Sources of variation in multi-centre brain MTR histogram studies: body-coil transmission eliminates inter-centre differences

P S Tofts; S C A Steens; M Cercignani; F Admiraal-Behloul; P A M Hofman; M J P van Osch; W M Teeuwisse; D J Tozer; J H T M van Waesberghe; R Yeung; G J Barker; M A van Buchem

doi:https://doi.org/10.1007/s10334-006-0049-8

Sources of variation in multi-centre brain MTR histogram studies: body-coil transmission eliminates inter-centre differences

P S Tofts, S C A Steens, M Cercignani, F Admiraal-Behloul, P A M Hofman, M J P van Osch, W M Teeuwisse, D J Tozer, J H T M van Waesberghe, R Yeung, G J Barker, M A van Buchem

Radiology and Nuclear Medicine (VUmc)

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

OBJECT: 1. Identify sources of variation affecting Magnetisation Transfer Ratio (MTR) histogram reproducibility between-centres. 2. Demonstrate complete elimination of inter-centre difference.

MATERIALS AND METHODS: Six principle sources of variation were summarised and analysed. These are: the imager coil used for radiofrequency (RF) transmission, imager stability, the shape and other parameters describing the Magnetisation Transfer (MT) pulse, the MT sequence used (including its parameters), the image segmentation methodology, and the histogram generation technique. Transmit field nonuniformity and B1 errors are often the largest factors. PLUMB (Peak Location Uniformity in MTR histograms of the Brain) plots are a convenient way of visualising differences. Five multi-centres studies were undertaken to investigate and minimise differences.

RESULTS: Transmission using a body coil, with a close-fitting array of surface coils for reception, gave the best uniformity. Differences between two centres, having MR imagers from different manufacturers, were completely eliminated by using body coil excitation, making a small adjustment to the MT pulse flip angle, and carrying out segmentation at a single centre. Histograms and their peak location and height values were indistinguishable.

CONCLUSIONS: Body coil excitation is preferred for multi-centre studies. Analysis (segmentation and histogram generation) should ideally be carried out at a single site.

Original language	English
Pages (from-to)	209-22
Number of pages	14
Journal	Magnetic resonance materials in physics biology and medicine
Volume	19
Issue number	4
DOIs	https://doi.org/10.1007/s10334-006-0049-8
Publication status	Published - Sept 2006

Keywords

Artifacts
Brain Mapping
Brain/pathology
Human Body
Humans
Image Interpretation, Computer-Assisted
Image Processing, Computer-Assisted
Imaging, Three-Dimensional
Magnetic Resonance Imaging/instrumentation
Magnetics
Multicenter Studies as Topic
Radio Waves
Reproducibility of Results
Signal Processing, Computer-Assisted

Access to Document

https://doi.org/10.1007/s10334-006-0049-8

Cite this

Tofts, P. S., Steens, S. C. A., Cercignani, M., Admiraal-Behloul, F., Hofman, P. A. M., van Osch, M. J. P., Teeuwisse, W. M., Tozer, D. J., van Waesberghe, J. H. T. M., Yeung, R., Barker, G. J., & van Buchem, M. A. (2006). Sources of variation in multi-centre brain MTR histogram studies: body-coil transmission eliminates inter-centre differences. Magnetic resonance materials in physics biology and medicine, 19(4), 209-22. https://doi.org/10.1007/s10334-006-0049-8

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title = "Sources of variation in multi-centre brain MTR histogram studies: body-coil transmission eliminates inter-centre differences",

abstract = "OBJECT: 1. Identify sources of variation affecting Magnetisation Transfer Ratio (MTR) histogram reproducibility between-centres. 2. Demonstrate complete elimination of inter-centre difference.MATERIALS AND METHODS: Six principle sources of variation were summarised and analysed. These are: the imager coil used for radiofrequency (RF) transmission, imager stability, the shape and other parameters describing the Magnetisation Transfer (MT) pulse, the MT sequence used (including its parameters), the image segmentation methodology, and the histogram generation technique. Transmit field nonuniformity and B1 errors are often the largest factors. PLUMB (Peak Location Uniformity in MTR histograms of the Brain) plots are a convenient way of visualising differences. Five multi-centres studies were undertaken to investigate and minimise differences.RESULTS: Transmission using a body coil, with a close-fitting array of surface coils for reception, gave the best uniformity. Differences between two centres, having MR imagers from different manufacturers, were completely eliminated by using body coil excitation, making a small adjustment to the MT pulse flip angle, and carrying out segmentation at a single centre. Histograms and their peak location and height values were indistinguishable.CONCLUSIONS: Body coil excitation is preferred for multi-centre studies. Analysis (segmentation and histogram generation) should ideally be carried out at a single site.",

keywords = "Artifacts, Brain Mapping, Brain/pathology, Human Body, Humans, Image Interpretation, Computer-Assisted, Image Processing, Computer-Assisted, Imaging, Three-Dimensional, Magnetic Resonance Imaging/instrumentation, Magnetics, Multicenter Studies as Topic, Radio Waves, Reproducibility of Results, Signal Processing, Computer-Assisted",

author = "Tofts, {P S} and Steens, {S C A} and M Cercignani and F Admiraal-Behloul and Hofman, {P A M} and {van Osch}, {M J P} and Teeuwisse, {W M} and Tozer, {D J} and {van Waesberghe}, {J H T M} and R Yeung and Barker, {G J} and {van Buchem}, {M A}",

year = "2006",

month = sep,

doi = "https://doi.org/10.1007/s10334-006-0049-8",

language = "English",

volume = "19",

pages = "209--22",

journal = "Magnetic resonance materials in physics biology and medicine",

issn = "0968-5243",

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Tofts, PS, Steens, SCA, Cercignani, M, Admiraal-Behloul, F, Hofman, PAM, van Osch, MJP, Teeuwisse, WM, Tozer, DJ, van Waesberghe, JHTM, Yeung, R, Barker, GJ & van Buchem, MA 2006, 'Sources of variation in multi-centre brain MTR histogram studies: body-coil transmission eliminates inter-centre differences', Magnetic resonance materials in physics biology and medicine, vol. 19, no. 4, pp. 209-22. https://doi.org/10.1007/s10334-006-0049-8

TY - JOUR

T1 - Sources of variation in multi-centre brain MTR histogram studies

T2 - body-coil transmission eliminates inter-centre differences

AU - Tofts, P S

AU - Steens, S C A

AU - Cercignani, M

AU - Admiraal-Behloul, F

AU - Hofman, P A M

AU - van Osch, M J P

AU - Teeuwisse, W M

AU - Tozer, D J

AU - van Waesberghe, J H T M

AU - Yeung, R

AU - Barker, G J

AU - van Buchem, M A

PY - 2006/9

Y1 - 2006/9

N2 - OBJECT: 1. Identify sources of variation affecting Magnetisation Transfer Ratio (MTR) histogram reproducibility between-centres. 2. Demonstrate complete elimination of inter-centre difference.MATERIALS AND METHODS: Six principle sources of variation were summarised and analysed. These are: the imager coil used for radiofrequency (RF) transmission, imager stability, the shape and other parameters describing the Magnetisation Transfer (MT) pulse, the MT sequence used (including its parameters), the image segmentation methodology, and the histogram generation technique. Transmit field nonuniformity and B1 errors are often the largest factors. PLUMB (Peak Location Uniformity in MTR histograms of the Brain) plots are a convenient way of visualising differences. Five multi-centres studies were undertaken to investigate and minimise differences.RESULTS: Transmission using a body coil, with a close-fitting array of surface coils for reception, gave the best uniformity. Differences between two centres, having MR imagers from different manufacturers, were completely eliminated by using body coil excitation, making a small adjustment to the MT pulse flip angle, and carrying out segmentation at a single centre. Histograms and their peak location and height values were indistinguishable.CONCLUSIONS: Body coil excitation is preferred for multi-centre studies. Analysis (segmentation and histogram generation) should ideally be carried out at a single site.

AB - OBJECT: 1. Identify sources of variation affecting Magnetisation Transfer Ratio (MTR) histogram reproducibility between-centres. 2. Demonstrate complete elimination of inter-centre difference.MATERIALS AND METHODS: Six principle sources of variation were summarised and analysed. These are: the imager coil used for radiofrequency (RF) transmission, imager stability, the shape and other parameters describing the Magnetisation Transfer (MT) pulse, the MT sequence used (including its parameters), the image segmentation methodology, and the histogram generation technique. Transmit field nonuniformity and B1 errors are often the largest factors. PLUMB (Peak Location Uniformity in MTR histograms of the Brain) plots are a convenient way of visualising differences. Five multi-centres studies were undertaken to investigate and minimise differences.RESULTS: Transmission using a body coil, with a close-fitting array of surface coils for reception, gave the best uniformity. Differences between two centres, having MR imagers from different manufacturers, were completely eliminated by using body coil excitation, making a small adjustment to the MT pulse flip angle, and carrying out segmentation at a single centre. Histograms and their peak location and height values were indistinguishable.CONCLUSIONS: Body coil excitation is preferred for multi-centre studies. Analysis (segmentation and histogram generation) should ideally be carried out at a single site.

KW - Artifacts

KW - Brain Mapping

KW - Brain/pathology

KW - Human Body

KW - Humans

KW - Image Interpretation, Computer-Assisted

KW - Image Processing, Computer-Assisted

KW - Imaging, Three-Dimensional

KW - Magnetic Resonance Imaging/instrumentation

KW - Magnetics

KW - Multicenter Studies as Topic

KW - Radio Waves

KW - Reproducibility of Results

KW - Signal Processing, Computer-Assisted

U2 - https://doi.org/10.1007/s10334-006-0049-8

DO - https://doi.org/10.1007/s10334-006-0049-8

M3 - Article

C2 - 16957936

SN - 0968-5243

VL - 19

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EP - 222

JO - Magnetic resonance materials in physics biology and medicine

JF - Magnetic resonance materials in physics biology and medicine

IS - 4

ER -