Cerebral Blood Flow Distribution During Parabolic Flight-induced Microgravity — GraCer  

Cerebral Blood Flow Clinical Trial

Official title: Effet de l'Impesanteur Sur la Distribution du débit Sanguin cérébral.

Status Enrolling by invitation

Clinical Trial Summary

When astronauts return from space flight, they manifest a set of symptoms, the most striking of which is orthostatic intolerance, that is, the inability to stay upright. This orthostatic intolerance is related to cardiovascular adaptation and disappears in a few days, but the prospect of long-term space travel makes this maladaptation a major concern of space agencies, at a time when there is serious consideration to make " land "a ship on Mars.

Previous studies suggest that brain vessel adaptation may contribute to spatial post-flight orthostatic intolerance. The question remains controversial because not all studies are consistent. These studies are all based on the measurement of blood flow in a single artery of the brain (the average cerebral, see cerebral circulation diagram) easily accessible with a Doppler ultrasound machine. Our team has good reason to believe that the adaptation of the cerebral vessels is not carried out in the same way in all the arteries of the brain and that in particular the arteries that irrigate the posterior and inferior parts of the brain are a major determinant. from cerebrovascular adaptation to orthostatism and that orthostatic intolerance is more specifically related to a decrease in blood flow in these arteries. On the other hand our team has shown that the external carotid artery plays, under certain conditions, a buffer role of the sudden variations of perfusion pressure of the brain.

During the weightless phase of parabolic flight, part of the blood from the legs and abdomen "rises" to the thorax and this transfer of fluid induces changes in blood pressure and cardiac output that affect the cerebral circulation. From a cardiovascular point of view, it is the same thing for a seated subject to lie down, but the parabolic flight offers the unique possibility of achieving this transfer in a fraction of a second and thus allowing to study the immediate response of the cerebral circulation. .

Investigators goal is therefore to quantify the changes in blood flow in the posterior and anterior territories of the brain (transcranial ultrasound) as well as in the internal carotid and vertebral (Doppler ultrasound) during changes in blood pressure and cardiac output induced by transfers. liquid resources associated with the transition to weightlessness.

The oxidative stress generated by weightlessness has been identified as a determining factor in cerebrovascular deconditioning associated with orthostatic intolerance. In order to quantify the biochemical markers of this stress, a venous sample will be taken before and just after the parabolic flight.

Clinical Trial Description

Parabolic flights make it possible to produce a reduced gravity environment on Earth. With the specially adapted A310 Zero-G, each parable produces a period of zero gravity ("0g"). The duration of the periods of reduced gravity is about 21 seconds. Each parable begins and ends with a resource (hyper-gravity) at 1.8 g; each resource lasts about 20 seconds. A typical flight lasts from two to three hours and includes 30 parabolic maneuvers, usually all in weightlessness.

Participants will arrive at Novespace, at Bordeaux-Mérignac Airport, no later than 2 pm the day before the first flight of the campaign in order to participate in the security briefing. A delay of at least 2 hours will be granted before collection of their written consent.

Before the flight, the participants will necessarily participate in the safety briefing (2h, organized by the Flight Manager (Novespace) and will meet the research team to become familiar with the procedures and devices that will be used during the experiment.

On the day of the flight, the participants will have to arrive at the premises of Novespace before 7.30am.

Before the flight, they will be prepared for flight recordings. Seven self-adhesive electrodes will be placed on the chest to measure the electrical activity of the heart and the blood volume in the chest.

A venous blood test to measure blood markers of oxidative stress will be performed by a doctor or a registered nurse.

Doppler and ultrasound operators will make blood flow measurements in the vertebral, internal carotid, posterior cerebral and anterior cerebral arteries) using an echo-doppler device. These measures are strictly non-invasive and painless. Participants can take medication against motion sickness under the supervision of the flight doctor. The duration of the study is a little less than 6 hours (2 hours before the flight, 3 hours flight, 30 minutes after the flight).

Preparation before parables, in the plane. In addition to the participant, two other subjects will be the participants of the flight, one will also be a subject, and the third will be a rescue participant who will be tested in case the subject or his partner falls ill during the flight. The flight includes 31 parables, but the first participant will be subject only for 16 parables and the second for 15.

When it is not subject, the participant is rid of equipment and can join the so-called "free floating" area to enjoy the sensations of weightlessness.

After takeoff, but before the first parable the subject (or the other participant) will sit on a chair built for the flight. His pelvis will be immobilized by restraints to prevent him from floating freely during the weightlessness.

It will be connected to different measuring equipment, all non-invasive:

An arterial pressure sensor on the finger. Electrotrocardiogram (connected to 3 self-adhesive electrodes) Thoracic impedance meter (connected to 4 self-adhesive electrodes) An oxygen scope (for measuring the expired CO2).

During the flight During each phase of weightlessness, an operator will apply on the neck or skull of the subject an ultrasound measurement probe (as on the ground). We recommend that participants do not move their head, especially during periods of hypergravity, to prevent motion sickness.

Except in exceptional circumstances, the aircraft normally completes the mission, but it must be clear that the subject is free to withdraw his consent and participation in the experiment at any time, without prejudice to him or to any other reason, without justification, including during the flight.

After the flight Following the flight, a second venous sample will be made to determine the effects of weightlessness on the markers of oxidative stress. ;

Related Conditions & MeSH terms

• Cerebral Blood Flow
• Weightlessness

• NCT number: NCT03986788
• Study type: Interventional
• Source: University Hospital, Caen
• Status: Enrolling by invitation
• Phase: N/A
• Start date: October 1, 2018
• Completion date: September 30, 2021