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Reconfigurable MRI technology for low-SAR imaging of deep brain stimulation at 3T: Application in bilateral leads, fully-implanted systems, and surgically modified lead trajectories.

E. Kazemivalipour, B. Keil, A. Vali, S. Rajan, B. Elahi, E. Atalar, L. Wald, J. Rosenow, J. Pilitsis, and L. Golestanirad. NeuroImage, (2019)

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Felix Rosenow

Tanja Rosenow

Joshua Migdal

Felix Rosenow

Other publications of authors with the same name

Extracting kinetic information from human motor cortical signals.R. Flint, P. Wang, Z. Wright, C. King, M. Krucoff, S. Schuele, J. Rosenow, F. Hsu, C. Liu, J. Lin and 6 other author(s). NeuroImage, (2014)Analysis of the intended and actual orientations of directional deep brain stimulation leads across deep brain stimulation systems.K. Henry, M. Miulli, B. Elahi, J. Rosenow, M. Nolt, and L. Golestanirad. EMBC, page 1725-1728. IEEE, (2022)Continuous, noninvasive wireless monitoring of flow of cerebrospinal fluid through shunts in patients with hydrocephalus.S. Krishnan, H. Arafa, K. Kwon, Y. Deng, C. Su, J. Reeder, J. Freudman, I. Stankiewicz, H. Chen, R. Loza and 16 other author(s). npj Digit. Medicine, (2020)Decoding of articulatory gestures during word production using speech motor and premotor cortical activity.E. Mugler, M. Goldrick, J. Rosenow, M. Tate, and M. Slutzky. EMBC, page 5339-5342. IEEE, (2015)Optimizing the trajectory of deep brain stimulation leads reduces RF heating during MRI at 3 T: Characteristics and clinical translation.J. Vu, B. Bhusal, J. Rosenow, J. Pilitsis, and L. Golestanirad. EMBC, page 1-5. IEEE, (2023)RF heating of deep brain stimulation implants during MRI in 1.2 T vertical scanners versus 1.5 T horizontal systems: A simulation study with realistic lead configurations.E. Kazemivalipour, J. Vu, S. Lin, B. Bhusal, B. Nguyen, J. Kirsch, B. Elahi, J. Rosenow, E. Atalar, and L. Golestanirad. EMBC, page 6143-6146. IEEE, (2020)Reconfigurable MRI technology for low-SAR imaging of deep brain stimulation at 3T: Application in bilateral leads, fully-implanted systems, and surgically modified lead trajectories.E. Kazemivalipour, B. Keil, A. Vali, S. Rajan, B. Elahi, E. Atalar, L. Wald, J. Rosenow, J. Pilitsis, and L. Golestanirad. NeuroImage, (2019)Device Configuration and Patient's Body Composition Significantly Affect RF Heating of Deep Brain Stimulation Implants During MRI: An Experimental Study at 1.5T and 3T.B. Bhusal, N. Bach, J. Vu, B. Elahi, J. Rosenow, M. Nolt, J. Pilitsis, M. DiMarzio, and L. Golestanirad. EMBC, page 5192-5197. IEEE, (2020)True location of deep brain stimulation electrodes differs from what is seen on postoperative magnetic resonance images: An anthropomorphic phantom study.N. Nuzov, B. Bhusal, K. Henry, F. Jiang, J. Rosenow, B. Elahi, and L. Golestanirad. EMBC, page 1863-1866. IEEE, (2022)Modifying surgical implantation of deep brain stimulation leads significantly reduces RF-induced heating during 3 T MRI.J. Vu, B. Bhusal, J. Rosenow, J. Pilitsis, and L. Golestanirad. EMBC, page 4978-4981. IEEE, (2021)

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Disambiguation of "Rosenow, Joshua M."

Please choose a person to relate this publication to

Felix Rosenow

Felix Rosenow

Tanja Rosenow

Joshua Migdal

Felix Rosenow

Other publications of authors with the same name

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