(Note: *=undergraduate coauthor)
Patel M, Kulkarni N, Lei H, Lai K, Nematova O, Wei K*, and Lei H. (2022). Experimental and Theoretical Probe on Mechano-and Chemosensory Integration in the Insect Antennal Lobe. Frontiers in Physiology. 14. https://doi.org/10.3389/fphys.2022.1004124. (14 pages).
Ma Linda* and Patel M. (2022). Mechanism of carbachol-induced 40 Hz gamma oscillations and the effects of NMDA activation on oscillatory dynamics in a model of the CA3 subfield of the hippocampus. Journal of Theoretical Biology. 548: 111200. doi: 10.1016/j.jtbi.2022.111200. (14 pages).
Ma Linda* and Patel M. (2022). A Model of Lateral Interactions as the Origin of Multiwhisker Receptive Fields in Rat Barrel Cortex. Journal of Computational Neuroscience. 50: 181-201 Online publication date: 12/1/2021.
Tuckman H*, Patel M, and Lei H. (2021). Effects of Mechanosensory Input on the Tracking of Pulsatile Odor Stimuli by Moth Antennal Lobe Neurons. Frontiers in Neuroscience. 15: 1260 (17 pages). Online publication date: 10/7/2021.
Patel M and Rangan A. (2021). Olfactory Encoding Within the Insect Antennal Lobe: The Emergence and Role of Higher Order Temporal Correlations in the Dynamics of Antennal Lobe Spiking Activity. Journal of Theoretical Biology. 522: 110700 (22 pages).
Tuckman H, Kim J, Rangan A, Lei H, and Patel M. (2021). Dynamics of Sensory Integration of Olfactory and Mechanical Stimuli Within the Response Patterns of Moth Antennal Lobe Neurons. Journal of Theoretical Biology. 509: 110510 (18 pages). Online publication date: 10/3/2020.
Patel M. (2019). Analysis of Feedforward Mechanisms of Multiwhisker Receptive Field Generation in a Model of the Rat Barrel Cortex. Journal of Theoretical Biology. 477: 51-62. https://doi.org/10.1016/j.jtbi.2019.06.008.
Patel M. (2018). Effects of Adaptation on Discrimination of Whisker Deflection Velocity and Angular Direction in a Model of the Barrel Cortex. Frontiers in Computational Neuroscience. 12:1-15.
Patel M. and Joshi B. (2018). Deterministic Stability Regimes and Noise-Induced Quasistable Behavior in a Pair of Reciprocally Inhibitory Neurons. Journal of Theoretical Biology. 441:68-83.
Patel M. (2018). Spiking and Excitatory/Inhibitory Input Dynamics of Barrel Cells in Response to Whisker Deflections of Varying Velocity and Angular Direction. Neuroscience. 369: 15-28.
Patel M and Rangan A. (2017). Role of the Locus Coeruleus in the Emergence of Power Law Wake Bouts in a Model of the Brainstem Sleep-Wake System During Early Infancy. Journal of Theoretical Biology. 426: 82-95.
Patel M. (2016). A Simplified Model of Mutually Inhibitory Sleep-Active and Wake-Active Neuronal Populations Employing a Noise-Based Switching Mechanism. Journal of Theoretical Biology. 394: 127-136.
Patel M and Joshi B. (2015). Modeling the Evolving Oscillatory Dynamics of the Rat Locus Coeruleus Through Early Infancy. Brain Research. 1618, 181-193.
Liu R, Patel M, and Joshi B. (2014). Encoding Whisker Deflection Velocity within the Rodent Barrel Cortex Using Phase-Delayed Inhibition. Journal of Computational Neuroscience. 37, 387-401.
Patel M and Joshi B. (2014). Switching mechanisms and bout times in a pair of reciprocally inhibitory neurons. J Computational Neuroscience. 36, 177-191.
Joshi B and Patel M. (2013). Encoding with synchrony: Phase-delayed inhibition allows for reliable and specific stimulus detection. J Theoretical Biology. 328, 26-32.
Patel M and Joshi B. (2013). Decoding Synchronized Oscillations within the Brain: Phase-Delayed Inhibition Provides a Robust Mechanism for Creating a Sharp Synchrony Filter. J Theoretical Biology. 334C, 13-25.
Patel M and Reed M. (2013). Stimulus Encoding Within the Barn Owl Optic Tectum Using Gamma Oscillations versus Spike Rate: A Modeling Approach. Network. 24, 52-74.
Patel M, Rangan AV, Cai D. (2013). Coding of Odors by Temporal Binding within a Model Network of the Locust Antennal Lobe. Frontiers in Computational Neuroscience. 7, 50-67.
Patel M, Rangan AV, Cai D. (2009). A large-scale model of the locust antennal lobe. J Computational Neuroscience. 27, 553-567.