Dr. rer. nat. Mohsen Alavash

Photo of Mohsen  Alavash


Maria-Goeppert-Str. 9a
23562 Lübeck
Gebäude MFC 8, 1. OG, Raum 6

Email: m.alavash(at)uni-luebeck.de
Phone: +49 451 3101 3636
Fax: +49 451 3101 3604

 

Forschungsinteressen

Bereiche

Dynamik und Anpassungsfähigkeit der funktionellen Netzwerkmodelle des Gehirns und deren Beziehung zu exekutiver Kontrolle 

Merkmale von komplexen Netzwerkmodellen des Gehirns in Hör- und Sprachverarbeitung

Methoden

Theorie komplexer Systeme und Netzwerke

Funktionelle Bildgebung (fMRT, E/MEG)

Biologische Signalverarbeitung

Computerwissenschaften

 Karriere: 

Seit 2016

Postdoc

Forschungsgruppe "Auditive Kognition", Institut für Psychologie I, Universität zu Lübeck
2015-2016

Postdoc

Forschungsgruppe "Auditive Kognition", Max-Planck-Institut für Kognitions- und Neurowissenschaften, Leipzig
2012-2015

Doktorand

Institut für Psychologie, Carl von Ossietzky Universität Oldenburg

 

 Ausbildung: 

2012-2015

Carl von Ossietzky Universität Oldenburg

PhD Kognitive Neurowissenschaften
2008-2011

Islamische Azad Universität, Teheran, Iran

MSc Biomedizintechnik
2002-2008

Islamische Azad University, Teheran, Iran

BSc Biomedizintechnik

 

Publikationen:

Alavash M, Obleser J (2024). Brain network interconnectivity dynamics explain metacognitive differences in listening behavior. J Neurosci 44(31):e2322232024

Alavash M, Tune S, Obleser J (2021). Dynamic large-scale connectivity of intrinsic cortical oscillations supports adaptive listening in challenging conditions. PLoS Biol 19 (10):e3001410.

Tune S, Alavash M, Fiedler L, Obleser J (2021). Neural attentional-filter mechanisms of listening success in middle-aged and older individuals. Nature Commun 12 (1), 1-14.

Gießing, C., Alavash, M., Herrmann, CS., Hilgetag, CC., Thiel, CM. (2020). Individual differences in local functional brain connectivity affect TMS effects on behavior. Scientific reports 10(1), 1-12.

Wöstmann, M., Alavash, M. & Obleser, J. (2019). Alpha oscillations in the human brain implement distractor suppression independent of target selection. J Neurosci 39 (49), 9797-9805.

Alavash, M., Tune, S., & Obleser, J. (2018/2019). Modular reconfiguration of an auditory-control brain network supports adaptive listening behavior. (P N A S) 116(2):660-669.

Alavash M, Lim SJ, Thiel CM, Sehm B, Deserno L, Obleser J (2018) Dopaminergic modulation of hemodynamic signal variability and the functional connectome during cognitive performance. NeuroImage (172):341-356.

Alavash M, Daube C, Wöstmann M, Brandmeyer A, Obleser J (2017) Large-scale network dynamics of beta-band oscillations underlie auditory perceptual decision-making. Network Neuroscience 1(2). doi:10.11.62/netn_a_00009.

Alavash M, Thiel CM, Gießing C (2016) Dynamic coupling of complex brain networks with dual-task behavior. NeuroImage 129:233-246.

Alavash M, Hilgetag CC, Thiel CM, Gießing C (2015) Persistency and flexibility of complex brain networks underlie dual-task interference Hum Brain Mapp 36:3542-62.

Dombrowe I, Juravle G, Alavash M, Gießing C, Hilgetag CC (2015). The effect of 10 Hz repetitive transcranial magnetic stimulation of posterior parietal cortex on visual attention. PLoS ONE 10(5): e0126802.

Alavash M, Doebler P, Holing H, Thiel CM, Gießing C (2015) Is functional integration of resting state brain networks an unspecific biomarker for working memory performance?. NeuroImage 108:182-93.

Doebler P, Alavash M, Gießing, C (2014) Adaptive experiments with a multivariate Elo-type algorithm. Behav Res Methods 47:384-94.

Alavash M, Maghooli K, Badie K (2012) Associative classification of mammograms based on parallel mining of image blocks Biomed Eng Appl Basis Commun 24:513.