Calculated Parameters for Assessing the Interaction of Fluids in the Central Nervous System According to Radiation Introscopy (Part I)

Calculated Parameters for Assessing the Interaction of Fluids in the Central Nervous System According to Radiation Introscopy (Part I)

The aim of this literature review is to consider the range of different integral characteristics and indices, by which it can be possible to evaluate impaired hemodynamics and cerebrospinal fluid dynamics in the central nervous system according to radiation introscopy, including ultrasound and phase...

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Main Authors: O. B. Bogomyakova, Yu. A. Stankevich, K. I. Kolpakov, S. E. Semenov, E. A. Yurkevich, A. P. Chupakhin, A. A. Tulupov, O. Yu. Borodin
Format: Article
Language:English
Published: LUCHEVAYA DIAGNOSTIKA, LLC 2020-09-01
Series:Вестник рентгенологии и радиологии
Subjects:
magnetic resonance imaging
central nervous system
hemodynamics
cerebrospinal fluid dynamics
pulsatility index
arteriovenous delay
review
Online Access:https://www.russianradiology.ru/jour/article/view/575
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spelling doaj-4652da6515ee4222bb020a5193084bd32021-09-15T15:32:25ZengLUCHEVAYA DIAGNOSTIKA, LLCВестник рентгенологии и радиологии0042-46762619-04782020-09-01101424425210.20862/0042-4676-2020-101-4-244-252344Calculated Parameters for Assessing the Interaction of Fluids in the Central Nervous System According to Radiation Introscopy (Part I)O. B. Bogomyakova0Yu. A. Stankevich1K. I. Kolpakov2S. E. Semenov3E. A. Yurkevich4A. P. Chupakhin5A. A. Tulupov6O. Yu. Borodin7International Tomography Center, Siberian Branch of the Russian Academy of SciencesInternational Tomography Center, Siberian Branch of the Russian Academy of SciencesNovosibirsk National Research State UniversityScientific Research Institute for Complex Issues of Cardiovascular DiseasesScientific Research Institute for Complex Issues of Cardiovascular Diseases,Novosibirsk National Research State University; Lavrentyev Institute of Hydrodynamics, Siberian Branch of the Russian Academy of SciencesInternational Tomography Center, Siberian Branch of the Russian Academy of Sciences; Novosibirsk National Research State UniversityScientific Research Institute of Cardiology, Tomsk National Research Medical Center, Russian Academy of SciencesThe aim of this literature review is to consider the range of different integral characteristics and indices, by which it can be possible to evaluate impaired hemodynamics and cerebrospinal fluid dynamics in the central nervous system according to radiation introscopy, including ultrasound and phase-contrast magnetic resonance imaging. Consideration is given to various volume-velocity and temporal parameters and the possibility of using the described characteristics to study joint blood and cerebrospinal fluid flows. Emphasis is laid on the analysis of the information provided by each of the indices and by the possibility of its clinical application. This expanded study of the interaction of fluids in the central nervous system will be able to give a better insight into the mechanisms involved in maintaining homeostasis in the brain.https://www.russianradiology.ru/jour/article/view/575magnetic resonance imagingcentral nervous systemhemodynamicscerebrospinal fluid dynamicspulsatility indexarteriovenous delayreview
collection DOAJ
language English
format Article
sources DOAJ
author O. B. Bogomyakova
Yu. A. Stankevich
K. I. Kolpakov
S. E. Semenov
E. A. Yurkevich
A. P. Chupakhin
A. A. Tulupov
O. Yu. Borodin
spellingShingle O. B. Bogomyakova
Yu. A. Stankevich
K. I. Kolpakov
S. E. Semenov
E. A. Yurkevich
A. P. Chupakhin
A. A. Tulupov
O. Yu. Borodin
Calculated Parameters for Assessing the Interaction of Fluids in the Central Nervous System According to Radiation Introscopy (Part I)
Вестник рентгенологии и радиологии
magnetic resonance imaging
central nervous system
hemodynamics
cerebrospinal fluid dynamics
pulsatility index
arteriovenous delay
review
author_facet O. B. Bogomyakova
Yu. A. Stankevich
K. I. Kolpakov
S. E. Semenov
E. A. Yurkevich
A. P. Chupakhin
A. A. Tulupov
O. Yu. Borodin
author_sort O. B. Bogomyakova
title Calculated Parameters for Assessing the Interaction of Fluids in the Central Nervous System According to Radiation Introscopy (Part I)
title_short Calculated Parameters for Assessing the Interaction of Fluids in the Central Nervous System According to Radiation Introscopy (Part I)
title_full Calculated Parameters for Assessing the Interaction of Fluids in the Central Nervous System According to Radiation Introscopy (Part I)
title_fullStr Calculated Parameters for Assessing the Interaction of Fluids in the Central Nervous System According to Radiation Introscopy (Part I)
title_full_unstemmed Calculated Parameters for Assessing the Interaction of Fluids in the Central Nervous System According to Radiation Introscopy (Part I)
title_sort calculated parameters for assessing the interaction of fluids in the central nervous system according to radiation introscopy (part i)
publisher LUCHEVAYA DIAGNOSTIKA, LLC
series Вестник рентгенологии и радиологии
issn 0042-4676
2619-0478
publishDate 2020-09-01
description The aim of this literature review is to consider the range of different integral characteristics and indices, by which it can be possible to evaluate impaired hemodynamics and cerebrospinal fluid dynamics in the central nervous system according to radiation introscopy, including ultrasound and phase-contrast magnetic resonance imaging. Consideration is given to various volume-velocity and temporal parameters and the possibility of using the described characteristics to study joint blood and cerebrospinal fluid flows. Emphasis is laid on the analysis of the information provided by each of the indices and by the possibility of its clinical application. This expanded study of the interaction of fluids in the central nervous system will be able to give a better insight into the mechanisms involved in maintaining homeostasis in the brain.
topic magnetic resonance imaging
central nervous system
hemodynamics
cerebrospinal fluid dynamics
pulsatility index
arteriovenous delay
review
url https://www.russianradiology.ru/jour/article/view/575
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