Cameron McIntyre

Professor, Biomedical Engineering
Engineers the next generation of neuromodulation technology

Publications

Bower, K., & McIntyre, C. (2020). Deep brain stimulation of terminating axons. Brain Stimulation, 13 (6), 1863-1870.
Sweet, J., Thyagaraj, S., Chen, Z., Tatsuoka, C., Staudt, M., Calabrese, J., Miller, J., Gao, K., & McIntyre, C. (2020). Connectivity-based identification of a potential neurosurgical target for mood disorders. Journal of Psychiatric Research, 125 , 113-120.
Sweet, J., Beylergil, S., Thyagaraj, S., Herring, E., Drapekin, J., Gao, K., Calabrese, J., Miller, J., & McIntyre, C. (2020). Clinical Evaluation of Cingulum Bundle Connectivity for Neurosurgical Hypothesis Development. Neurosurgery, 86 (5), 724-735.
Ramirez-Zamora, A., Giordano, J., Gunduz, A., Alcantara, J., Cagle, J., Cernera, S., Difuntorum, P., Eisinger, R., Gomez, J., Long, S., Parks, B., Wong, J., Chiu, S., Patel, B., Grill, W., Walker, H., Little, S., Gilron, R., Tinkhauser, G., Thevathasan, W., Sinclair, N., Lozano, A., Foltynie, T., Fasano, A., Sheth, S., Scangos, K., Sanger, T., Miller, J., Brumback, A., Rajasethupathy, P., & McIntyre, C. (2020). Proceedings of the Seventh Annual Deep Brain Stimulation Think Tank: Advances in Neurophysiology, Adaptive DBS, Virtual Reality, Neuroethics and Technology. Frontiers in Human Neuroscience, 14
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.
Gunalan, K., & McIntyre, C. (2020). Biophysical reconstruction of the signal conduction underlying short-latency cortical evoked potentials generated by subthalamic deep brain stimulation. Clinical Neurophysiology, 131 (2), 542-547.
Sweet, J., Beylergil, S., Thyagaraj, S., Herring, E., Drapekin, J., Gao, K., Calabrese, J., Miller, J., & McIntyre, C. (2019). Clinical Evaluation of Cingulum Bundle Connectivity for Neurosurgical Hypothesis Development. Neurosurgery.
Farokhniaee, A., & McIntyre, C. (2019). Theoretical principles of deep brain stimulation induced synaptic suppression. Brain Stimulation.
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.
McIntyre, C. (2019). 33. Quantifying the Axonal Pathways Directly Stimulated in Therapeutic Subcallosal Cingulate Deep Brain Stimulation. Biological Psychiatry, 85 (10).
Lozano, A., Lipsman, N., Bergman, H., Brown, P., Chabardes, S., Chang, J., Matthews, K., McIntyre, C., Schlaepfer, T., Schulder, M., Temel, Y., Volkmann, J., & Krauss, J. (2019). Deep brain stimulation: current challenges and future directions. Nature Clinical Practice Nephrology, 15 (3), 148-160.
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.
Maling, N., Lempka, S., Blumenfeld, Z., Bronte-Stewart, H., & McIntyre, C. (2018). Biophysical Basis of Subthalamic Local Field Potentials Recorded from Deep Brain Stimulation Electrodes. Journal of Neurophysiology, 120 (4), 1932-1944.
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.
Riva-Posse, P., Choi, K., Holtzheimer, P., Crowell, A., Garlow, S., Rajendra, J., McIntyre, C., Gross, R., & Mayberg, H. (2018). A connectomic approach for subcallosal cingulate deep brain stimulation surgery: prospective targeting in treatment-resistant depression. Molecular Psychiatry, 23 (4), 843-849.
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.
Choi, K., Noecker, A., Riva-Posse, P., Rajendra, J., Gross, R., Mayberg, H., & McIntyre, C. (2018). Impact of brain shift on subcallosal cingulate deep brain stimulation. Brain Stimulation, 11 (2), 445-453.
Noecker, A., Choi, K., Riva-Posse, P., Gross, R., Mayberg, H., & McIntyre, C. (2018). StimVision Software: Examples and Applications in Subcallosal Cingulate Deep Brain Stimulation for Depression: STIMVISION. Neuromodulation: Techhnology at the Neural Interface, 21 (2), 191-196.
Ramirez-Zamora, A., Giordano, J., Gunduz, A., Brown, P., Sanchez, J., Foote, K., Almeida, L., Starr, P., Bronte-Stewart, H., Hu, W., McIntyre, C., Goodman, W., Kumsa, D., Grill, W., Walker, H., Johnson, M., Vitek, J., Greene, D., Rizzuto, D., Song, D., Berger, T., Hampson, R., Deadwyler, S., Hochberg, L., Schiff, N., Stypulkowski, P., Worrell, G., Tiruvadi, V., Mayberg, H., Jimenez-Shahed, J., Nanda, P., Sheth, S., Gross, R., Lempka, S., Li, L., Deeb, W., & Okun, M. (2018). Evolving Applications, Technological Challenges and Future Opportunities in Neuromodulation: Proceedings of the Fifth Annual Deep Brain Stimulation Think Tank. Frontiers in Neuroscience, 11
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).
Hamel, W., Köppen, J., Alesch, F., Antonini, A., Barcia, J., Bergman, H., Chabardes, S., Contarino, M., Cornu, P., Demmel, W., Deuschl, G., Fasano, A., Kühn, A., Limousin, P., McIntyre, C., Mehdorn, H., Pilleri, M., Pollak, P., Rodríguez-Oroz, M., Rumià, J., Samuel, M., Timmermann, L., Valldeoriola, F., Vesper, J., Visser-Vandewalle, V., Volkmann, J., & Lozano, A. (2017). Targeting of the Subthalamic Nucleus for Deep Brain Stimulation: A Survey Among Parkinson Disease Specialists. World Neurosurgery, 99 , 41-46.
Howell, B., & McIntyre, C. (2017). Role of Soft-Tissue Heterogeneity in Computational Models of Deep Brain Stimulation. Brain Stimulation.
Choi, K., Noecker, A., Riva Posse, P., Rajendra, J., Gross, R., Mayberg, H., & McIntyre, C. (2017). The Effect of Brain Shift in Connectomic Targeting for Subcallosal Cingulate Deep Brain Stimulation. Biological Psychiatry, 81 (10), S382-S383.
Riva-Posse, P., Choi, K., Holtzheimer, P., Crowell, A., Garlow, S., Rajendra, J., McIntyre, C., Gross, R., & Mayberg, H. (2017). A connectomic approach for subcallosal cingulate deep brain stimulation surgery: prospective targeting in treatment-resistant depression. Molecular Psychiatry.
Noecker, A., Choi, K., Riva-Posse, P., Gross, R., Mayberg, H., & McIntyre, C. (2017). StimVision Software: Examples and Applications in Subcallosal Cingulate Deep Brain Stimulation for Depression: STIMVISION. Neuromodulation: Techhnology at the Neural Interface.