Two-Minute Quantitative Susceptibility Mapping From Three-Dimensional Echo-Planar Imaging Accuracy, Reliability, and Detection Performance in Patients With Cerebral Microbleeds / 脳微小出血患者における三次元エコープラナー法を用いた二分間撮影定量的磁化率マッピングの正確性、信頼性、検出能

Wicaksono, Krishna Pandu

23 March 2023

京都大学 / 新制・課程博士 / 博士(医学) / 甲第24489号 / 医博第4931号 / 新制||医||1063(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 髙橋 良輔, 教授 永井 洋士, 教授 森田 智視 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

3D-EPI

QSM

accuracy

reliability

microbleeds

MRI

490

Reconstruction methods for the frequency-modulated balanced steady-state free precession MRI-sequence / Rekonstruktionsmethoden für die frequenz-modulierte balanced steady-state free precession MRT-Sequenz

Slawig, Anne

January 2018

This work considered the frequency-modulated balanced steady-state free precession (fm-bSSFP) sequence as a tool to provide banding free bSSFP MR images. The sequence was implemented and successfully applied to suppress bandings in various in vitro and in vivo examples. In combination with a radial trajectory it is a promising alternative for standard bSSFP applications. First, two specialized applications were shown to establish the benefits of the acquisition strategy in itself. In real time cardiac imaging, it was shown that the continuous shift in frequency causes a movement of the bandings across the FOV. Thus, no anatomical region is constantly impaired, and a suitable timeframe can be found to examine all important structures. Furthermore, a combination of images with different artifact positions, similar to phase-cycled acquisitions is possible. In this way, fast, banding-free imaging of the moving heart was realized. Second, acquisitions with long TR were shown. While standard bSSFP suffers from increasing incidence of bandings with higher TR values, the frequency-modulated approach provided banding free images, regardless of the TR. A huge disadvantage of fm-bSSFP, in combination with the radial trajectory, is the decrease in signal intensity. In this work a specialized reconstruction method, the multifrequency reconstruction for frequency-modulated bSSFP (Muffm), was established, which successfully compensated that phenomena. The application of Muffm to several anatomical sites, such as inner ear, legs and cardiac acquisitions, proofed the advantageous SNR of the reconstruction. Furthermore, fm-bSSFP was applied to the clinically highly relevant task of water-fat separation. Former approaches of a phase-sensitive separation procedure in combination with standard bSSFP showed promising results but failed in cases of high inhomogeneity or high field strengths where banding artifacts become a major issue. The novel approach of using the fm-bSSFP acquisition strategy with the separation approach provided robust, reliable images of high quality. Again, losses in signal intensity could be regained by Muffm, as both approaches are completely compatible. Opposed to conventional banding suppression techniques, like frequency-scouts or phase-cycling, all reconstruction methods established in this work rely on a single radial acquisition, with scan times similar to standard bSSFP scans. No prolonged measurement times occur and patient time in the scanner is kept as short as possible, improving patient comfort, susceptibility to motion or physiological noise and cost of one scan. All in all, the frequency-modulated acquisition in combination with specializes reconstruction methods, leads to a completely new quality of images with short acquisition times. / In dieser Arbeit wird eine Modifikation der balanced steady-state free precession (bSSFP) Sequenz betrachtet. Die frequenzmodulierte bSSFP-Sequenz (fm-bSSFP) kann die sonst typischen Band-Artefakte in bSSFP-MR-Bildern verhindern. Die Sequenz wurde im Rahmen der Arbeit am MR-Scanner implementiert und erfolgreich in verschiedenen in-vitro- und in-vivo-Beispielen angewendet. In Kombination mit einer radialen Trajektorie erwies es sich als eine vielversprechende Alternative für alle Standard-bSSFP Anwendungen. Zuerst wurden zwei spezialisierte Anwendungen gezeigt, um die Vorteile der Akquisitionsstrategie an sich darzustellen. Am Beispiel der Echtzeit-Herzbildgebung konnte mit Hilfe der kontinuierlichen Frequenzverschiebung eine Bewegung der Bänder über das FOV erzeugt werden. Somit wird keine anatomische Region ständig von Artefakten überlagert und für jeden Bereich kann ein geeigneter Zeitrahmen gefunden werden, um die wichtigen Strukturen darzustellen und zu untersuchen. Darüber hinaus ist eine Kombination von Bildern mit verschiedenen Artefaktpositionen möglich, ähnlich zu mehreren Aufnahmen mit verschiedenen Phasenzyklen. Auf diese Weise wurde eine schnelle Bildgebung des sich bewegenden Herzens ohne Bandartefakte realisiert. Zusätzlich wurden Aufnahmen mit langen Repetitionszeiten (TR) untersucht. Während in der Standard-bSSFP die Häufigkeit von Bandartefakten mit steigendem TR-Wert zunimmt, lieferte der frequenzmodulierte Ansatz Banding-freie Bilder unabhängig vom TR. Ein großer Nachteil von fm-bSSFP in Kombination mit der radialen Trajektorie ist der Verlust von Signalintensität bei der Rekonstruktion. In dieser Arbeit wurde eine spezielle Rekonstruktionsmethode namens Muffm (mulitfrequency reconstruction for frequency-modulated bSSFP) etabliert, die diesen Verlust erfolgreich kompensieren kann. Die Anwendung von Muffm an verschiedenen anatomischen Strukturen, wie Innenohr, Bein und Herzaufnahmen, bestätigte das vorteilhafte Signal-zu-Rausch-Verhältnis, dass durch die spezielle Rekonstruktion gewonnen werden kann. Darüber hinaus wurde die fm-bSSFP auf die klinisch interessante Wasser-Fett-Trennung angewandt. Frühere Ansätze eines phasenempfindlichen Trennverfahrens in Kombination mit Standard-bSSFP zeigten vielversprechende Ergebnisse, scheiterten jedoch in Fällen hoher Inhomogenität oder hoher Feldstärken an den auftretenden Bandartefakten. Der neue Ansatz, diesen Separationsalgorithmus mit der fm-bSSFP-Akquisitionsstrategie zu verbinden, lieferte robuste, zuverlässige Bilder von hoher Qualität. Auch hier konnten entstehende Verluste in der Signalintensität durch Muffm zurückgewonnen werden, da beide Ansätze vollständig kompatibel sind. Im Gegensatz zu herkömmlichen Bandunterdrückungstechniken, wie Frequenz-Scouts oder die Aufnahme mehrerer Bilder mit verschiedenen Phasenzyklen, beruhen alle in dieser Arbeit etablierten Rekonstruktionsverfahren auf einer einzigen radialen Aufnahme. Die Messzeiten sind daher identisch zur Aufnahme einer Standard-bSSFP Messung. Das Verfahren ermöglicht eine deutliche Verkürzung der Aufenthaltsdauer im Scanner bei einer gleichzeitigen Garantie ein artefaktfreies Bild zu erhalten. Damit ist es insbesondere für Patienten von Vorteil, die unter Platzangst oder sonstigen Beschwerden leiden, die ein langes Stillliegen erschweren. Außerdem werden Bewegungsartefakte, physiologisches Rauschen und nicht zuletzt die Kosten eines Scans minimiert. Insgesamt bietet die frequenzmodulierte bSSFP Aufnahme in Kombination mit spezialisierten Rekonstruktionsverfahren neue Möglichkeiten zur schnellen Aufnahme von Bildern ohne Bandartefakte.

Kernspintomografie

Magnetic resonance imaging

MRI

MRT

ddc:570

ddc:610

Fluid dynamics analyses of the intrahepatic portal vein tributaries using 7-T MRI / 7テスラMRIを用いた肝内門脈枝の流体解析

Oshima, Yu

24 November 2021

京都大学 / 新制・課程博士 / 博士(医学) / 甲第23573号 / 医博第4787号 / 新制||医||1054(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 中本 裕士, 教授 花川 隆, 教授 湊谷 謙司 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

MRI

liver

portal vein

hemodynamics

wall shear stress

490

Stretchable 4-Channel Neck RF Coil for 3T MRI

Minseon Gim (11205321)

29 July 2021

<p>Advancements on flexible radiofrequency (RF) coils have been made to accommodate a variety of body sizes with great image quality and a comfortable imaging process. RF coils are magnetic field antennas for magnetic resonance imaging (MRI) that broadcast the RF signal to the patient and receive the returning signal to affect the image quality. The conventional neck RF coil is rigid and requires the patients to be in supine position. Due to its characteristics, the patients who have difficulties to move their neck experience an uncomfortable imaging process. The novel 4-channel neck RF coil is made of conductive silver thread embroidered on stretchable fabric to provide patients a more comfortable experience with lightweight and flexible materials. A wide range of neck sizes can be covered with the stretchable materials and great image quality can be acquired due to the RF coil positioned close to the source. The stretchable RF coil was built as non-overlapping 4 channels in zigzag stitch pattern and tested on a dielectric phantom, which was made to have the permittivity and conductivity of muscle at 128 MHz. The research can be extended to stretchable RF coils with more channels and different stitching patterns. It also has potential to be applied on joints such as wrist and ankle due to its flexibility to cover the curved surface. </p>

MRI

RF Coil

De-noising of Real-time Dynamic Magnetic Resonance Images by the Combined Application of Karhunen-Loeve Transform (KLT) and Wavelet Filtering

Palaniappan, Prashanth

21 May 2013

No description available.

Electrical Engineering

Noise reduction

SNR

Image Processing

MRI

Comparison of Magnetic Resonance Imaging & Sonography in an Animal Model in the Acute Stages of Carpal Tunnel Syndrome

Larry, Fout Tyler

09 August 2013

No description available.

Radiology

MMN

Carpal tunnel syndrome

Median nerve

MRI

SNR

CEUS

The Validity of Estimating Morphological Changes in Skeletal Muscle Using MRI in Resistance Trained Men

Beeler, Matthew K.

January 2020

No description available.

Kinesiology

Resistance Training

Exercise

MRI

Muscle Hypertrophy

Muscle Volume

Reducing Eddy Currents In High Magnetic Field Environments

Case, Russell

01 January 2008

When an electrical conducting volume is placed into the bore of an MRI undergoing an image scan, time varying magnetic gradients induce eddy currents in this conducting material. These eddy currents in turn produce a mechanical torque on this volume. It is the goal of this thesis to produce a computer simulation of eddy currents produced by placing conducting materials inside an MRI bore. The first part of the thesis establishes the physics and principles behind an MRI system along with several applications. Next, this thesis presents an analysis of eddy current effects produced on a conductor placed into an MRI bore. The design and construction of simulated MRI magnetic fields is then presented along with a study of simulated eddy currents in various test conducting volumes of selected materials. Finally, techniques are discussed for reducing eddy currents in these conducting volumes and materials, along with simulation results showing the reduction in the applied eddy current. The findings of this thesis are summarized in the conclusions and recommendations are made for modification and future applications of these techniques and simulations.

eddy currents

MRI

Electrical and Computer Engineering

Electrical and Electronics

Engineering

Loading Force in Recreational Runners and its Effect on Achilles Tendon Biomechanical Properties

Sponbeck, Joshua K.

11 August 2023

Background: Achilles tendinopathy is a common debilitating running related injury. Achilles tendon loading force has been hypothesized as a contributor to Achilles tendinopathy. Loading force through the Achilles tendon during running is impacted by many factors such as footwear and foot strike pattern. Achilles tendon biomechanical (Achilles tendon cross-sectional area, thickness, echogenicity, stiffness, and T2*) responses to loading forces are variable and measurable in vivo. These responses impact the physiologic function of the tendon. Aims: 1) To evaluate baseline Achilles tendon biomechanical characteristics associated with a runner's habitual foot strike pattern. 2) To evaluate single running bout Achilles tendon biomechanical changes to varied forces in runners while maintaining their habitual foot strike pattern. This will be accomplished using minimalist and cushioned running shoes. Methods: 29 recreational runners were recruited. Runners completed two separate 5.3 km running sessions wearing alternating shoe types (cushioned and minimalist) at a pace of 3.15 m/s. Prior to running each day, participants had 32 retroreflective markers placed upon them for motion analysis collection. Additionally, participants had their Achilles tendon imaged via ultrasound pre and post run. On a separate day 24 of the participants underwent an ultrashort echo time (UTE) MRI imaging session of their Achilles tendon. Results: Achilles tendon stiffness was 20% greater in non-rear foot strike runners when compared with rear foot strike runners (p = 0.0166). Achilles tendon CSA, thickness, echogenicity, and T2* were not different between running groups (p > 0.05). Both foot strike pattern groups experienced significant Achilles tendon CSA and thickness decreases from pre to post run in minimalist and cushioned shoes (p < 0.05). Both running groups in cushioned shoes and the non-heel strike runners in minimalist shoes experienced significant increases in Achilles tendon echogenicity from pre to post run. Only non-rear foot strike runners had a significant increase in Achilles tendon stiffness while running in cushioned shoes (p = 0.03). Conclusions: The Achilles tendons of non-rear foot strike runners were significantly stiffer than those of rear foot strike runners. This Achilles tendon characteristic may be attributable to differences in Achilles tendon loading force while running but needs further research. Both groups of runners experienced multiple single running bout Achilles tendon changes as measured via ultrasound. Although loading forces varied within groups in different shoes and between foot strike pattern groups, all Achilles tendon changes were similar regardless of loading forces from pre to post run.

Keywords: Achilles tendon

running

ultrasound

MRI

Life Sciences

Sex Differences in Dopamine D1-type Receptors and Episodic Memory : an Imaging Study Across the Adult Lifespan

Degerfält, Anton

January 2023

Identification of the pathways that could be targeted to alleviate ageing-related cognitive decline is of prime importance. One of the most promising target mechanisms is connected to healthy dopaminergic ageing. Extant research suggest that women may exhibit less ageing-related dopamine (DA) decline compared to men, implicating that women may suffer less from dopamine-related cognitive decline. However, to date, shortage of empirical investigations limit firm conclusions of sex differences. In the present work it is hypothesized that: (i) women as compared to men exhibit less aging-related DA losses, and (ii) less aging-related decline of episodic memory (EM), and that (iii) sex differences in episodic memory might be mediated by differences in DA integrity. To that end, sex-related differences in D1-type dopamine receptor (D1DR) integrity and episodic memory were investigated in a healthy cohort of young to old participants (age 20 – 80, n = 180, 50% women) through whole-brain voxel-wise analysis and linear regression models. Firstly, the dorsal caudate was identified as the main region of the EM-D1DR interrelation. Secondly, a significant female advantage was found for EM and D1DR in ageing. Finally, no mediation effect by D1DR on the sex-EM interaction was found. These results indicate the presence of correlational relationships between sex, cognition and D1DR, in ageing. However, D1DR was not found to be the mediating factor in the observed correlations. Future research, preferably using longitudinal design, should further investigate the underpinnings of sex differences in D1DR and EM.

dopamine

D1DR

sex

episodic memory

ageing

PET

MRI

Neurosciences

Neurovetenskaper