Extended role of ultrasonography and magnetic resonance imaging in evaluating obesity. / CUHK electronic theses & dissertations collection

January 2003

Liu Kin Hung. / "May, 2003." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2003. / Includes bibliographical references (p. 153-193). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese.

Obesity--ultrasonography

Obesity--radiology

Ultrasonography

Magnetic Resonance Imaging

Fast field-cycling NMR relaxometry on biological samples extended to ultra-low magnetic fields

Zampetoulas, Vasileios

January 2018

No description available.

Conception de nouveaux agents de contraste à base d'assemblage de nanoparticules d'oxyde de fer pour l'imagerie par résonance magnétique / Conception of new contrast agent based of assembly of iron oxide nanoparticles for magnetic resonance imaging : from nanoparticle synthesis to assembly

Casterou, Gérald

04 March 2015

L'imagerie par résonance magnétique (IRM) est largement utilisée dans le milieu médical pour l'imagerie des tissus mous. Afin d'obtenir des images de meilleures qualité, les hôpitaux s'équipent d'IRM avec des champs de plus en plus intenses. Les agents de contraste à base de nanoparticules de fer sont très prometteurs pour l'imagerie à haut champ. En effet, au contraire des agents de contraste à base de gadolinium, ils ne perdent pas leur efficacité à haut champ. Plusieurs paramètres sont à prendre en compte afin d'obtenir des agents de contrastes plus efficaces en IRM : tout d'abord, les propriétés magnétiques des nanoparticules d'oxydes de fer. Celles-ci doivent avoir des aimantations importantes. Ensuite, les nanoparticules agrégées sont plus efficaces que les nanoparticules individuelles. Pour finir, la présence d'une couche plus ou moins imperméable à l'eau ainsi que son épaisseur vont influencer l'efficacité de l'agent de contraste. Ce mémoire de thèse présente la conception de nouveaux agents de contraste à base de nanoparticules d'oxyde de fer, depuis l'optimisation de la synthèse afin d'obtenir les nanoparticules ayant les propriétés magnétiques les plus intéressantes pour l'IRM, jusqu'à l'assemblage de ces nanoparticules afin d'améliorer leur efficacité en IRM. La première partie de ce travail est donc consacrée à la synthèse de nanoparticules d'oxyde de fer. Une approche organométallique a été choisit car elle permet d'obtenir des nanoparticules de taille contrôlée. Nous montrons dans cette partie que les conditions de synthèse ont une grande influence sur la structure cristalline des nanoparticules synthétisées ainsi que sur leurs propriétés magnétiques. La deuxième partie de ce travail est consacrée à la réalisation d'agrégats de nanoparticules de taille contrôlée. L'agrégation des nanoparticules est réalisée par effet solvophobe en ajoutant de l'eau sur une solution de nanoparticules hydrophobes dans le THF. Nous montrons dans cette partie que la cinétique d'agrégation dépend de la quantité d'eau ajoutée. Les agrégats sont ensuite stabilisés par l'ajout d'un polymère et nous montrons que la morphologie et la taille des agrégats après leur transfert dans l'eau dépendent de la masse molaire et de la nature du polymère utilisé. La troisième partie de ce travail est consacrée à l'évaluation de l'efficacité des agrégats de nanoparticules en tant qu'agent de contraste. Les agrégats testés se sont révélés prometteurs, et des efficacités supérieures à celles d'agents de contraste commerciaux ont été obtenues. / The magnetic resonance imaging (MRI) is widely used in the medical field for soft tissue imaging. In order to obtain images of better quality, hospitals equip themselves with MRI of higher fields. Iron-based nanoparticle contrast agents are very promising for imaging at high field. Indeed, unlike the gadolinium contrast agents, they do not lose their effeciency at high field. Several parameters must be taken into account to achieve more effective contrast agents in MRI: first, the magnetic properties of iron oxide nanoparticles. They must have significant magnetization. Then, aggregated nanoparticles are more effective than individual nanoparticles. Finally, the presence of a more or less hydrophylic layer and its thickness will influence the effeciencys of the contrast agent.This thesis presents the design of new contrast agents based on iron oxide nanoparticles assembly, since the optimization of the synthesis to obtain nanoparticles with the most interesting magnetic properties for MRI up assembly of nanoparticles to improve their effectiveness in MRI.The first part of this work is devoted to the synthesis of iron oxide nanoparticles. An organometallic approach was chosen because it allows to obtain nanoparticles of controlled size. We show in this part of the synthesis conditions have a great influence on the crystal structure of the synthesized nanoparticles and their magnetic properties.The second part of this work is dedicated to the production of controlled size aggregates of nanoparticles. The aggregation of nanoparticles is performed by solvophobic effect by adding water to a solution of hydrophobic nanoparticles in THF. We show in this section that the kinetics of aggregation depends on the amount of water added. The aggregates are then stabilized by the addition of a polymer and show that the morphology and size of the aggregates after transfer into the water depend on the molecular weight and nature of the polymer used.The third part of this work is devoted to the evaluation of the efficiency of nanoparticle aggregates as a contrast agent. The aggregates tested have shown promise, and efficiencies higher than commercial contrast agents were obtained.

Nanoparticules

Irm

Nanomedecine

Nanoparticles

Magnetic resonance imaging

Nanomedicine

An Analysis of the Linked-pulse in Steady-state Free Precession in MRI

Li, Fang

28 April 1994

The steady-state free precession (SSFP) is one type of the fast scanning technique in MRI. So far most of its analysis are concentrated on the gradient echo SSFP (GR SSFP), very few paper~discuss the spin echo (SSFP (SE SSFP), and they are usually based on the simplified the hard pulse assumption. The advantage of the SE SSFP is that it can refocus the dephasing caused by the magnetic field inhomogeniety, which is the disadvantage of the GR SSFP. Also the hard pulse model can provide very limited information. The purpose of this paper is to establish the soft pulse model for both GR SSFP and SE SSFP. By using the spinor method to describe the interaction between the RF pulse, magnetic field, and the spin's magnetization, we create the steady state equations of the GR SSFP and SE SSFP, and give their analytical solutions. Because the SE SSFP's mathematical model is very complicated, we introduce a new concept, the linked-pulse, to simplify the problem, and provide the valuable results. Based on both traditional hard pulse model and our soft pulse model, we did a series of simulations, and compared both results. First of all, the soft pulse model can provide the slice profile and gradient effects, which is impossible for the hard pulse model. Second, in both models, the signal intensities are all depended on the Tl/T2 ratio, which is the characterization of the SSFP image. Third, we also observed how the pulse shape and the flip angles affect the slice profile and the signal intensity. In conclusion, the soft pulse model can give more information than hard pulse model can, such as slice profile and gradient effects, etc., provide more aspects for analyzing the SSFP image.

Electrical and Computer Engineering

Reliability of Inter- and Intra-Examiner Loading of the Knee Joint During Simulated MRI

Braddish, Tess Aspen

01 January 2019

It has been suggested that simulating physiological loading of the knee during magnetic resonance imaging (MRI) is a promising technique for assessing soft and hard tissues in the knee joint. We have developed a novel MRI-compatible lower limb loading and positioning device to assess knee biomechanics in a physiologically relevant environment using MRI. The objectives of this study were (1) to evaluate inter- and intra-examiner reliability for using our custom-built loading system to maintain a desired load magnitude and direction during each loading trial and over repeated subject visits and (2) to determine the effect of the applied load on motion of the subject's knee over the duration of a loading trial. The pneumatic-controlled loading system was tested on ten subjects at a compression load of 50% of the subject's bodyweight. Two examiners separately positioned and loaded each subject for three loading trials per visit, repeated for three visits. The primary outcome measure was the magnitude of the primary axial load (proximal/distal force) applied to the subject's foot over a loading trial. Secondary outcome measures included average magnitude of medial/lateral and anterior/posterior forces as well as valgus/varus, flexion/extension, and external/internal moments applied to the subject's foot during a loading trial. Location of center of loading at the foot was also recorded. Primary axial load was found to be maintained to within 44-47% of subject bodyweight. Following load-application, the subject's knee exhibited movement throughout the duration of each loading trial. We found that 61.0% of proximal/distal knee displacement occurred within the first 2 minutes following loading. Between minutes 4 and 12, knee positioning was maintained to within 0.92 mm in the medial/lateral direction and 1.24 mm in the proximal/distal direction. We conclude that our loading device can apply controllable and reproducible loading over repeated trials as well as limit subject motion throughout each trial.

knee

loading

magnetic resonance imaging

MRI

weight-bearing

Development and application of new cancer-specific contrast agents for tumour detection by magnetic resonance imaging

Shahbazi-Gahrouei, Dariyoush, University of Western Sydney, Nepean, School of Science

January 2000

Four new potential MR imaging contrast agents were synthesised. Gadolinium-hematoporphyrin (Gd-H) was produced by inserting gadolinium into the naturally occurring porphyrin,hematoporphyrin.Gadolinium-tetra-carboranylmethoxyphenyl-porphyrin acetate (Gd-TCP)was similarly synthesised by gadolinium insertion into the synthetic porphyrin, 1, 6, 11, 16-tetra-[3-(carboranylmethoxy)phenyl] porphyrin. The monoclonal antibodies, 9.2.27 against melanoma and WM53 against leukaemia cell lines, were conjugated with cyclic anhydride gadolinium-diethylenetriaminepenta-acetic acid (Gd-cDTPAa), yielding the attachment of chelate DTPA to the antibodies. Gadolinium ion was inserted into the chelate DTPA, thus labelled both these antibodies with Gd-DTPA. Overall, with the satisfactory low levels of gadolinium in the liver, kidneys, and spleen, and good tumour uptake, gadolinium antibody conjugates has considerable potential for further diagnostic applications of MR imaging. / Doctor of Philosophy (PhD)

magnetic resonance imaging

tumour detection

cancer-specific contrast agents

Functional magnetic resonance imaging studies in bipolar disorder

Malhi, Gurjhinder Singh, Psychiatry, Faculty of Medicine, UNSW

January 2005

Aim To determine the neural correlates of Bipolar Disorder (BD) using functional Magnetic Resonance Imaging (fMRI) in different phases of the illness. Methods Five fMRI studies were conducted in adult female BD patients and healthy matched comparison subjects. The first two studies examined patients with bipolar depression and hypomania using captioned-pictures to characterize mood-state related patterns of activation. The subsequent three studies investigated BD euthymia using emotional words and faces to identify a potential trait-marker. Results During depression, bipolar patients demonstrated additional subcortical activation in the thalamus, amygdala, hypothalamus and medial globus pallidus. In hypomania, patients again had additional subcortical activation involving the caudate and the thalamus. In both studies patients had prefrontal cortex activation, but the pattern differed from that in healthy subjects. These studies suggested a pattern of mood-state related subcortical recruitment for emotional processing in BD. The next set of studies examined euthymic BD patients to partition trait and state-markers. The first study used implicit positive and negative word-associated affect and found diminished responses to positive and negative affective words as compared to healthy subjects in both cortical and subcortical brain regions, in particular the cingulate, thalamus and caudate. The second study used the emotional Stroop task to elicit implicit affective processing and euthymic patients had less cortical and subcortical activation in response to affect, in particular decreased left ventral prefrontal cortex (BA47) activation. The final study used explicit emotional processing of fear and disgust to examine affective responses, and showed that patients were generally less responsive to disgust, but had comparatively greater activations to fear. Conclusions BD patients have a likely deficit in the ventral prefrontal cortex that is evident in euthymia. Prefrontal cognitive appraisal of emotions is constrained in euthymic, depressed and hypomanic phases, reflected in subcortical changes that suggest additional processing. The likely cause for this is a functional prefrontal cortex deficit that results in compensatory changes in emotional processing systems. Treatment probably stabilizes these systems without normalizing them. Our studies demonstrate the benefits of examining BD in its different phases, and future studies should attempt to emulate this in medication-free patients.

bipolar disorder

fMRI

manic-depressive illness

magnetic resonance imaging

neuroanatomy

The reliability and clinical validity of functional magnetic resonance imaging in the assessment of language in pre-surgical patients with temporal lobe epilepsy

Adcock, Jane Elizabeth, St Vincent's Clinical School, UNSW

January 2005

Defining language lateralisation is important to minimise morbidity in patients treated surgically for temporal lobe epilepsy (TLE). Functional magnetic resonance imaging (fMRI) offers a promising, non-invasive, alternative strategy to the Wada test. Here, fMRI has been used to study healthy controls and patients with TLE in order (i) to define language-related activation patterns and their reproducibility; (ii) to compare lateralisation determined by fMRI with that from the Wada test; and (iii) to explore the usefulness of multiple fMRI language paradigms. 18 healthy controls (12 right-handed and 6 left-handed) and 24 pre-operative TLE patients (19 right-handed: 12 left-TLE, 7 right-TLE; 5 left-handed: 2 right-TLE, 3 left-TLE) were studied using fMRI. Four fMRI language paradigms used: phonetic and semantic fluency, and the naming of living and non-living things. The data for all 4 tasks were acquired during a single scanning session on two occasions. All patients also underwent Wada testing. In patients and controls, phonetic and semantic fluency tasks were robustly activating and strongly lateralising. Quantified language-related lateralisation from fMRI verbal fluency data was highly reproducible and concordant with the lateralisation of the Wada test. Both fluency tasks identified patients with atypical language lateralisation, including 4/12 right-handed patients with left-TLE and 4/5 left-handed TLE patients, regardless of the side of epileptic focus. In comparison, the two confrontational naming tasks were not strongly lateralising and did not reliably agree with Wada lateralisation in either 12 right-handed controls or 19 right-handed patients with TLE. However, there was a difference in the pattern of fMRI activation in right-handed pat ients with left-TLE. Left-TLE patients had a more right lateralised network of activation when naming living things relative to non-living things, suggesting that some patients may be at risk of a category specific naming decline for non-living things after left anterior temporal lobectomy. These results demonstrate that non-invasive fMRI measures of languagerelated lateralisation may provide a practical and reliable alternative to invasive testing for pre-surgical language lateralisation in patients with TLE. The high proportion of TLE patients showing atypical language lateralisation suggests considerable plasticity of language representation in the brains of patients with intractable TLE.

temporal lobe epilepsy

magnetic resonance imaging

diagnostic use.

Quantitative magnetization transfer imaging techniques and applications

Ou, Xiawei.

January 2007

Thesis (Ph. D. in Physics)--Vanderbilt University, Dec. 2007. / Title from title screen. Includes bibliographical references.

Magnetic resonance imaging based radiotherapy treatment planning: problems, solutions, and applications

Baldwin, Lesley

11 1900

Despite their unmatched soft-tissue contrast, Magnetic Resonance (MR) images suffer from wide-ranging image distortions; this has raised questions about their suitability as an imaging modality upon which to base conformal radiation therapy treatment plans. This thesis addresses image distortion as it relates to the implementation of MR-based radiation therapy treatment planning (MR-RTP). A grid phantom was imaged at 3T to determine the 3D distortion field using in-house software. Using multiple images, both machine- and object-related sources of distortion were separated such that individual evaluation of distortion sources is possible. Over the imaging volume, nonlinearities in the gradients led to peak-to-peak image distortions of up to 11 mm. For in-vivo distortion quantification, the method was augmented with a modified gradient echo sequence which measures the phase evolution due to underlying field inhomogeneities. The amount of distortion measured using this technique is dependent upon both patient anatomy and sequence parameters, but was found to contribute 5.7 mm at maximum. The methods presented can be combined to provide comprehensive distortion rectification such that mean residual image distortion is reduced to well below the pixel resolution. Finally, distortion quantification and correction methods were applied to a clinical MR-RTP study of prostate patients. The dosimetric consequences of distortion correction were investigated by comparing 3D conformal and intensity modulated radiation therapy plans developed based on both uncorrected and corrected MRI data sets. Total image distortions and those directly affecting the prostate and organs at risk (OARs) were assessed and target doses, OAR doses, and dose volume histograms were compared. Maximum distortion (from all sources) was 7.8 mm. With the exception of two patients, changes in plan dosimetry were insignificant (<2% / <1Gy). Two patients who were poorly position suffered larger distortions in the target region which led to dosimetric differences of up to 4.2%. / Medical Physics

MRI

magnetic resonance imaging

radiotherapy

distortion

treatment planning