Avaliação da cartilagem da ATM por meio de ressonância magnética com a utilização de bobinas microscópicas / MRI assessment of TMJs cartilage with the use of microscopic coils

Alessandra Coutinho

02 October 2009

Diferenças na espessura e regularidade da cartilagem da articulação temporomandibular (ATM) ocorrem como o resultado de áreas em crescimento ou em remodelamento. Esse aspecto dificulta a interpretação clínica das imagens e geralmente negligencia a presença da fibrocartilagem. O estudo, por meio da Ressonância Magnética utilizando bobinas microscópicas, possibilita uma melhor observação da cartilagem articular. Confirmamos essa evidência por meio do estudo que analisou 20 indivíduos (40 ATM), divididos em grupo sintomático (DTM) com 10 pacientes (20 ATM) apresentando queixa clínica e suspeita diagnóstica de DTM e, o grupo controle com 10 voluntários (20 ATM) assintomáticos ou que não apresentavam sinais e sintomas clínicos de DTM. As imagens de RM sagitais oblíquas ponderadas em DP SPIR da ATM foram capazes de mostrar a cartilagem com melhor evidência tanto na cabeça da mandíbula quanto na eminência articular proporcionado mensurações, as quais se apresentaram estatisticamente iguais entre os grupos e também a avaliação da regularidade com o mesmo comportamento entre os grupos e geralmente acompanhando a morfologia da cortical óssea. Em muitos casos, principalmente quando da presença de deslocamento para anterior do disco articular, a observação se torna mais difícil, requerendo mais prática para esse tipo de avaliação. Observamos que pacientes do grupo controle apresentaram deslocamento de disco. Dessa maneira, consideramos um exame muito útil como auxiliar no diagnóstico da DTM, e com o desenvolvimento de novas terapias para doenças degenerativas e traumas na cartilagem, as imagens de RM com o uso de bobina microscópica são de crescente importância clínica e poderão desempenhar um papel importante na avaliação da eficácia dessas terapias. / Differences in thickness and regularity of the temporomandibular joints (TMJ) cartilage occur as the result of areas of growth or remodeling. This fact leads to misinterpretations on diagnosis and generally neglects the presence of fibrocartilage. The present study, using MRI microscopic coils, allows better observation of the articular cartilage. This evidence was confirmed by this study that examined 20 individuals (40 TMJ), divided into: symptomatic group with temporomandibular dysfunction (TMD) of 10 patients (20 TMJ) presenting clinical complaint and TMD diagnosis; and the control group of 10 volunteers (20 TMJ) that were asymptomatic or who had no clinical signs and symptoms of TMD. On both groups were measured cartilage thickness and if the cartilage was regular or not. The oblique sagital MR images of weighted SPIR protons density (PD\'s) TMJ were able to show the best cartilage images either in the mandibles head or on the articular eminence providing measurements. Both groups presented no statistically significant differences regarding to thickness and the evaluation of the regularity presented the same result. The regularity of the cartilage generally was similar to the morphology of the cortical bone. In many cases, especially when the presence of anterior articular disc displacement, the evaluation was more difficult, requiring practice. The control group with asymptomatic patients was found also to have disc displacements. Thus, we review a very useful tool in the diagnosis of TMD and its importance to evaluate the cartilage to development new therapies for degenerative diseases and trauma. The MRI images with the use of microscopic coil are of increasing clinical importance and might play an important role in assessing the effectiveness of these therapies.

Bobinas microscópicas

Cartilagem articular da ATM

Ressonância magnética

Articular cartilage of the TMJ

Microscopic coils

MRI

Investigation On The Performance Of Rogowski Coil Current Transducers Near Their Higher Frequency Limit

Seelam, Srinivasa Rao

09 1900

No description available.

Current Transducers

Rogowski Coil Current Transducers

Frequency Limit

Ladder Network Model

Lightning

Rogowski Coils

Electrical Engineering

Réseau flexible de résonateurs à ligne de transmissions pour l'émission et la réception en IRM cardiaque à 7T / A flexible transceiver array employing transmission line resonators for cardiac MRI at 7 T

Hossein Nezhadian, Sajad

19 December 2017

Ce projet doctoral s’est déroulé dans le cadre d’une collaboration entre le laboratoire d’Imagerie par Résonance Magnétique Médicale et Multi-Modalités (IR4M) de l’Université Paris-Sud (France) et le Center for Medical Physics and Biomedical Engineering at Medical (CMPBME) de l’Université Médicale de Vienne (Autriche). L’objectif principal de ce travail était de développer un réseau d’antennes radiofréquence flexible fonctionnant en émission/réception pour l’IRM à 7T. Les réseaux d’antennes permettent de bénéficier du rapport signal sur bruit élevé des antennes de surface de petites tailles tout en accédant à un champ de vue étendu. De plus, les réseaux d’antennes permettent l’utilisation de technique d’imagerie parallèle afin d’accélérer l’acquisition des images ainsi que l’utilisation d’algorithme de transmission parallèle afin de produire un champ radiofréquence homogène, ce qui est crucial en IRM. Ce projet doctoral visait la conception, le développement, l’installation et l’évaluation d’un réseau d’antenne RF flexible basé sur le principe des résonateurs à lignes de transmission (RLT). Ces structures sont intrinsèquement monolithiques et auto-résonantes et ne nécessitent donc pas l’emploi de condensateurs discrets pour accorder l’antenne. Des simulations électromagnétiques 3D, ainsi que des caractérisations expérimentales sur table et en IRM ont été réalisées pour évaluer les performances de ce réseau, en configuration plate et courbée. / This PhD thesis was conducted in the frame of a bilateral project between the laboratoire d’Imagerie par Résonance Magnétique Médicale et Multi-Modalités (IR4M) at Université Paris-Sud (Orsay, France) and the Center for Medical Physics and Biomedical Engineering (CMPBME) at the Medical University of Vienna (Vienna, Austria). The main objective of this work was to develop a flexible transceiver RF coil array for 7 T MRI. Coil arrays benefit from the high SNR of small surface coils over an extended field of view (FOV). Furthermore, array coils enable the use of parallel imaging (PI) techniques for accelerated image acquisition and pTx algorithms that can be used to produce a homogeneous transmit field which is of importance in MRI. This project targets the design, development, implementation and evaluation of a flexible RF coil array based on the transmission line resonator (TLR) principle. TLRs are inherently monolithic and self-resonant structures, i.e. there is no need for lumped element capacitors to tune the coil. 3D electromagnetic simulation (EMS) together with bench and MRI experiments were performed to evaluate the performance of the developed array in flat and bent configuration.

Antennes

Flexible

Rlt

IRM Cardiaque

Array coils

Flexible

Tlr

Transceiver

Cardiac MRI

Fraktionale Modellierung und Parametrierung von technischen Spulen

Abuaisha, Tareq, Kertzscher, Jana

19 November 2019

Die genaue Abbildung des Verhaltens von technischen Spulen über einen weiten Frequenzbereich ist für eine präzise Modellierung von technischen Maschinen notwendig. Technische Spulen mit einem ferromagnetischen Kern zeigen andere Eigenschaften als ideale Spulen [1, 2]. Dies ist auf die Wirbelstromverluste, Hystereseverluste und ab einem bestimmten Frequenzbereich auftretenden Skineffektverlusten zurückzuführen. In diesem Beitrag werden zwei Verfahren der Modellierung von technischen Spulen, das klassische Modell und das fraktionale Modell, miteinander verglichen. Für beide Modelle werden die Parameter anhand der Methode der kleinsten Fehlerquadrate (MKQ) identifiziert. Die gewonnenen Ergebnisse werden an Messungen validiert.

fractional, modeling, coils

info:eu-repo/classification/ddc/620

ddc:620

Elektroantrieb

The Rational Design of Coiled-Coil Peptides towards Understanding Protein-Crystal Interactions and Amorphous-to-Crystalline Transitions

Chang, Eric P.

16 April 2013

No description available.

Chemistry

biomineralization

designed peptides

coiled coils

secondary structure

peptide-crystal interactions

amorphous-to-crystalline transitions

Improvements in Diffusion Weighted Imaging Through a Composite Body and Insert Gradient Coil System

Jepsen, Peter Austin

10 July 2013

Diffusion Magnetic Resonance Imaging (DMRI) is a class of Magnetic Resonance Imaging (MRI) techniques with broad medical applications ranging from characterization of tumors and brain damage to potential prediction of stroke. Gradient coil and signal-to- noise ratio (SNR) constraints limit spatial resolution, accuracy, and scan time in DMRI. Achieving high b-values (measures of a scan's sensitivity to diffusion) often require scans with long diffusion gradient pulses, leading to significant magnetic resonance (MR) signal decay before the signal can be sampled. This signal loss reduces the accuracy of diffusion parameter estimation. The ability to sample the MR signal sooner while maintaining the same b-value is restricted by the maximum amplitude and slew rate of gradient coils. A composite system utilizing body and high-powered insert gradient coils can achieve high b-values more quickly, enabling a shorter delay between excitation and signal sampling and improved accuracy of diffusion parameter estimation. Alternately, such a system can achieve higher b-values at an equivalent delay between excitation and signal sampling. This thesis describes the implementation of such a system, experiment design for evaluating the benefits of the system to DMRI, and design of a diffusion phantom. Also included are a characterization of a composite system's improvements to DMRI based on analysis of experimentally-obtained data and simulation results validating those findings. Finally, recommendations for further improvements to diffusion MRI are given.

diffusion MRI

DWI

DTI

composite system

insert gradient coils

Electrical and Computer Engineering

Dynamic analysis model of a class E2 converter for low power wireless charging links

Bati, A., Luk, P.C.K., Aldhaher, S., See, C.H., Abd-Alhameed, Raed, Excell, Peter S.

07 January 2019

Yes / A dynamic response analysis model of a Class E2 converter for wireless power transfer applications is presented. The converter operates at 200 kHz and consists of an induction link with its primary coil driven by a class E inverter and the secondary coil with a voltage-driven class E synchronous rectifier. A seventh-order linear time invariant state-space model is used to obtain the eigenvalues of the system for the four modes resulting from the operation of the converter switches. A participation factor for the four modes is used to find the actual operating point dominant poles for the system response. A dynamic analysis is carried out to investigate the effect of changing the separation distance between the two coils, based on converter performance and the changes required of some circuit parameters to achieve optimum efficiency and stability. The results show good performance in terms of efficiency (90–98%) and maintenance of constant output voltage with dynamic change of capacitance in the inverter. An experiment with coils of the dimension of 53 × 43 × 6 mm3 operating at a resonance frequency of 200 kHz, was created to verify the proposed mathematical model and both were found to be in excellent agreement.

Coils

Invertors

Linear systems

Rectifiers

Eigenvalues and eigenfunctions

Inductive power transmission

Dynamic response

State-space methods

Design of Radiofrequency Coils for Magnetic Resonance Imaging Applications: A Computational Electromagnetic Approach

IBrahim, Tamer S.

29 January 2003

No description available.

Magnetic Resonance Imaging

High Field MRI

Computational Electromagnetic

Modeling

Radiofrequency Coils

Finite Difference Time Domain Method

Ein Beitrag zur Verbesserung der Eigenschaften magnetisch-induktiver Tastspulen / A method to improve the properties of magneto-inductive coils

Heidary Dastjerdi, Maral

06 September 2016

Magnetisch-induktive Techniken finden seit langer Zeit viele Anwendungsfelder in der Medizin, Sicherheitstechnik und der Industrie. Obwohl die technischen Grundlagen seit vielen Jahrzehnten bekannt sind, werden auf Basis detaillierter Analysen spezielle Lösungsansätze verfolgt, die neuartiges Anwendungspotential erschließen sollen. Dazu dienen verbesserte Werkzeuge wie Computersimulationen und analytische Berechnungen sowie neu kombinierte Methoden und Aufbauten aus Leistungselektronik und Signaldetektion. Die Vorteile magnetisch-induktiver Techniken sind dabei u.a., dass sie das Prüfobjekt nicht schädigen, berührungslos arbeiten, robust gegenüber Verschmutzungen und einfach im Aufbau sind. Ein Nachteil dieser Technik ist die unzureichende Auflösung von feinen Strukturen. In der aktuellen Forschung und Entwicklung werden unterschiedliche Spulenanordnungen zur Anwendung in industriellen und medizinischen Fragestellungen untersucht und optimiert. Thema dieser Arbeit ist es, durch Verbesserung der Spuleneigenschaften, neue Anwendungsbereiche für die zerstörungsfreie Materialprüfung zu erschließen. Es wird eine Methode vorgestellt, die Eigenschaften magnetisch-induktiver Tastspulen zu verbessern und so den Aufwand bei der Signalverarbeitung zur Rekonstruktion im Rechner zu reduzieren sowie die Auflösung zu erhöhen. Dazu werden zwei Spulenanordnungen, Transmissions - Tastspulen und Gradiometer - Tastspulen, vergleichend gegenübergestellt und ihre technischen Grenzen aufgezeigt. / Magneto-inductive techniques are found in many fields of application areas so in medicine, security technology and industry. Although the technical basis has been known for many decades, special solutions are pursued on the basis of detailed analysis that should open new application potential. These are enhanced tools such as computer simulations, analytical calculations, new combined methods and structures of power electronics and signal detection. The advantages of magneto-inductive techniques are that they do not damage the test object, are contactless, robust against dirt and simple in construction. A disadvantage of this technique is the insufficient resolution of fine structures. In current research and development different coil assemblies are investigated in industrial and medical applications. The aim of this work is to improve the coil properties by changing geometric constructions and current patterns of the coils, in order to allow a sharper localization of objects in space and to tap new application areas for non-destructive testing. A method to improve the properties of magneto-inductive coils and thus to reduce the effort in signal processing and image reconstruction as well as to increase the resolution is presented. Two different coil assemblies, gradiometer – coils and transmission – coils, are compared and their technical limits shown.

Induktive Messsysteme

Gradiometer - Tastspulen

Transmissions - Tastspulen

elektrische Eigenschaften

zerstörungsfreie Materialprüfung

Gewebediagnostik

Empfindlichkeit

MIT

Inductive measurement system

gradiometer coils

transmission coils

electrical properties

non-destructive testing

tissue diagnostics

sensitivity

MIT

ddc:600

Induktive Messung

Empfindlichkeit

Ein Beitrag zur Verbesserung der Eigenschaften magnetisch-induktiver Tastspulen

Heidary Dastjerdi, Maral

06 September 2016

Magnetisch-induktive Techniken finden seit langer Zeit viele Anwendungsfelder in der Medizin, Sicherheitstechnik und der Industrie. Obwohl die technischen Grundlagen seit vielen Jahrzehnten bekannt sind, werden auf Basis detaillierter Analysen spezielle Lösungsansätze verfolgt, die neuartiges Anwendungspotential erschließen sollen. Dazu dienen verbesserte Werkzeuge wie Computersimulationen und analytische Berechnungen sowie neu kombinierte Methoden und Aufbauten aus Leistungselektronik und Signaldetektion. Die Vorteile magnetisch-induktiver Techniken sind dabei u.a., dass sie das Prüfobjekt nicht schädigen, berührungslos arbeiten, robust gegenüber Verschmutzungen und einfach im Aufbau sind. Ein Nachteil dieser Technik ist die unzureichende Auflösung von feinen Strukturen. In der aktuellen Forschung und Entwicklung werden unterschiedliche Spulenanordnungen zur Anwendung in industriellen und medizinischen Fragestellungen untersucht und optimiert. Thema dieser Arbeit ist es, durch Verbesserung der Spuleneigenschaften, neue Anwendungsbereiche für die zerstörungsfreie Materialprüfung zu erschließen. Es wird eine Methode vorgestellt, die Eigenschaften magnetisch-induktiver Tastspulen zu verbessern und so den Aufwand bei der Signalverarbeitung zur Rekonstruktion im Rechner zu reduzieren sowie die Auflösung zu erhöhen. Dazu werden zwei Spulenanordnungen, Transmissions - Tastspulen und Gradiometer - Tastspulen, vergleichend gegenübergestellt und ihre technischen Grenzen aufgezeigt. / Magneto-inductive techniques are found in many fields of application areas so in medicine, security technology and industry. Although the technical basis has been known for many decades, special solutions are pursued on the basis of detailed analysis that should open new application potential. These are enhanced tools such as computer simulations, analytical calculations, new combined methods and structures of power electronics and signal detection. The advantages of magneto-inductive techniques are that they do not damage the test object, are contactless, robust against dirt and simple in construction. A disadvantage of this technique is the insufficient resolution of fine structures. In current research and development different coil assemblies are investigated in industrial and medical applications. The aim of this work is to improve the coil properties by changing geometric constructions and current patterns of the coils, in order to allow a sharper localization of objects in space and to tap new application areas for non-destructive testing. A method to improve the properties of magneto-inductive coils and thus to reduce the effort in signal processing and image reconstruction as well as to increase the resolution is presented. Two different coil assemblies, gradiometer – coils and transmission – coils, are compared and their technical limits shown.

info:eu-repo/classification/ddc/600

ddc:600

Induktive Messung; Empfindlichkeit