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Jasmine Vu
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2020 – today
- 2024
- [c11]Yalcin Tur, Jasmine Vu, Selam Waktola, Alpay Medetalibeyoglu, Laleh Golestanirad, Ulas Bagci:
Prediction of MRI-Induced Power Absorption in Patients with DBS Leads. CBMS 2024: 490-495 - 2023
- [c10]Bhumi Bhusal, Fuchang Jiang, Jasmine Vu, Pia Sanpitak, Laleh Golestanirad:
Implants talk to each-other: RF heating changes when two DBS leads are present simultaneously during MRI. EMBC 2023: 1-5 - [c9]Pia Sanpitak, Bhumi Bhusal, Jasmine Vu, Laleh Golestanirad:
Low-field MRI's Spark on Implant Safety: A Closer Look at Radiofrequency Heating. EMBC 2023: 1-5 - [c8]Jasmine Vu, Bhumi Bhusal, Joshua M. Rosenow, Julie Pilitsis, Laleh Golestanirad:
Optimizing the trajectory of deep brain stimulation leads reduces RF heating during MRI at 3 T: Characteristics and clinical translation. EMBC 2023: 1-5 - [c7]Jasmine Vu, Pia Sanpitak, Bhumi Bhusal, Fuchang Jiang, Laleh Golestanirad:
Rapid prediction of MRI-induced RF heating of active implantable medical devices using machine learning. EMBC 2023: 1-4 - 2021
- [c6]Can Zheng, Xinlu Chen, Bach Thanh Nguyen, Pia Sanpitak, Jasmine Vu, Ulas Bagci, Laleh Golestanirad:
Predicting RF Heating of Conductive Leads During Magnetic Resonance Imaging at 1.5 T: A Machine Learning Approach*. EMBC 2021: 4204-4208 - [c5]Jasmine Vu, Bhumi Bhusal, Joshua M. Rosenow, Julie Pilitsis, Laleh Golestanirad:
Modifying surgical implantation of deep brain stimulation leads significantly reduces RF-induced heating during 3 T MRI. EMBC 2021: 4978-4981 - [c4]Pia Sanpitak, Bhumi Bhusal, Bach Thanh Nguyen, Jasmine Vu, Kelvin Chow, Xiaoming Bi, Laleh Golestanirad:
On the accuracy of Tier 4 simulations to predict RF heating of wire implants during magnetic resonance imaging at 1.5 T. EMBC 2021: 4982-4985 - 2020
- [c3]Bhumi Bhusal, Nguyen Tran Bach, Jasmine Vu, Behzad Elahi, Joshua M. Rosenow, Mark J. Nolt, Julie Pilitsis, Marisa DiMarzio, Laleh Golestanirad:
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. EMBC 2020: 5192-5197 - [c2]Jasmine Vu, Bhumi Bhusal, Nguyen Tran Bach, Laleh Golestanirad:
Evaluating Accuracy of Numerical Simulations in Predicting Heating of Wire Implants During MRI at 1.5 T. EMBC 2020: 6107-6110 - [c1]Ehsan Kazemivalipour, Jasmine Vu, Stella Lin, Bhumi Bhusal, Bach Thanh Nguyen, John E. Kirsch, Behzad Elahi, Joshua M. Rosenow, Ergin Atalar, Laleh Golestanirad:
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. EMBC 2020: 6143-6146
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