2022 - Research.com Neuroscience in Finland Leader Award
Iiro P. Jääskeläinen mainly investigates Auditory cortex, Magnetoencephalography, Mismatch negativity, Neuroscience and Electroencephalography. The various areas that Iiro P. Jääskeläinen examines in his Auditory cortex study include Receptive field and Perception, Auditory perception. His research integrates issues of Stimulus, Event-related potential and Audiology in his study of Magnetoencephalography.
As part of the same scientific family, Iiro P. Jääskeläinen usually focuses on Mismatch negativity, concentrating on Communication and intersecting with Motion, Social relation, Electroencephalography Phase Synchronization and Dynamic functional connectivity. His Neuroscience research is multidisciplinary, relying on both Hemodynamics and Right hemisphere. The Electroencephalography study combines topics in areas such as Adaptive filter, Filter, Motion artifacts and Artifact.
The scientist’s investigation covers issues in Neuroscience, Magnetoencephalography, Functional magnetic resonance imaging, Auditory cortex and Audiology. Within one scientific family, Iiro P. Jääskeläinen focuses on topics pertaining to Acetylcholine under Neuroscience, and may sometimes address concerns connected to Scopolamine Hydrobromide and Muscarinic antagonist. His study with Magnetoencephalography involves better knowledge in Electroencephalography.
His Functional magnetic resonance imaging study combines topics from a wide range of disciplines, such as Cognitive psychology, Neuroimaging, Voxel, Brain activity and meditation and Pattern recognition. Iiro P. Jääskeläinen combines subjects such as Speech perception, Perception, Auditory perception, Stimulus and Visual cortex with his study of Auditory cortex. His work in Audiology tackles topics such as Developmental psychology which are related to areas like Distraction.
His primary scientific interests are in Functional magnetic resonance imaging, Brain activity and meditation, Cognitive psychology, Neuroimaging and Neuroscience. Iiro P. Jääskeläinen interconnects Context, Speech perception, Prefrontal cortex, Voxel and Visual cortex in the investigation of issues within Functional magnetic resonance imaging. His Brain activity and meditation study incorporates themes from Developmental psychology, Social cognition, Temporoparietal junction, Precuneus and Amygdala.
In his study, which falls under the umbrella issue of Developmental psychology, Posterior cingulate is strongly linked to Brain mapping. His biological study spans a wide range of topics, including Cognition, Default mode network, Perception and Narrative. His study in Neuroscience concentrates on Human brain, Laughter, Valence, Cortex and Macaque.
His main research concerns Functional magnetic resonance imaging, Brain activity and meditation, Neuroscience, Cognitive psychology and Human brain. His Functional magnetic resonance imaging research incorporates elements of Artificial neural network, Context and Univariate. In his work, Neurocognitive, Social cognition, Posterior cingulate and Cognition is strongly intertwined with Brain mapping, which is a subfield of Brain activity and meditation.
His work deals with themes such as Social grooming and Opioid receptor, which intersect with Neuroscience. His Cognitive psychology research is multidisciplinary, incorporating perspectives in Temporoparietal junction, Angular gyrus and Cognitive style. The study incorporates disciplines such as Insula, Somatosensory system, Thalamus, Neuroimaging and Primary motor cortex in addition to Human brain.
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Human posterior auditory cortex gates novel sounds to consciousness.
Iiro P. Jääskeläinen;Jyrki Ahveninen;Giorgio Bonmassar;Anders M. Dale.
Proceedings of the National Academy of Sciences of the United States of America (2004)
Emotions promote social interaction by synchronizing brain activity across individuals.
Lauri Nummenmaa;Enrico Glerean;Mikko Viinikainen;Iiro P. Jääskeläinen.
Proceedings of the National Academy of Sciences of the United States of America (2012)
Task-modulated what and where pathways in human auditory cortex
Jyrki Ahveninen;Iiro P. Jääskeläinen;Iiro P. Jääskeläinen;Tommi Raij;Giorgio Bonmassar.
Proceedings of the National Academy of Sciences of the United States of America (2006)
Processing of novel sounds and frequency changes in the human auditory cortex: Magnetoencephalographic recordings
Kimmo Alho;Kimmo Alho;István Winkler;István Winkler;Carles Escera;Minna Huotilainen;Minna Huotilainen.
Large-scale brain networks emerge from dynamic processing of musical timbre, key and rhythm.
Vinoo Alluri;Petri Toiviainen;Iiro P. Jääskeläinen;Enrico Glerean.
Occurrence of sialic acids in healthy humans and different disorders
Sillanaukee P;Pönniö M;Jääskeläinen Ip.
European Journal of Clinical Investigation (1999)
Primary auditory cortex activation by visual speech: an fMRI study at 3 T
Johanna Pekkola;Ville Ojanen;Taina Autti;Iiro P Jääskeläinen.
Discrete Neural Signatures of Basic Emotions
Heini Saarimäki;Athanasios Gotsopoulos;Iiro P. Jääskeläinen;Jouko Lampinen.
Cerebral Cortex (2016)
Motion and ballistocardiogram artifact removal for interleaved recording of EEG and EPs during MRI.
Giorgio Bonmassar;Patrick L. Purdon;Iiro P. Jääskeläinen;Keith Chiappa.
Functional MRI of the vocalization-processing network in the macaque brain
Michael Ortiz-Rios;Michael Ortiz-Rios;Paweł Kuśmierek;Iain DeWitt;Denis Archakov;Denis Archakov.
Frontiers in Neuroscience (2015)
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