High-throughput oxygen therapy is known as an alternative to non-invasive ventilation, with a benefit in terms of survival in non-hypercapnic respiratory failure patients. The use of high-throughput oxygen therapy is well studied in stable chronic obstructive pulmonary disease (COPD) patients and has as known effects the decrease of transcutaneous CO2 and respiratory rate, and the increase in the inspiratory/expiratory time report, in the tidal volume and in the forced expiratory volume per second. In the event of an exacerbation, high-flow oxygen therapy has shown to be beneficial in terms of increased mean airway pressure, tidal volume with a decrease in hypercapnia, and respiratory rate. The net effect on the CO2 pressure is linked to the CO2 clearance of the dead anatomical space by the high throughput. The effect can be compared with the one of non invasive ventilation in a stable COPD patient. Oxygen therapy, even in patients with non-hypoxic COPD at rest, has benefits in terms of performance and improvement of quality of life. High-throughput oxygen therapy has also shown a benefit in COPD patients in revalidation units, in terms of exercise performance and oxygenation. However, the reconditioning of critical patients in acute situations, by means of nasal goggles, has never been studied.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
30
The measurements are carried out on a max effort of 12 minutes on a cyclometer ergometer with a constant load (Motomed viva2 light). A first effort is made with a Venturi type mask whose Inspired Fraction in Oxygen (FiO2) is set for a pulsated oxygen saturation (SpO2) greater than or equal to 85%, and then a second at 2h interval with high-throughput googles (Optiflow) with the corresponding FiO2.
CHU Brugmann
Brussels, Belgium
Pulsated oxygen saturation (Sp02)
SpO2 is an estimate of the amount of oxygen in the blood. More precisely, it represents the percentage of oxygenated hemoglobin (containing oxygen) relative to the total amount of hemoglobin in the blood (oxygenated hemoglobin and non-oxygenated hemoglobin).
Time frame: Baseline
Pulsated oxygen saturation (Sp02)
SpO2 is an estimate of the amount of oxygen in the blood. More precisely, it represents the percentage of oxygenated hemoglobin (containing oxygen) relative to the total amount of hemoglobin in the blood (oxygenated hemoglobin and non-oxygenated hemoglobin).
Time frame: 12 minutes (maximal effort)
Oxygen inspired fraction (FiO2)
Oxygen inspired fraction (FiO2) is the fraction or percentage of oxygen present in the gas mixture that a person breathes.
Time frame: Baseline
Oxygen inspired fraction (FiO2)
Oxygen inspired fraction (FiO2) is the fraction or percentage of oxygen present in the gas mixture that a person breathes.
Time frame: 12 minutes (maximal effort)
Blood gasometry
Arterial blood analysis
Time frame: Baseline
Blood gasometry
Arterial blood analysis
Time frame: 12 minutes (maximal effort)
Heart rate
The heart rate is the number of heartbeats per unit minute.
Time frame: Baseline
Heart rate
The heart rate is the number of heartbeats per minute.
Time frame: 12 minutes (maximal effort)
Respiratory rate
Number of breath cycles (inspiration and expiration) per minute.
Time frame: Baseline
Respiratory rate
Number of breath cycles (inspiration and expiration) per minute.
Time frame: 12 minutes (maximal effort)
Mean arterial pressure
Mean arterial pressure
Time frame: Baseline
Mean arterial pressure
Mean arterial pressure
Time frame: 12 minutes (maximal effort)
Systolic blood pressure
Systolic blood pressure (pressure in the artery as the heart contracts)
Time frame: Baseline
Systolic blood pressure
Systolic blood pressure (pressure in the artery as the heart contracts)
Time frame: 12 minutes (maximal effort)
Borg score
The Borg scale is a quantitative measure of the perception of effort during exercise. The scale between 0 and 10 was designed to approximate the heart rate of a healthy young adult (effort 8 represents 80% of the cardiac frequency).
Time frame: 12 minutes (maximal effort)
Forced expiratory volume per second (FEV1)
The "Forced Expiratory Volume Per Second" (FEV1) is the volume of air exhaled during the first second of a so-called "forced" exhalation, following deep inspiration. It is measured by spirometry.
Time frame: Baseline
Functional residual capacity (CFR)
Volume of air remaining in the airways after a spontaneous expiration (not forced)
Time frame: Baseline
Age
Age
Time frame: Baseline
Weight
Weight
Time frame: Baseline
Sex
Sex
Time frame: Baseline
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