Research Topics
| Erik FransenSummaryAffiliation: Royal Institute of Technology Country: Sweden Publications
| Collaborators
|
Detail Information
Publications
Ionic mechanisms in the generation of subthreshold oscillations and action potential clustering in entorhinal layer II stellate neuronsErik Fransen
Department of Numerical Analysis and Computer Science, Royal Institute of Technology, Stockholm, Sweden
Hippocampus 14:368-84. 2004..The model also predicts that the fast component of Ih is responsible for the involvement in the generation of subthreshold oscillations, and the slow component dominates in the generation of spike clusters...- Functional role of entorhinal cortex in working memory processingErik Fransen
Department of Numerical Analysis and Computer Science, Royal Institute of Technology, SE 10044 Stockholm, Sweden
Neural Netw 18:1141-9. 2005..In both cases, we discuss how cationic currents might be involved and relate their kinetics and pharmacology to behavioral and cellular experimental results... - Mechanism of graded persistent cellular activity of entorhinal cortex layer v neuronsErik Fransen
School of Computer Science and Communication, Royal Institute of Technology, SE 100 44 Stockholm, Sweden
Neuron 49:735-46. 2006..The model is consistent with detailed experimental observations and provides a mechanism for maintenance of memory-related activity in individual neurons... - Simulations of the role of the muscarinic-activated calcium-sensitive nonspecific cation current INCM in entorhinal neuronal activity during delayed matching tasksErik Fransen
Department of Numerical Analysis and Computer Science, Royal Institute of Technology, S-100 44 Stockholm, Sweden
J Neurosci 22:1081-97. 2002.... 
Reversing nerve cell pathology by optimizing modulatory action on target ion channelsJenny Tigerholm
Department of Computational Biology, School of Computer Science and Communication, Royal Institute of Technology, Stockholm, Sweden
Biophys J 101:1871-9. 2011..We suggest that the optimization procedure can be used not only for neurons, but also for other organs with excitable cells, such as the heart and pancreas where channelopathies are found...- Role of A-type potassium currents in excitability, network synchronicity, and epilepsyErik Fransen
Department of Computational Biology, School of Computer Science and Communication, Royal Institute of Technology, AlbaNova University Center, Stockholm, Sweden
Hippocampus 20:877-87. 2010..Wealso suggest that compounds changing K(A)-kinetics may be used to pharmacologically improve epileptic status... 
Integration of synchronous synaptic input in CA1 pyramidal neuron depends on spatial and temporal distributions of the inputJenny Tigerholm
Department of Computational Biology, School of Computer Science and Communication, KTH Royal Institute of Technology, SE 106 91 Stockholm, Sweden
Hippocampus 23:87-99. 2013..We suggest that dendritic conductances and their modulatory systems may be part of the regulation of processing of information, in particular for how network synchronicity affects learning and memory...- Dampening of hyperexcitability in CA1 pyramidal neurons by polyunsaturated fatty acids acting on voltage-gated ion channelsJenny Tigerholm
Department of Computational Biology, School of Computer Science and Communication, KTH Royal Institute of Technology, Stockholm, Sweden
PLoS ONE 7:e44388. 2012....