High resolution MRI of the brain at 4.7 Tesla using fast spin echo imaging

Vita, Enrico De; Thomas, David L.; Roberts, S; Parkes, Harold G.; Turner, Robert; Kinchesh, Paul; Shmueli, Karin; Yousry, Tarek; Ordidge, Roger J.

doi:10.1259/bjr/69317841

Cited by 53 publications

(30 citation statements)

References 33 publications

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“…1 The resulting T 2 weighted images confirmed the clinical diagnosis of subgaleal haemorrhage. In addition to uncal and transtentorial herniation, haemorrhagic infarction involving deep grey matter, cerebellum, and spinal cord were observed (fig 1).…”

supporting

confidence: 59%

Fatal newborn head enlargement: high resolution magnetic resonance imaging at 4.7 T

Cheong

Hagmann²,

Rennie

et al. 2005

Archives of Disease in Childhood - Fetal and Neonatal Edition

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supporting

confidence: 59%

Fatal newborn head enlargement: high resolution magnetic resonance imaging at 4.7 T

Cheong

Hagmann²,

Rennie

et al. 2005

Archives of Disease in Childhood - Fetal and Neonatal Edition

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“…MRI studies at 3 T demonstrated substantial increase of 1/T 0 2 in the SN of PD patients but not 1/T 2 , 16 as predicted. In subsequent studies, the results were confirmed and also extended to the basal ganglia, 17,18 clearly indicating that 1/T 0 2 yields stronger correlations with brain iron in PD than 1/T 2 . In principle, iron content could also be investigated using 1/T Ã 2 (those signal changes caused by the sum of 1/T 0 2 and 1/ T 2 ).…”

Section: Imaging Of Brain Ironmentioning

confidence: 61%

Potential role of high‐field MRI for studies in Parkinson's disease

Schuff

2009

Movement Disorders

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Recent advancements in high field magnetic resonance imaging (MRI) technology (3 T and higher), providing increased signal sensitivity and images with more prominent contrasts intrinsic to the brain, offer new opportunities for assessing brain alterations in Parkinson's disease (PD). In this article, the principle benefits of high field MRI for PD research are described and new findings at high magnetic fields are reviewed. Several high field MRI methodologies, including structural MRI, imaging of brain iron, diffusion tensor imaging, arterial spin labeling perfusion imaging, rotating frame imaging, and magnetic resonance spectroscopy, are critically reviewed for their potential roles in studies of PD.

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“…3-T clinical systems are now commercially available and 7-T and 8-T human research systems are in use (6,7). Early reports demonstrate the utility of modern high field systems in detecting different types of brain lesions (8 -10) and in demonstrating underlying anatomy with high spatial resolution (11,12). Early measurements on high field systems have shown increased SNR and CNR and also increased artifact conspicuity (12).…”

mentioning

confidence: 99%

Comparing real‐world advantages for the clinical neuroradiologist between a high field (3 T), a phased array (1.5 T) vs. a single‐channel 1.5‐T MR system

Orbach

Law

et al. 2006

Magnetic Resonance Imaging

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Purpose:To evaluate signal-to-noise ratio (SNR) and neuroradiologists' subjective assessments of image quality in 3-Tesla (3-T) or phased-array MR systems that are now available for clinical neuroimaging. Materials and Methods:Brain MR images of six normal volunteers were obtained on each of three scanners: a 1.5-T single-channel system, a 12-channel, phased-array system, and a 3-T single-channel system. Additionally, clinically optimized images acquired from 28 patients who underwent imaging in more than one of these systems were analyzed. SNRs were measured and image quality and artifact conspicuity were graded by two blinded readers. Results:The phased-array system produced higher SNR than either the 1.5-T or the 3-T single-channel systems, and in no instance was it outperformed. Both blinded readers judged the phased-array images to be of higher quality than those produced by the single-channel systems, with significantly less artifact. The 3-T magnet produced images with high SNR, but with increased artifact conspicuity. The phased-array system markedly decreased acquisition times without introduction of artifacts. Conclusion:Both quantitatively and qualitatively, the phased-array system provided image quality superior to that of the 1.5-T and 3-T single-channel systems.

show abstract

High resolution MRI of the brain at 4.7 Tesla using fast spin echo imaging

Cited by 53 publications

References 33 publications

Fatal newborn head enlargement: high resolution magnetic resonance imaging at 4.7 T

Fatal newborn head enlargement: high resolution magnetic resonance imaging at 4.7 T

Potential role of high‐field MRI for studies in Parkinson's disease

Comparing real‐world advantages for the clinical neuroradiologist between a high field (3 T), a phased array (1.5 T) vs. a single‐channel 1.5‐T MR system

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