Bianchi D et al. (2022). Membrane electrical properties of mouse hippocampal CA1 pyramidal neurons during strong inputs Biophysical journal. 121 [PubMed]

• Membrane electrical properties of mouse CA1 pyramidal cells during strong inputs (Bianchi et al 22) [Model]

Gentiletti D, Suffczynski P, Gnatkovsky V, de Curtis M. (2017). Changes of Ionic Concentrations During Seizure Transitions - A Modeling Study. International journal of neural systems. 27 [PubMed]

• Changes of ionic concentrations during seizure transitions (Gentiletti et al. 2016) [Model]

Halnes G et al. (2016). Effect of Ionic Diffusion on Extracellular Potentials in Neural Tissue. PLoS computational biology. 12 [PubMed]

• Effect of ionic diffusion on extracellular potentials (Halnes et al 2016) [Model]

Krishnan GP, Filatov G, Shilnikov A, Bazhenov M. (2015). Electrogenic properties of the Na?/K? ATPase control transitions between normal and pathological brain states. Journal of neurophysiology. 113 [PubMed]

• Single cell model with variable ion concentrations and Na+/K+ ATPase (Krishnan et al. 2015) [Model]

Sætra MJ, Ellingsrud AJ, Rognes ME. (2023). Neural activity induces strongly coupled electro-chemo-mechanical interactions and fluid flow in astrocyte networks and extracellular space-A computational study. PLoS computational biology. 19 [PubMed]

Sætra MJ, Ellingsrud AJ, Rognes ME. (2023). Neural activity induces strongly coupled electro-chemo-mechanical interactions and fluid flow in astrocyte networks and extracellular space-A computational study. PLoS computational biology. 19 [PubMed]

• ffian: Fluid Flow In Astrocyte Networks (Sætra et al. 2023) [Model]

Østby I et al. (2009). Astrocytic mechanisms explaining neural-activity-induced shrinkage of extraneuronal space. PLoS computational biology. 5 [PubMed]

• Mechanisms of extraneuronal space shrinkage (Ostby et al 2009) [Model]