
Highlights
Avalanche burials represent one of the most dangerous risks associated with winter activities in the mountains
The main finding of this study was that it is possible to breathe in avalanche snow with no air pocket (0 L volume) in front of patent nose and oral cavity, but breathing under this condition was associated with significantly increased work of breathing
These results suggest two main conclusions: First, the extremely increased work of breathing immediately at the beginning of the experiment in no air pocket seems to be responsible for the doi:10.1371/journal.pone.0144332.g005
Summary
Avalanche burials represent one of the most dangerous risks associated with winter activities in the mountains. According to Falk et al [1], after 15 minutes under the avalanche snow the survival probability is 92%, and the survival rate drops precipitously to 30% in 35 minutes. Acute asphyxiation is the dominant cause of avalanche-related deaths [3,4,5]. Asphyxiation occurs as a consequence of blocked airways, or, due to a severe hypoxia and hypercapnia resulting from rebreathing previously exhaled gas. Snow is a porous material and if the exhaled gas is diverted from the space of gas suction using a specific device, a person buried in snow is able to sustain breathing longer than 60 minutes [6,7,8] or even 90 minutes [9]
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