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2019 3
2020 4
2021 4
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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.
Kazemivalipour E, Keil B, Vali A, Rajan S, Elahi B, Atalar E, Wald LL, Rosenow J, Pilitsis J, Golestanirad L. Kazemivalipour E, et al. Neuroimage. 2019 Oct 1;199:18-29. doi: 10.1016/j.neuroimage.2019.05.015. Epub 2019 May 13. Neuroimage. 2019. PMID: 31096058 Free PMC article.
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.
Kazemivalipour E, Vu J, Lin S, Bhusal B, Thanh Nguyen B, Kirsch J, Elahi B, Rosenow J, Atalar E, Golestanirad L. Kazemivalipour E, et al. Annu Int Conf IEEE Eng Med Biol Soc. 2020 Jul;2020:6143-6146. doi: 10.1109/EMBC44109.2020.9175737. Annu Int Conf IEEE Eng Med Biol Soc. 2020. PMID: 33019373
Reconfigurable MRI coil technology can substantially reduce RF heating of deep brain stimulation implants: First in-vitro study of RF heating reduction in bilateral DBS leads at 1.5 T.
Golestanirad L, Kazemivalipour E, Keil B, Downs S, Kirsch J, Elahi B, Pilitsis J, Wald LL. Golestanirad L, et al. Among authors: kazemivalipour e. PLoS One. 2019 Aug 7;14(8):e0220043. doi: 10.1371/journal.pone.0220043. eCollection 2019. PLoS One. 2019. PMID: 31390346 Free PMC article.
Vertical open-bore MRI scanners generate significantly less radiofrequency heating around implanted leads: A study of deep brain stimulation implants in 1.2T OASIS scanners versus 1.5T horizontal systems.
Kazemivalipour E, Bhusal B, Vu J, Lin S, Nguyen BT, Kirsch J, Nowac E, Pilitsis J, Rosenow J, Atalar E, Golestanirad L. Kazemivalipour E, et al. Magn Reson Med. 2021 Sep;86(3):1560-1572. doi: 10.1002/mrm.28818. Epub 2021 May 7. Magn Reson Med. 2021. PMID: 33961301