Assessment of disorders of hemodynamics and csf dynamics in idiopathic intracranial hypertension syndrome according to MRI data

Abstract

Highlights. An increase in the pulsatility index of intracranial venous blood flow and cerebrospinal fluid flow at the foramen magnum level, and a decrease in arteriovenous delay and an intracranial compliance index indicate disturbances in the pulse wave distribution, and a decrease in compliance/extensibility of the brain due to increased intracranial pressure.Aim. To assess the parameters of hemodynamics and cerebrospinal fluid dynamics in patients with idiopathic intracranial hypertension syndrome according to phase-contrast MRI.Methods. The study included 18 patients with idiopathic intracranial hypertension syndrome and 20 controls, all patient were examined using the Ingenia 3,0T MRI scanner. The analysis was performed using phase-contrast MRI to assess quantitative parameters of hemodynamics and cerebrospinal fluid (CSF) dynamics in 14 different structures. The blood and CSF volumes, pulsatility index (PI), arterio-venous delay, and intracranial compliance index were calculated. The Mann-Whitney U-test reliability was used to assess the differences between the controls and patients.Results. The group of patients had an increased CSF systolic peak at the foramen magnum without significant changes in CSF volume, and significantly increased CSF PI at the cervical level by 11.88% (p<0,05). There was a tendency toward an increase in the intracranial venous blood volume, as well as a tendency toward significant increase in PI at the straight and superior sagittal sinuses by 1,3 times (p><0,01, p><0,05). Moreover, there was a reduction of intracranial arterio-venous delay by 1,9 times (p><0,05), and a significant decrease in the intracranial compliance index by 1,2 times (p><0,05). Conclusion We have assessed the parameters of hemodynamics and CSF dynamics in patients with idiopathic intracranial hypertension and revealed disturbances in CSF dynamics and pulse wave propagation in the intracranial regions. Such changes may indicate a decrease in compliance/increase in stiffness of the brain tissue due to an increase in intracranial pressure and a possible diffuse stagnation of interstitial fluid. Keywords Phase-contrast magnetic resonance imaging • Central nervous system • Idiopathic intracranial hypertension • Hemodynamics • Cerebrospinal fluid dynamics • Intracranial compliance index>˂0,05). There was a tendency toward an increase in the intracranial venous blood volume, as well as a tendency toward significant increase in PI at the straight and superior sagittal sinuses by 1,3 times (p˂0,01, p˂0,05). Moreover, there was a reduction of intracranial arterio-venous delay by 1,9 times (p˂0,05), and a significant decrease in the intracranial compliance index by 1,2 times (p˂0,05).Conclusion. We have assessed the parameters of hemodynamics and CSF dynamics in patients with idiopathic intracranial hypertension and revealed disturbances in CSF dynamics and pulse wave propagation in the intracranial regions. Such changes may indicate a decrease in compliance/increase in stiffness of the brain tissue due to an increase in intracranial pressure and a possible diffuse stagnation of interstitial fluid.