Bryan Howell

Publications

Howell, B., & McIntyre, C. (2020). Feasibility of Interferential and Pulsed Transcranial Electrical Stimulation for Neuromodulation at the Human Scale. Neuromodulation: Techhnology at the Neural Interface.
Howell, B., Gunalan, K., & McIntyre, C. (2019). A Driving-Force Predictor for Estimating Pathway Activation in Patient-Specific Models of Deep Brain Stimulation: PATHWAY ACTIVATION PREDICTOR. Neuromodulation: Techhnology at the Neural Interface, 22 (4), 403-415.
Howell, B., Choi, K., Gunalan, K., Rajendra, J., Mayberg, H., & McIntyre, C. (2019). Cover Image. Human Brain Mapping, 40 (3), i-i.
Howell, B., Choi, K., Gunalan, K., Rajendra, J., Mayberg, H., & McIntyre, C. (2019). Quantifying the axonal pathways directly stimulated in therapeutic subcallosal cingulate deep brain stimulation. Human Brain Mapping, 40 (3), 889-903.
Howell, B., Choi, K., Gunalan, K., Rajendra, J., Mayberg, H., & McIntyre, C. (2018). Quantifying the axonal pathways directly stimulated in therapeutic subcallosal cingulate deep brain stimulation. Human Brain Mapping.
Anderson, R., Farokhniaee, A., Gunalan, K., Howell, B., & McIntyre, C. (2018). Action potential initiation, propagation, and cortical invasion in the hyperdirect pathway during subthalamic deep brain stimulation. Brain Stimulation, 11 (5), 1140-1150.
Gunalan, K., Howell, B., & McIntyre, C. (2018). Quantifying axonal responses in patient-specific models of subthalamic deep brain stimulation. NeuroImage, 172 , 263-277.
Lempka, S., Howell, B., Gunalan, K., Machado, A., & McIntyre, C. (2018). Characterization of the stimulus waveforms generated by implantable pulse generators for deep brain stimulation. Clinical Neurophysiology, 129 (4), 731-742.
Gunalan, K., Chaturvedi, A., Howell, B., Duchin, Y., Lempka, S., Patriat, R., Sapiro, G., Harel, N., & McIntyre, C. (2017). Creating and parameterizing patient-specific deep brain stimulation pathway-activation models using the hyperdirect pathway as an example. PLoS ONE, 12 (4).
Howell, B., & McIntyre, C. (2017). Role of Soft-Tissue Heterogeneity in Computational Models of Deep Brain Stimulation. Brain Stimulation.