Petersson ME, Obreja O, Lampert A, Carr R, Schmelz M, Fransén E. C-type peripheral nociceptors differ in axonal ion channel densities. Manuscript in preparation
Tigerholm J*, Petersson ME*, Obreja O, Lampert A, Carr R, Schmelz M, Fransén E. Modelling post-spike excitability changes in peripheral C-fibers.
Manuscript in preparation
*authors contributed equally
Tigerholm J*, Petersson ME*, Obreja O, Lampert A, Carr R, Schmelz M, Fransén E. Modelling activity-dependent changes of axonal spike conduction in primary afferent C-nociceptors.
Submitted 2012
*authors contributed equally
Petersson ME, Fransén E. Long-lasting small-amplitude TRP-mediated dendritic depolarizations in CA1 pyramidal neurons are intrinsically stable and originate from distal tuft regions. Eur J Neurosci. 2012 36:2917-2925. (link)
Petersson ME, Yoshida M, Fransén EA. Low-frequency summation of synaptically activated transient receptor potential channel-mediated depolarizations. Eur J Neurosci. 2011, 34:578-93. (link)
Dendritic and axonal ion channels supporting neuronal integration - From pyramidal neurons to peripheral nociceptors.
Marcus Petersson, Royal Institute of Technology, 2012. (link)
Beyond AMPA and NMDA: Slow synaptic mGlu/TRPC currents - Implications for dendritic integration.
Marcus Petersson, Royal Institute of Technology, 2010. (link)
Computational Modeling of Deep Brain Stimulation.
Marcus E. Petersson, Linköping University, 2007. (link)
Differences in action potential propagation in mechanosensitive and insensitive C-fiber nociceptors - A modelling approach. Fransén E, Petersson ME, Tigerholm J, Andersson SA, Obreja O, Lampert A, Carr R, Schmelz M
Society for Neuroscience, New Orleans, 2012.
Stable subthreshold dendritic membrane potential plateaus maintained by TRP currents. Marcus E. Petersson, Erik A. Fransén
Society for Neuroscience, Washington DC, 2011.
Computational modeling of activity-depedent velocity changes in peripheral C-fibers. Fransén E, Tigerholm J, Petersson ME, Obreja O, Lampert A, Carr R, Schmelz M
Society for Neuroscience, Washington DC, 2011.
Role of TRP channels in dendritic integration and subthreshold membrane potential plateaus. Marcus E. Petersson, Erik A. Fransén
CNS*2011, Stockholm, 2011.
Role of TRPC channels in dendritic integration and subthreshold membrane potential plateaus. Marcus E. Petersson, Erik A. Fransén
Society for Neuroscience, San Diego, 2010.
TRPC channels activated by group I mGluR in Entorhinal pyramidal neurons support integration of low frequency (<10 Hz) synaptic inputs. Marcus E. Petersson, Erik Fransén
CNS*2009, Berlin, 2009.
Reducing epileptogenic activity by modifying neuron responses to synchronized input using novel potassium channels obtained by parameter search optimization. Erik Fransén, Jenny Tigerholm, Marcus E. Petersson
INCF Neuroinformatics, Stockholm, 2008.