Monitoring water content in deforming intervertebral disc tissue by finite element analysis of MRI data

I Kingma; J H van Dieën; K Nicolay; J. Maat; H. Weinans

Monitoring water content in deforming intervertebral disc tissue by finite element analysis of MRI data

I Kingma, J H van Dieën, K Nicolay, J. Maat, H. Weinans

Neuromechanics

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Abstract

Mechanical loading, occurring during normal daily life, causes fluid to be expelled from intervertebral discs. Excessive fluid loss during heavy loading might make the disc more vulnerable to damage. In this study, fluid loss was investigated in vitro through monitoring the loss of MRI signal intensity in four bovine coccygeal intervertebral discs, compressed at 2000 N during 1.5 hr. The MRI signals were analyzed with the aid of finite element models to account for the deformation of the tissue. A gradual signal loss over time was found during loading, the most pronounced loss occurring in the central disc region. Initial patterns of signal distribution were quite variable between specimens but repeatable within specimens.

Original language	English
Pages (from-to)	650-4
Number of pages	5
Journal	Magnetic Resonance in Medicine
Volume	44
Issue number	4
Publication status	Published - Oct 2000

Keywords

Animals
Body Water
Cattle
Coccyx
Finite Element Analysis
Intervertebral Disc
Magnetic Resonance Imaging
Weight-Bearing
Journal Article

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title = "Monitoring water content in deforming intervertebral disc tissue by finite element analysis of MRI data",

abstract = "Mechanical loading, occurring during normal daily life, causes fluid to be expelled from intervertebral discs. Excessive fluid loss during heavy loading might make the disc more vulnerable to damage. In this study, fluid loss was investigated in vitro through monitoring the loss of MRI signal intensity in four bovine coccygeal intervertebral discs, compressed at 2000 N during 1.5 hr. The MRI signals were analyzed with the aid of finite element models to account for the deformation of the tissue. A gradual signal loss over time was found during loading, the most pronounced loss occurring in the central disc region. Initial patterns of signal distribution were quite variable between specimens but repeatable within specimens.",

keywords = "Animals, Body Water, Cattle, Coccyx, Finite Element Analysis, Intervertebral Disc, Magnetic Resonance Imaging, Weight-Bearing, Journal Article",

author = "I Kingma and {van Die{\"e}n}, {J H} and K Nicolay and J. Maat and H. Weinans",

year = "2000",

month = oct,

language = "English",

volume = "44",

pages = "650--4",

journal = "Magnetic Resonance in Medicine",

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T1 - Monitoring water content in deforming intervertebral disc tissue by finite element analysis of MRI data

AU - Kingma, I

AU - van Dieën, J H

AU - Nicolay, K

AU - Maat, J.

AU - Weinans, H.

PY - 2000/10

Y1 - 2000/10

N2 - Mechanical loading, occurring during normal daily life, causes fluid to be expelled from intervertebral discs. Excessive fluid loss during heavy loading might make the disc more vulnerable to damage. In this study, fluid loss was investigated in vitro through monitoring the loss of MRI signal intensity in four bovine coccygeal intervertebral discs, compressed at 2000 N during 1.5 hr. The MRI signals were analyzed with the aid of finite element models to account for the deformation of the tissue. A gradual signal loss over time was found during loading, the most pronounced loss occurring in the central disc region. Initial patterns of signal distribution were quite variable between specimens but repeatable within specimens.

AB - Mechanical loading, occurring during normal daily life, causes fluid to be expelled from intervertebral discs. Excessive fluid loss during heavy loading might make the disc more vulnerable to damage. In this study, fluid loss was investigated in vitro through monitoring the loss of MRI signal intensity in four bovine coccygeal intervertebral discs, compressed at 2000 N during 1.5 hr. The MRI signals were analyzed with the aid of finite element models to account for the deformation of the tissue. A gradual signal loss over time was found during loading, the most pronounced loss occurring in the central disc region. Initial patterns of signal distribution were quite variable between specimens but repeatable within specimens.

KW - Animals

KW - Body Water

KW - Cattle

KW - Coccyx

KW - Finite Element Analysis

KW - Intervertebral Disc

KW - Magnetic Resonance Imaging

KW - Weight-Bearing

KW - Journal Article

M3 - Article

C2 - 11025523

VL - 44

SP - 650

EP - 654

JO - Magnetic Resonance in Medicine

JF - Magnetic Resonance in Medicine

SN - 0740-3194

IS - 4

ER -

Monitoring water content in deforming intervertebral disc tissue by finite element analysis of MRI data

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