Brain oxygenation is determined by the product of CaO2 and the cerebral blood flow (CBF), the modification of one or the other can affect the neuronal O2 availability. Besides the effect of the PaO2, the CBF is also regulated by the PaCO2. During effort in state of hypoxia, the drop of the PaO2 associated to a potential decrease of the PaCO2 and therefore of the CBF, can create an important dizziness between the demand and the supply of cerebral O2. It seems that hypoxia can trouble in a significant way the response of central neurons, just as the production of a motor cortex generated motor command. Studies suggest that exercise in severe hypoxia condition can constitute a necessary threat for brain oxygenation and the motor command, with the consequence a decrease of the exercise performance. This projects aim to study effects of hypoxia on the brain function for patients suffering from chronic respiratory disease. Neurophysiologic responses of the brain while resting or exercising, including drip and cerebral oxygenation, cortical excitation and motor command resulting for hypoxic subjects before and after a treatment to correct abnormalities of gaz in blood. The study will use a multidisciplinary and supplementary methodological approach : the near-infrared spectroscopy (NIRS) to appreciate the drip and cerebral oxygenation, CBF, neurostimulation procedures and electromyography (EMG) to appreciate the cortical excitability, measure the level of central activation and motor command. The goals of this study will be : - Measure the drip and cerebral oxygenation, the cortical excitability, mechanisms of voluntary activation and central fatigue to the effort for the chronic hypoxemic patient compared to healthy control subjects. - Analyse disruptions of locomotion parameters and posturographyc, in simple and double task, involving different levels of cerebral task. - Analyse acute effects of an improvement of arterial oxygenation for patients suffering from chronic obstructive pulmonary disease (COPD) on drip and cerebral oxygenation, cortical excitability, mechanisms of voluntary activation and central fatigue. - Evaluate effects of a treatment by continuous positive airway pressure (CPAP) for patients suffering from obstructive sleep apnea (OSA) with the same parameters.

Brief Title

Brain During Effort : Effects of Hypoxia With Respiratory Patients

Official Title

Brain During Effort : Effects of Hypoxia With Respiratory Patients

Brief Summary

Brain oxygenation is determined by the product of CaO2 and the cerebral blood flow (CBF), the<br /> modification of one or the other can affect the neuronal O2 availability.<br /><br /> Besides the effect of the PaO2, the CBF is also regulated by the PaCO2. During effort in<br /> state of hypoxia, the drop of the PaO2 associated to a potential decrease of the PaCO2 and<br /> therefore of the CBF, can create an important dizziness between the demand and the supply of<br /> cerebral O2.<br /><br /> It seems that hypoxia can trouble in a significant way the response of central neurons, just<br /> as the production of a motor cortex generated motor command.<br /><br /> Studies suggest that exercise in severe hypoxia condition can constitute a necessary threat<br /> for brain oxygenation and the motor command, with the consequence a decrease of the exercise<br /> performance.<br /><br /> This projects aim to study effects of hypoxia on the brain function for patients suffering<br /> from chronic respiratory disease. Neurophysiologic responses of the brain while resting or<br /> exercising, including drip and cerebral oxygenation, cortical excitation and motor command<br /> resulting for hypoxic subjects before and after a treatment to correct abnormalities of gaz<br /> in blood.<br /><br /> The study will use a multidisciplinary and supplementary methodological approach : the<br /> near-infrared spectroscopy (NIRS) to appreciate the drip and cerebral oxygenation, CBF,<br /> neurostimulation procedures and electromyography (EMG) to appreciate the cortical<br /> excitability, measure the level of central activation and motor command.<br /><br /> The goals of this study will be :<br /><br /> - Measure the drip and cerebral oxygenation, the cortical excitability, mechanisms of<br /> voluntary activation and central fatigue to the effort for the chronic hypoxemic patient<br /> compared to healthy control subjects.<br /><br /> - Analyse disruptions of locomotion parameters and posturographyc, in simple and double<br /> task, involving different levels of cerebral task.<br /><br /> - Analyse acute effects of an improvement of arterial oxygenation for patients suffering<br /> from chronic obstructive pulmonary disease (COPD) on drip and cerebral oxygenation,<br /> cortical excitability, mechanisms of voluntary activation and central fatigue.<br /><br /> - Evaluate effects of a treatment by continuous positive airway pressure (CPAP) for<br /> patients suffering from obstructive sleep apnea (OSA) with the same parameters.

Outcome Measures

Outcome measures are the tests that investigators perform to prove whether or not a treatment being tested in a clinical trial is having any effect.