Hyperbaric Oxygen Therapy Clinical Trial
Official title:
Effect of Hyperbaric Oxygen Therapy on Healthy Volunteers Microcirculation
Previous studies shoes that hyperoxia alters microcirculation.The investigators hypothesize
that hyperbaric may restore microcirculation integrity. This hypothesis is supported by a
recent study in rabbits, but no data exists for humans.
The study will expose fifteen healthy volunteers to a succession of different fraction of
inspired oxygen and barometric pressure and assess microcirculatory and macrocirculatory
changes via sidestream dark field videomicroscopy, near-infrared spectroscopy, Laser Doppler,
transthoracic echocardiography and bio-impedancemetry at every step.
Microcirculation alterations and hyperoxia are known to alter ICU-patients' prognostic.
Studies have shown that hyperoxia alters healthy volunteers' microcirculation, whereas
hyperbaric oxygen therapy is commonly used to facilitate cicatrization. There seems to be a
paradox. A recent study in rabbits has given some evidences that hyperbaria may restore
microcirculation integrity, but to date, there is no such evidences in human.
To study hyperoxia and hyperbaric induced changes in micro and macrocirculation, fifteen
healthy volunteers will be exposed to successive variations of inspired oxygen fraction and
barometric pressure according to a predefine sequence so that only one parameter will change
from a condition to the next one :
1. FiO2 0.21 - 1 ATA
2. FiO2 1 - 1 ATA
3. FiO2 1 - 2.5 ATA
4. FiO2 0.21 - 2.5 ATA
5. FiO2 0.21 - 1 ATA
At each time, and after a 30 minutes period of exposure, measures will be made using
SDF-microscopy, Laser Doppler and NIRS to assess microcirculation.
As previously described, macrocirculation can modify microcirculation due to a mechanism
called hemodynamic coherence.
Hence, the investigators planned to assess macrocirculation changes at every step of the
protocol using bioimpedancemetry and transthoracic echocardiography.
Each volunteer will be his own control, using the first measurements (condition 1. FiO2 0.21
- 1 ATA) as reference.
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