Severe brain injury (SBI) is one of the world's leading causes of death and disability in young adults, but its peripheral vascular consequences in humans are poorly understood. This prospective, monocentric, pathophysiological study aims to investigate differences in vasoreactivity in the anterior aspect of the contralateral forearm at the most injured cerebral hemisphere between patients with severe head trauma and patients with severe trauma without associated brain injury matched on sex and age (+/- 5 years).
Severe brain injury (SBI) is one of the world's leading causes of death and disability in young adults. Its impact on cerebral vascularization is well known. At the systemic level, it induces transient dysfunctions that can develop into severe failures, even in cases of isolated SBI. Studies on a mouse model of SBI show alterations in peripheral vascular reactivity that persist over time and are linked to endothelial dysfunction, the mechanism of which is a decoupling of endothelial NO synthase in a context of systemic inflammation. However, no data are available regarding the peripheral vascular consequences of SBI in humans. The main objective of this prospective, monocentric, pathophysiological study is to determine whether the postocclusive hyperaemic response at the anterior surface of the contralateral forearm to the most injured cerebral hemisphere differs between patients with severe brain injury and patients with severe trauma without associated head injury matched on sex and age (+/- 5 years), by studying the amplitude of post-occlusive hyperaemia (maximum amplitude expressed as percentage of vasodilatation and area under the curve : AUC) as a function of the group.
Study Type
OBSERVATIONAL
Enrollment
30
University Hospital
Grenoble, France
RECRUITINGPost-occlusive hyperaemia
Maximum amplitude expressed as percentage of vasodilation and area under the curve: AUC
Time frame: 0-60 days
Post-occlusive hyperaemia with local anesthesia
Maximum amplitude expressed as percentage of vasodilation and area under the curve: AUC
Time frame: 0-60 days
Current-Induced Hyperaemia
Area under the curve expressed as a percentage of the baseline.
Time frame: 0-60 days
Current-Induced Hyperaemia with local anesthesia
Area under the curve expressed as a percentage of the baseline.
Time frame: 0-60 days
Local thermal hyperaemia
Maximum amplitude of the initial peak expressed as a percentage of the baseline and area under the curve of the delayed plateau.
Time frame: 0-60 days
Local thermal hyperaemia with local anesthesia
Maximum amplitude of the initial peak expressed as a percentage of the baseline and area under the curve of the delayed plateau.
Time frame: 0-60 days
Flow amplitude after local cooling
Amplitude of initial vasoconstriction averaged over 1 min around the lowest flow value during the first 5 minutes.
Time frame: 0-60 days
Transient venous post-compression hyperaemia
Area under the curve and percentage change from baseline.
Time frame: 0-60 days
Study of vasoreactivity in patients with severe brain injury
Extent of post-occlusive hyperaemia, current-induced hyperaemia, thermal hyperaemia and cold response in patients with severe brain injury.
Time frame: 0-60 days
Study of vasoreactivity in healthy subjects
Description of the magnitude of post-occlusive hyperaemia, current-induced hyperaemia, thermal hyperaemia and cold response in healthy subjects.
Time frame: Study visit
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