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Ilaria Liorni
Researcher at ETH Zurich
Publications - 44
Citations - 687
Ilaria Liorni is an academic researcher from ETH Zurich. The author has contributed to research in topics: Transcranial direct-current stimulation & Population. The author has an hindex of 12, co-authored 43 publications receiving 533 citations. Previous affiliations of Ilaria Liorni include Polytechnic University of Milan & Leonardo.
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Modelling the electric field and the current density generated by cerebellar transcranial DC stimulation in humans.
Marta Parazzini,Elena Rossi,Roberta Ferrucci,Roberta Ferrucci,Ilaria Liorni,Alberto Priori,Alberto Priori,Paolo Ravazzani +7 more
TL;DR: Modeling approach reveals that during cerebellar tDCS the current spread to other structures outside the cerebellum is unlike to produce functional effects, thus further supporting the safety of this technique.
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Modeling the current density generated by transcutaneous spinal direct current stimulation (tsDCS)
Marta Parazzini,Serena Fiocchi,Ilaria Liorni,Elena Rossi,Elena Rossi,Filippo Cogiamanian,Filippo Cogiamanian,Maurizio Vergari,Maurizio Vergari,Alberto Priori,Alberto Priori,Paolo Ravazzani +11 more
TL;DR: Modeling reveals that the J generated by tsDCS reaches the spinal cord, with a current spread also to the muscle on the back and the spinal nerve, a first step in better understanding the mechanisms underlying tsDCS.
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Deep Transcranial Magnetic Stimulation: Modeling of Different Coil Configurations
TL;DR: The results support that the double cone coils and the large diameter circular coils are more prone to activate deeper brain structures but are also characterized by a reduced focality on the surface of the cortex, with the consequent possible counter effect of stimulating regions not of interest.
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A Computational Model of the Electric Field Distribution due to Regional Personalized or Nonpersonalized Electrodes to Select Transcranial Electric Stimulation Target
Marta Parazzini,Serena Fiocchi,Andrea Cancelli,Carlo Cottone,Ilaria Liorni,Paolo Ravazzani,Franca Tecchio +6 more
TL;DR: The E distributions induced for both targets (M1 and S1) by the RePE are different from the ones due to the ReNPE, along the whole extent of the bilateral primary sensorimotor cortices.
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Computational modeling of transcranial direct current stimulation in the child brain: implications for the treatment of refractory childhood focal epilepsy
Marta Parazzini,Serena Fiocchi,Ilaria Liorni,Ilaria Liorni,Alberto Priori,Alberto Priori,Paolo Ravazzani +6 more
TL;DR: Simulation of the influence of the position of the anodal electrode on the electric field in the brain shows that moving the anode from scalp to shoulder does influence theElectric field not only in the cortex, but also in deeper brain regions.