Cihan Göksu

Email

Tel.

+45 2067 9022

Position

PhD-Student

Research Interests

Magnetic Resonance Electrical Impedance Tomography (MREIT) is an emerging method for electrical conductivity imaging, which can be useful for a lot of biomedical applications and diagnostic purposes. The sensitivity of the method is still not high enough for in-vivo brain MREIT. My basic research interest is to boost up this methods sensitivity enough for clinical applications, and analyze and compare the sensitivity of different MRI pulse sequences.

Research Groups

Neurophysics

Curriculum Vitae

Education

2011

BSc. in Biomedical Engineering, Middle East Technical University

2014

MSc. in Biomedical Engineering, Middle East Technical University

Employments

2014 - Present

PhD Student, DTU Elektro & DRCMR

2011 - 2014

Teaching Assistant, METU Electrical and Electronics Engineering Deparment

2011 - 2011

Electronics Engineer, ASELSAN A.S

Full CV

Publications

Göksu C, Scheffler K, Ehses P, Hanson L.G, Thielscher A. Sensitivity Analysis of Magnetic Field Measurements for Magnetic Resonance Electrical Impedance Tomography (MREIT), Magn Reson Med, in press.

Göksu C., Hanson L.G., Ehses P., Scheffler K. & Thielscher A. Human In-vivo MR Current Density Imaging (MRCDI) Based on Optimized Multi-echo Spin Echo (MESE). Proc. of the 25th annual meeting of the ISMRM; 2017, p. 4039.

Göksu, C., Hanson, L. G., Ehses, P., Scheffler K. & Thielscher, A. Efficiency Analysis of Magnetic Field Measurements for MR Electrical Impedance Tomography (MREIT). Proceedings of ESMRMB 33rd Annual Meeting; 2016, p. 162.

Eroğlu HH, Eyüboğlu BM, Göksu C. Design and implementation of a bipolar current source for MREIT applications. In: XIII Mediterranean Conference on Medical and Biological Engineering and Computing 2013 IFMBE Proceedings. ; 2014. pp. 161–164.

Göksu C, Eyüboğlu BM, Eroğlu HH. A Programmable Current Source for MRCDI & MREIT Applications. In: XIII Mediterranean Conference on Medical and Biological Engineering and Computing 2013 IFMBE Proceedings. ; 2014. pp. 198–201.

Göksu C, Sadighi M, Eyüboğlu BM. Minimum Measurable Current Density with MRCDI at 3 Tesla. In: International Symposium on Biomedical Imaging. ; 2014.

Göksu C, Sadighi M, Eroğlu HH, Eyüboğlu M, Member I. Realization of Magnetic Resonance Current Density Imaging at 3 Tesla. Annu. Int. Conf. IEEE Eng. Med. Biol. Soc. - EMBC 2014:1115–1118.

Sadighi M, Göksu C, Eyüboğlu BM. J-based Magnetic Resonance Conductivity Tensor Imaging (MRCTI) at 3 T. Annu. Int. Conf. IEEE Eng. Med. Biol. Soc. - EMBC 2014:1139–1142.