Normobaric hypoxia training in military aviation and subsequent hypoxia symptom recognition
Leinonen, Antti; Varis, Nikke; Kokki, Hannu; Leino, Tuomo K. (2021)
Leinonen, Antti
Varis, Nikke
Kokki, Hannu
Leino, Tuomo K.
2021
Tiivistelmä
ABSTRACT
Altitude hypoxia episodes are increasingly common in military aviation. Hypoxia training is man datory for fighter pilots, but evidence-based data on the effects of training are scarce. The pur pose of this study was to validate the normobaric hypoxia (NH) training effect. Data were
collected from 89 pilots from the Finnish Air Force (FINAF). This survey was conducted in a tac tical F/A-18C Hornet simulator in two sessions under normobaric conditions, in which the pilots
performed flight missions and breathed 21% oxygen (O2) in nitrogen (N2), and blinded to the
pilot, the breathing gas was changed to a hypoxic mixture containing either 8, 7 or 6% O2 in
N2. The time taken to notice hypoxia symptoms and peripheral capillary O2 saturation was
measured. A mean of 2.4 years after the initial training, pilots recognised their hypoxic symp toms 18 s quicker with 8% O2 mixture, 20 s quicker with 7% O2 and 10 s quicker with 6% O2.
Our data indicate that NH training in a flight simulator helps pilots to recognise hypoxia symp toms earlier, and may, thus, enhance flight safety.
Practitioner Summary: We show that hypoxia training enhances pilots’ ability to recognise
symptoms of acute normobaric hypoxic exposure up to 2.4 years after an initial NH training ses sion. Based on these data, refreshment NH training is nowadays mandatory every 3 years in the
FINAF as opposed to the North Atlantic Treaty Organisation (NATO) Standardisation Agreement
(STANAG) requirement of 5-year intervals between hypoxia trainings.
Abbreviations: O2: oxygen; TUC; time of usefull consciousness; SpO2: peripheral capillary oxy gen saturation; NATO: North Atlantic Treaty Organization; STANAG: stanrdization agreement; HH:
hypobaric hypoxia; NH: normobaric hypoxia; FINAF: finnish air force; N2: nitrogen; ECG: electro cardiogram
Altitude hypoxia episodes are increasingly common in military aviation. Hypoxia training is man datory for fighter pilots, but evidence-based data on the effects of training are scarce. The pur pose of this study was to validate the normobaric hypoxia (NH) training effect. Data were
collected from 89 pilots from the Finnish Air Force (FINAF). This survey was conducted in a tac tical F/A-18C Hornet simulator in two sessions under normobaric conditions, in which the pilots
performed flight missions and breathed 21% oxygen (O2) in nitrogen (N2), and blinded to the
pilot, the breathing gas was changed to a hypoxic mixture containing either 8, 7 or 6% O2 in
N2. The time taken to notice hypoxia symptoms and peripheral capillary O2 saturation was
measured. A mean of 2.4 years after the initial training, pilots recognised their hypoxic symp toms 18 s quicker with 8% O2 mixture, 20 s quicker with 7% O2 and 10 s quicker with 6% O2.
Our data indicate that NH training in a flight simulator helps pilots to recognise hypoxia symp toms earlier, and may, thus, enhance flight safety.
Practitioner Summary: We show that hypoxia training enhances pilots’ ability to recognise
symptoms of acute normobaric hypoxic exposure up to 2.4 years after an initial NH training ses sion. Based on these data, refreshment NH training is nowadays mandatory every 3 years in the
FINAF as opposed to the North Atlantic Treaty Organisation (NATO) Standardisation Agreement
(STANAG) requirement of 5-year intervals between hypoxia trainings.
Abbreviations: O2: oxygen; TUC; time of usefull consciousness; SpO2: peripheral capillary oxy gen saturation; NATO: North Atlantic Treaty Organization; STANAG: stanrdization agreement; HH:
hypobaric hypoxia; NH: normobaric hypoxia; FINAF: finnish air force; N2: nitrogen; ECG: electro cardiogram
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