Application of fluid-attenuated inversion recovery pulse sequence in children with tuberous sclerosis

Jerry Chin Wei Chien; Steven Shinn Forng Peng; Hon Man Liu; Kou Mou Huang; Yiu Wah Li

Application of fluid-attenuated inversion recovery pulse sequence in children with tuberous sclerosis

Jerry Chin Wei Chien, Steven Shinn Forng Peng, Hon Man Liu, Kou Mou Huang, Yiu Wah Li

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

Abstract

To evaluate the application of Fluid-Attenuated Inversion Recovery (FLAIR) pulse sequence to increase the sensitivity of detecting tubers in tuberous sclerosis patients compared with fast spin-echo T2-weighted (FSET2W) image, we obtained 12 magnetic resonance (MR) images in 10 patients (mean age = 57.7 months old). Among the 12 examinations, 114 cortical and 128 subcortical tubers were revealed on the FLAIR images, whereas 54 and 72 tubers were found respectively on the FSET2W images. This may be due to the FLAIR pulse sequences remarkably attenuated CSF signals in comparison with the FSET2W images. However, FSET2W image delineated more subependymal nodules than FLAIR imaging did. Gd-DTPA enhanced T/W image is the most suitable pulse sequence to detect giant cell astrocytoma near the foramen of Monro. The results in cases of infants and little children were similar.

Original language	English
Pages (from-to)	393-399
Number of pages	7
Journal	Acta Paediatrica Taiwanica
Volume	40
Issue number	6
Publication status	Published - Nov 1999
Externally published	Yes

Keywords

Flluid-attenuated inversion recovery
Pulse sequence
Tuberous sclerosis

ASJC Scopus subject areas

Pediatrics, Perinatology, and Child Health

Cite this

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title = "Application of fluid-attenuated inversion recovery pulse sequence in children with tuberous sclerosis",

abstract = "To evaluate the application of Fluid-Attenuated Inversion Recovery (FLAIR) pulse sequence to increase the sensitivity of detecting tubers in tuberous sclerosis patients compared with fast spin-echo T2-weighted (FSET2W) image, we obtained 12 magnetic resonance (MR) images in 10 patients (mean age = 57.7 months old). Among the 12 examinations, 114 cortical and 128 subcortical tubers were revealed on the FLAIR images, whereas 54 and 72 tubers were found respectively on the FSET2W images. This may be due to the FLAIR pulse sequences remarkably attenuated CSF signals in comparison with the FSET2W images. However, FSET2W image delineated more subependymal nodules than FLAIR imaging did. Gd-DTPA enhanced T/W image is the most suitable pulse sequence to detect giant cell astrocytoma near the foramen of Monro. The results in cases of infants and little children were similar.",

keywords = "Flluid-attenuated inversion recovery, Pulse sequence, Tuberous sclerosis",

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T1 - Application of fluid-attenuated inversion recovery pulse sequence in children with tuberous sclerosis

AU - Chien, Jerry Chin Wei

AU - Peng, Steven Shinn Forng

AU - Liu, Hon Man

AU - Huang, Kou Mou

AU - Li, Yiu Wah

PY - 1999/11

Y1 - 1999/11

N2 - To evaluate the application of Fluid-Attenuated Inversion Recovery (FLAIR) pulse sequence to increase the sensitivity of detecting tubers in tuberous sclerosis patients compared with fast spin-echo T2-weighted (FSET2W) image, we obtained 12 magnetic resonance (MR) images in 10 patients (mean age = 57.7 months old). Among the 12 examinations, 114 cortical and 128 subcortical tubers were revealed on the FLAIR images, whereas 54 and 72 tubers were found respectively on the FSET2W images. This may be due to the FLAIR pulse sequences remarkably attenuated CSF signals in comparison with the FSET2W images. However, FSET2W image delineated more subependymal nodules than FLAIR imaging did. Gd-DTPA enhanced T/W image is the most suitable pulse sequence to detect giant cell astrocytoma near the foramen of Monro. The results in cases of infants and little children were similar.

AB - To evaluate the application of Fluid-Attenuated Inversion Recovery (FLAIR) pulse sequence to increase the sensitivity of detecting tubers in tuberous sclerosis patients compared with fast spin-echo T2-weighted (FSET2W) image, we obtained 12 magnetic resonance (MR) images in 10 patients (mean age = 57.7 months old). Among the 12 examinations, 114 cortical and 128 subcortical tubers were revealed on the FLAIR images, whereas 54 and 72 tubers were found respectively on the FSET2W images. This may be due to the FLAIR pulse sequences remarkably attenuated CSF signals in comparison with the FSET2W images. However, FSET2W image delineated more subependymal nodules than FLAIR imaging did. Gd-DTPA enhanced T/W image is the most suitable pulse sequence to detect giant cell astrocytoma near the foramen of Monro. The results in cases of infants and little children were similar.

KW - Flluid-attenuated inversion recovery

KW - Pulse sequence

KW - Tuberous sclerosis

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Application of fluid-attenuated inversion recovery pulse sequence in children with tuberous sclerosis

Abstract

Keywords

ASJC Scopus subject areas

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