Stray field magnetic resonance imaging¡Gsystem construction, sensitivity enhancement and applications

Chen, Yan-chi

02 September 2004

none

magnetic resonance imaging

nuclear magnetic resonance

stray field

gradient

Studies on Auditory Rhythm Activation of Human Brain by Functional Magnetic Resonance Imaging on a 3-Tesla System

Pai, Kuo-liang

21 July 2006

Recently functional magnetic resonance imaging has become popular in the studies of human brain functions. As the area of auditory cortex has been proven and defined, we consider music cognition as the next step. In this study, we focus on the response of rhythm. Professional musicians and amateurs were involved in our experiments. Our preliminary result revealed that three of professional musicians have distinguished activation on left cerebrum Inferior Frontal Gyrus BA45/BA47 (language areas). However, since the subjects¡¦ background is difficult to be strictly controlled, further discussion is necessary to define meaning and brain functions of our experiments.

Auditory stimuli

Language area

Functional Magnetic Resonance Imaging

Microscopic magnetic resonance imaging under magic-angle-spinning using shaped pulse field gradients

Tseng, Yan-Han

14 September 2006

µL

shaped pulse field gradients

Microscopic magnetic resonance imaging

Single echo acquisition magnetic resonance imaging

McDougall, Mary Preston

12 April 2006

The dramatic improvement in magnetic resonance imaging (MRI) scan time over the past fifteen years through gradient-based methods that sample k-space more efficiently and quickly cannot be sustained, as thresholds regarding hardware and safety limitations are already being approached. Parallel imaging methods (using multiple receiver coils to partially encode k-space) have offered some relief in the efforts and are rapidly becoming the focus of current endeavors to decrease scan time. Ideally, for some applications, phase encoding would be eliminated completely, replaced with array coil encoding instead, and the entire image formed in a single echo. The primary objective of this work was to explore that acceleration limit – to implement and investigate the methodology of single echo acquisition magnetic resonance imaging (SEA MRI). The initial evaluation of promising array coil designs is described, based on parameters determined by the ability to enable the imaging method. The analyses of field patterns, decoupling, and signal-to-noise ratio (SNR) that led to the final 64-channel array coil design are presented, and the fabrication and testing of coils designed for 4.7T and 1.5T are described. A detailed description of the obtainment of the first SEA images – 64xNreadout images, acquired in a single echo – is provided with an evaluation of those images and highly accelerated images (through parallel imaging techniques) based on SNR and artifact power. Finally, the development of methodologies for various MR applications is described: applications that would particularly benefit from the speed of the imaging method, or those to which the method or the tool (array coil) lends itself. These applications include, but are not limited to, 3D imaging (phase encode in the slice select direction), resolution-enhanced imaging, large-scale (field-of-view) microscopy, and conformal surface imaging. Finally, using the primary enablement of the method – the ability to obtain complete MR images at speeds limited only by the time it takes to acquire a single echo – is presented with a discussion of extremely high frame rate imaging. The contribution to the field of medical imaging is the first implementation, characterization, and demonstration of applications for the acquisition of MR images in a single echo.

magnetic resonance imaging (MRI)

biomedical imaging

coil arrays

dynamic imaging

MRI Contrast Enhancement using Gd₂O₃ Nanoparticles

Klasson, Anna

January 2008

<p>There is an increasing interest for nanomaterials in biomedical applications and in this work, nanoparticles of gadolinium oxide (Gd₂O₃) have been investigated as a novel contrast agent for Magnetic Resonance Imaging (MRI). Relaxation properties have been studied in aqueous solutions as well as in cell culture medium and the nanoparticles have been explored as cell labeling agents. The fluorescent properties of the particles were used to visualize the internalization in cells and doped particles were also investigated as a multimodal agent that could work as a fluorescent marker for microscopy and as a contrast enhancer for MRI.</p><p>Results show that in aqueous solutions, there is a twofold increase in relaxivity for Gd₂O₃ compared to commercial agent Gd-DTPA. In cell culture medium as well as in cells, there is a clear T₁ effect and a distinct increase in signal intensity in T₁-mapped images. Fluorescent studies show that the Gd₂O₃ nanoparticles doped with 5% terbium have interesting fluorescent properties and that these particles could work as a multimodal contrast agent.</p><p>This study shows that Gd₂O₃ nanoparticles possess excellent relaxation properties that are retained in more biological environments. Gd₂O₃ particles are suitable as a T₁ contrast agent, but seem also be adequate for T₂ enhancement in for instance cell labeling experiments.</p>

nanoparticles

gadolinium oxide

magnetic resonance imaging

contrast agent

Medicine

Medicin

Ictal Functional Neuroimaging of Childhood Absence Epilepsy

Vestal, Matthew Lepore

21 September 2010

Absence seizures in Childhood Absence Epilepsy (CAE) are 5 10 second episodes of impaired consciousness that are characterized on electroencephalography (EEG) by frontally-predominant, 3 4 Hz spike and wave discharges (SWD). The aims of this study were to use simultaneous EEG, functional magnetic resonance imaging (fMRI), and behavioral testing to identify the neural networks involved in absence seizures as well as to examine the timecourse of those ictal fMRI changes. It was hypothesized that absence seizures involve wide-reaching neural networks including the areas traditionally associated with normal attention processing and that absence seizures produce fMRI signal changes not only during the seizure, but before and after it as well. In this study, we recorded 88 absence seizures from a cohort of 42 children with pure CAE. These seizures were recorded as subjects participated in simultaneous EEG-fMRI scanning while engaged in a continuous performance task (CPT) of attentional vigilance or a repetitive tapping task (RTT) requiring repetitive motor activity. Using a novel, voxel-based percent fMRI change analysis combined with a volume of interest analysis, the second-by-second fMRI signal timecourse of the absence seizures were examined across numerous brain regions of interest, from 20 seconds before seizure onset through 40 seconds after seizure onset. EEG frequency analysis revealed seizures with a mean duration of 6.6 seconds and an abrupt onset and ending that were comprised of frontally-predominant, 3 4 Hz SWD. Ictal behavioral testing demonstrated abrupt onset of impairments during periods of SWD. These behavioral impairments were typical of CAE absence seizures in that impairments were greater in the CPT of attentional vigilance (omission error rate, OER = 81%) than in RTT testing (OER = 39 %) (p < 0.003). The ictal fMRI changes we observed varied depending upon the method of fMRI signal analysis used. Using the traditional general liner model, and assuming the standard hemodynamic response (HRF) function, this study replicated results consistent with previous ictal absence fMRI studies showing ictal activations primarily in the thalamus and ictal deactivations in traditional default mode areas. Using a more data-driven, novel voxel-based fMRI percentage change analysis to examine the ictal fMRI timecourse on a second-by-second basis, both ictally as well as pre- and post- ictally, this study, however, demonstrated ictal involvement of diverse brain regions before, during, and after the seizure. Activation was demonstrated up to 16 seconds before seizure onset, starting first in the parietal and orbital-medial frontal cortices and progressing to lateral frontal and lateral temporal cortices followed by the occipital and Rolandic cortices and finally the thalamus. Deactivation followed a similar anatomic progression and lasted up to 17 seconds after the end of SWD. These findings reveal a complex and long-lasting sequence of fMRI changes in CAE absence seizures that are not detectable by conventional HRF modeling and are important in the understanding and eventual treatment of absence seizures associated with CAE.

brain

seizures

magnetic resonance imaging

electroencephalography

absence

epilepsy

child

Interactions between fMRI BOLD-activation during Reading Tasks and MRS-measured Metabolite Levels

Ibrahim, Hassana Aisha

14 February 2008

Recent studies in the field of dyslexia have used magnetic resonance spectroscopy (MRS) to explore neurochemical manifestations of neurobiological differences in the brains of dyslexic adults compared to controls. This study examines the potential relationship between functional magnetic resonance imaging (fMRI) BOLD (blood oxygen level demand) activation scores in response to cognitive tasks and MRS-measured levels of a metabolite and a neurotransmitter, N-acetylaspartate (NAA) and gamma-aminobutyric acid (GABA) respectively, in the occipital region of brains of seven-year old children. Preliminary results from this multi-arm, longitudinal study indicate a significant positive correlation between fMRI BOLD signal elicited in response to picture-cues in the occipital region of interest bilaterally, and both GABA (R2=0.477 p=0.05, 2-tailed) and NAA (R2=0.587 p=0.01, 2-tailed) levels. The results suggest that the functional neuroanatomical circuitry involved in a cognitive task also has neurochemical indicators.

radiography

dyslexia

magnetic resonance imaging

physiology

language

brain

child

Gadolinium (III) tetraazamacrocyclic complexes for magnetic resonance imaging contrast agents

Chan, Kar-man.

January 2009

Thesis (Ph. D.)--University of Hong Kong, 2010. / Includes bibliographical references. Also available in print.

Metabolic factors influencing fatigue during a 90 second maximum muscle contraction

Tucker, David C.

January 2009

Thesis (M.A.)--University of Alabama at Birmingham, 2009. / Title from PDF title page (viewed Jan. 21, 2010). Includes bibliographical references (p. 47-53).

A supervised learning framework for multi-modal rigid registration with applications to angiographic images /

Chan, Ho-Ming.

January 2003

Thesis (M. Phil.)--Hong Kong University of Science and Technology, 2003. / Includes bibliographical references (leaves 60-62). Also available in electronic version. Access restricted to campus users.