Behçet Murat Eyüboğlu

E-mail

meyub@metu.edu.tr

Department

Department of Electrical and Electronics Engineering

ORCID

0000-0002-1071-2250

Scopus Author ID

57208572398

Web of Science Researcher ID

ABA-1228-2020

SNR and total acquisition time analysis of multi-echo FLASH pulse sequence for current density imaging Sadighi, Mehdi; Şişman, Mert; Eyüboğlu, Behçet Murat (2021-12-01) Magnetic Resonance Current Density Imaging (MRCDI) is an imaging modality providing cross-sectionalcurrent densityðJ Þinformation inside the body. The clinical applicability of MRCDI is highly dependenton the sensitivity o...
Experimental Evaluation of Spin Echo based Magnetic Resonance Magnetohydrodynamic Flow Velocimetry Şişman, Mert; Sadighi, Mehdi; Eroğlu, Hasan Hüseyin; Eyüboğlu, Behçet Murat (2021-05-15) Magnetohydrodynamc (MHD) flow occurs due to the Lorentz force formed by the nteracton between the statc magnetc feld of the MR scanner andthe externally njected electrc current. The MR based magng of MHD flow has become a ...
Optimization of SNR and the total acquisition time in MRCDI Sadighi, Mehdi; Şişman, Mert; Eyüboğlu, Behçet Murat (2021-05-15) The clinical applicability of magnetic resonance current density imaging (MRCDI) is highly dependent on the sensitivity of the acquired current-induced magnetic flux density (˜Bz) distribution. Here, the combined effect of...
Multi-Physics Multi-Contrast Magnetic Resonance Imaging Eyüboğlu, Behçet Murat; Sadighi, Mehdi (2021-05-15) In this study, a Diffusion-Weighted (DW) Spin Echo (SE) based pulse sequence with current injection is proposed to combine data acquisitions of theDiffusion Tensor (), current-induced magnetic flux densityand the magnetohy...
Simultaneous Magnetic Resonance Magnetohydrodynamic Flow Velocity and Diffusion Tensor Imaging Şişman, Mert; Sadighi, Mehdi; Eyüboğlu, Behçet Murat (2021-05-15) Recently, t s shown that the magnetohydrodynamc (MHD) flow has potental n clncal applcatons. In addton, dffuson tensor magng (DTI) swdely used as an exclusve clncal dagnostc method. To obtan the MHD flow velocty dstrbutons...
Low-frequency conductivity tensor imaging with a single current injection using DT-MREIT Sadighi, Mehdi; Şişman, Mert; Acikgoz, Berk C.; Eroglu, Hasan H.; Eyüboğlu, Behçet Murat (2021-03-01) Diffusion tensor-magnetic resonance electrical impedance tomography (DT-MREIT) is an imaging modality to obtain low-frequency anisotropic conductivity distribution employing diffusion tensor imaging and MREIT techniques. D...
Single Current Diffusion Tensor Magnetic Resonance Electrical Impedance Tomography: A Simulation Study Sadighi, Mehdi; Şişman, Mert; Açıkgöz, Berk Can; Eyüboğlu, Behçet Murat (2020-08-08) Diffusion Tensor Magnetic Resonance Electrical Impedance Tomography (DT-MREIT) is an imaging technique providing low-frequency conductivity tensor images. In all DT-MREIT applications in the literature two linearly indepen...
Experimental Realization of Single Current Diffusion Tensor Magnetic Resonance Electrical Impedance Tomography Sadighi, Mehdi; Şişman, Mert; Açıkgöz, Berk Can; Eyüboğlu, Behçet Murat (2020-08-08) To obtain low-frequency anisotropic conductivity distribution of biological tissues recently Diffusion Tensor Magnetic Resonance Electrical Impedance Tomography (DT-MREIT), which is combination of DTI and MREIT techniques,...
Manyetik Rezonans Tabanlı Elektrik Akımı ve İletkenlik Görüntüleme Eyüboğlu, Behçet Murat (null; 2019-11-06) Vücut içinde dokuların elektriksel özelliklerinin birbirinden farklı olduğu, bu özelliklerin dokuların sağlıklı olması ya da olmaması ve fizyolojik işlevleri ile değiştiği bilinmektedir. Buradan hareketle, 1980’li yıllarda...
Eşzamanlı Difüzyon Tensörü ve Manyetik Rezonans Akım Yoğunluğu Görüntüleme Sadıghi, Mehdi; Açıkgöz, Berk Can; Şişman, Mert; Eyüboğlu, Behçet Murat (2019-11-06) Biyolojik dokular farklı elektriksel özelliklere sahip olup, sağlıklı bir dokunun bu özellikleri fizyolojik aktivite ile değişebildiği gibi, normal ve patolojik doku arasında da farklılık göstermektedir. Dokuların bu özell...

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