Neural Models and Analysis

    2025
  1. Cortical Coding of Gustatory and Thermal Signals in Active Licking Mice
    Audrey N. Nash, Morgan Shakeshaft, Cecilia G. Bouaichi, Katherine E. Odegaard, Tom Needham, Martin Bauer, Richard Bertram, Roberto Vincis
    Journal of Physiology, 603:909-928, (2025).

    2. 2024
  2. Population Bursts in a Modular Neural Network as a Mechanism for Synchronized Activity in KNDy Neurons
    Wilfredo Blanco, Joel Tabak, Richard Bertram
    PLoS Computational Biology, 20(7):e1011820, (2024).

    3. 2023
  3. A Mathematical Study of the Efficacy of Possible Negative Feedback Pathways Involved in Neuronal Polarization
    Fan Bai, Richard Bertram, Bhargav R. Karamched
    Journal of Theoretical Biology, 571:111561, (2023).

    4. 2022
  4. Active Licking Shapes Cortical Taste Coding
    Camden Neese, Cecillia G. Bouaichi, Tom Needham, Martin Bauer, Richard Bertram, Roberto Vincis
    Journal of Neuroscience, 42: 8658-8669, (2022).

  5. A Closed-Loop Multi-Scale Model for Intrinsic Frequency-Dependent Regulation of Axonal Growth
    Fan Bai, Richard Bertram, Bhargav R. Karamched
    Mathematical Biosciences, 344: 108768, (2022).

    6. 2021
  6. Fast-Slow Analysis as a Technique for Understanding the Neuronal Response to Current Ramps
    Kelsey Gasior, Kirill Korshunov, Paul Q. Trombley, Richard Bertram
    Journal of Computational Neuroscience, doi: 10.1007/s10827-021-00799-0, (2021).

    7. 2020
  7. Spiking and Membrane Properties of Rat Olfactory Bulb Dopamine Neurons
    Kirill S. Korshunov, Laura J. Blakemore, Richard Bertram, Paul Q. Trombley
    Frontiers in Cellular Neuroscience, 14:60, doi: 10.3389/fncel.2020.00060, (2020).

    8. 2019
  8. Neural Networks in Health and Disease
    Richard Bertram and Richard L. Hyson
    Systems Medicine: Integrative Qualitative and Computational Approaches
    DOI: doi.org/10.1016/B978-0-12-801238-3.11470-9, (2019).

    9. 2018
  9. The Intrinsic Physiology of Inhibitory Neurons Changes Over Auditory Development
    Briana J. Carroll, Richard Bertram, Richard L. Hyson
    Journal of Neurophysiology, 119:290-304, (2018).

    10. 2017
  10. The Effects of GABAergic Polarity Changes on Episodic Neural Network Activity in Developing Neural Systems
    Wilfredo Blanco, Richard Bertram, Joel Tabak
    Frontiers in Computational Neuroscience, 11(88), doi: 10.3389/fncom.2017.00088, (2017).

    11. 2014
  11. The Contributions of Divisive and Subtractive Feedback in the Hodgkin-Huxley Model
    Sevgi Sengul, Robert Clewley, Richard Bertram, Joel Tabak
    Journal of Computational Neuroscience, 37:403-415, (2014).

    12. 2011
  12. Quantifying the Relative Contributions of Divisive and Subtractive Feedback to Rhythm Generation
    Joel Tabak, John Rinzel, Richard Bertram
    PLoS Computational Biology, 7(4):e1001124. doi:10.1371/journal.pcbi.1001124, (2011).

    13. 2010
  13. Mechanism for the Universal Pattern of Activity in Developing Neuronal Networks
    Joel Tabak, Michael Mascagni, Richard Bertram
    Journal of Neurophysiology, 103:2208-2221, (2010).

    14. 2009
  14. Correlation Analysis: A Tool for Comparing Relaxation-Type Models to Experimental Data
    Maurizio Tomaiuolo, Joel Tabak, Richard Bertram
    Methods in Enzymology, 467:1-22, (2009).

    15. 2008
  15. A Phantom Bursting Mechanism for Episodic Bursting
    Richard Bertram, Joseph Rhoads, Wendy P. Cimbora
    Bulletin of Mathematical Biology, 70:1979-1993, (2008).

    16. 1996
  16. Modeling N-Methyl-D-Aspartate-Induced Bursting in Dopamine Neurons
    Yue-Xian Li, Richard Bertram, and John Rinzel
    Neuroscience 71:397-410, (1996).

    17. 1993
  17. A Computational Study of the Effects of Serotonin on a Molluscan Burster Neuron
    Richard Bertram
    Biological Cybernetics, 69:257-267, (1993)