An Experimental Study of Relationship Between Magnetic Induction Phase Shift and Brain Parenchyma Volume With Brain Edema in Traumatic Brain Injury

An Experimental Study of Relationship Between Magnetic Induction Phase Shift and Brain Parenchyma Volume With Brain Edema in Traumatic Brain Injury

As a very common secondary disease after traumatic brain injury (TBI), brain edema can lead to increased intracranial water content and elevated intracranial pressure (ICP), which makes the patient suffer a less favorable prognosis outcome such as hemiplegia, aphasia, dysgnosia, and even death. Its...

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Main Authors: Shuanglin Zhao, Gen Li, Shanshan Gu, Jian Ren, Jingbo Chen, Lin Xu, Mingsheng Chen, Jun Yang, Kwok Wa Leung, Jian Sun
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
Cerebral edema
magnetic induction
intracranial pressure
brain water content
Online Access:https://ieeexplore.ieee.org/document/8638776/
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spelling doaj-0cc904e1908f419fbc1992bfcdb54c992021-03-29T22:03:37ZengIEEEIEEE Access2169-35362019-01-017209742098310.1109/ACCESS.2019.28976098638776An Experimental Study of Relationship Between Magnetic Induction Phase Shift and Brain Parenchyma Volume With Brain Edema in Traumatic Brain InjuryShuanglin Zhao0Gen Li1Shanshan Gu2Jian Ren3Jingbo Chen4Lin Xu5Mingsheng Chen6Jun Yang7Kwok Wa Leung8Jian Sun9https://orcid.org/0000-0002-4868-5905College of Biomedical Engineering, Army Medical University, Chongqing, ChinaSchool of Pharmacy and Bioengineering, Chongqing University of Technology, Chongqing, ChinaDepartment of Clinical Psychology, Southwest Hospital, Chongqing, ChinaDepartment of Electronic Engineering, City University of Hong Kong, Hong KongCollege of Biomedical Engineering, Army Medical University, Chongqing, ChinaCollege of Biomedical Engineering, Army Medical University, Chongqing, ChinaCollege of Biomedical Engineering, Army Medical University, Chongqing, ChinaCollege of Biomedical Engineering, Army Medical University, Chongqing, ChinaDepartment of Electronic Engineering, City University of Hong Kong, Hong KongCollege of Biomedical Engineering, Army Medical University, Chongqing, ChinaAs a very common secondary disease after traumatic brain injury (TBI), brain edema can lead to increased intracranial water content and elevated intracranial pressure (ICP), which makes the patient suffer a less favorable prognosis outcome such as hemiplegia, aphasia, dysgnosia, and even death. Its realtime monitoring is of great significance for improving the therapeutic condition of TBI and reducing the mortality and disability rate. Magnetic induction phase shift (MIPS) has the advantages of non-invasive, non-contact, strong penetration, and real-time bedside monitoring. In this work, 34 rabbits divided into the experimental group (n = 26) and control group (n = 8) were used to carry out 24-h MIPS monitoring in brain edema. Meanwhile, ICP and brain water content (BWC) were chosen as references. The MIPS of rabbits in the experimental group decreased continuously in 24 h, while the ICP and BWC increased. Furthermore, MIPS detection sensitivity became lower and lower within the development of brain edema. The weights of ICP and BWC estimated by MIPS in three different stages were calculated to get the index of brain edema severity (BESI), which can evaluate the severity of brain edema. The BESI of rabbits in the experimental group increased over time, ranging from 0 to 1. The 0 represents normal, and the 1 represents severe brain edema. The first stage of BESI changed from 0 to 0.43, the second stage from 0.43 to 0.917, and the third stage from 0.917 to 1. The BESI of rabbits in the control group did not increase obviously within time. There were significant differences among them. Through the comparative experimental study of MIPS, ICP, and BWC on rabbits with brain edema, a more effective and direct parameter was found, which can promote the application value of MIPS in the real-time bedside monitoring of brain edema.https://ieeexplore.ieee.org/document/8638776/Cerebral edemamagnetic inductionintracranial pressurebrain water content
collection DOAJ
language English
format Article
sources DOAJ
author Shuanglin Zhao
Gen Li
Shanshan Gu
Jian Ren
Jingbo Chen
Lin Xu
Mingsheng Chen
Jun Yang
Kwok Wa Leung
Jian Sun
spellingShingle Shuanglin Zhao
Gen Li
Shanshan Gu
Jian Ren
Jingbo Chen
Lin Xu
Mingsheng Chen
Jun Yang
Kwok Wa Leung
Jian Sun
An Experimental Study of Relationship Between Magnetic Induction Phase Shift and Brain Parenchyma Volume With Brain Edema in Traumatic Brain Injury
IEEE Access
Cerebral edema
magnetic induction
intracranial pressure
brain water content
author_facet Shuanglin Zhao
Gen Li
Shanshan Gu
Jian Ren
Jingbo Chen
Lin Xu
Mingsheng Chen
Jun Yang
Kwok Wa Leung
Jian Sun
author_sort Shuanglin Zhao
title An Experimental Study of Relationship Between Magnetic Induction Phase Shift and Brain Parenchyma Volume With Brain Edema in Traumatic Brain Injury
title_short An Experimental Study of Relationship Between Magnetic Induction Phase Shift and Brain Parenchyma Volume With Brain Edema in Traumatic Brain Injury
title_full An Experimental Study of Relationship Between Magnetic Induction Phase Shift and Brain Parenchyma Volume With Brain Edema in Traumatic Brain Injury
title_fullStr An Experimental Study of Relationship Between Magnetic Induction Phase Shift and Brain Parenchyma Volume With Brain Edema in Traumatic Brain Injury
title_full_unstemmed An Experimental Study of Relationship Between Magnetic Induction Phase Shift and Brain Parenchyma Volume With Brain Edema in Traumatic Brain Injury
title_sort experimental study of relationship between magnetic induction phase shift and brain parenchyma volume with brain edema in traumatic brain injury
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2019-01-01
description As a very common secondary disease after traumatic brain injury (TBI), brain edema can lead to increased intracranial water content and elevated intracranial pressure (ICP), which makes the patient suffer a less favorable prognosis outcome such as hemiplegia, aphasia, dysgnosia, and even death. Its realtime monitoring is of great significance for improving the therapeutic condition of TBI and reducing the mortality and disability rate. Magnetic induction phase shift (MIPS) has the advantages of non-invasive, non-contact, strong penetration, and real-time bedside monitoring. In this work, 34 rabbits divided into the experimental group (n = 26) and control group (n = 8) were used to carry out 24-h MIPS monitoring in brain edema. Meanwhile, ICP and brain water content (BWC) were chosen as references. The MIPS of rabbits in the experimental group decreased continuously in 24 h, while the ICP and BWC increased. Furthermore, MIPS detection sensitivity became lower and lower within the development of brain edema. The weights of ICP and BWC estimated by MIPS in three different stages were calculated to get the index of brain edema severity (BESI), which can evaluate the severity of brain edema. The BESI of rabbits in the experimental group increased over time, ranging from 0 to 1. The 0 represents normal, and the 1 represents severe brain edema. The first stage of BESI changed from 0 to 0.43, the second stage from 0.43 to 0.917, and the third stage from 0.917 to 1. The BESI of rabbits in the control group did not increase obviously within time. There were significant differences among them. Through the comparative experimental study of MIPS, ICP, and BWC on rabbits with brain edema, a more effective and direct parameter was found, which can promote the application value of MIPS in the real-time bedside monitoring of brain edema.
topic Cerebral edema
magnetic induction
intracranial pressure
brain water content
url https://ieeexplore.ieee.org/document/8638776/
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