PhD-Students
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Adrian asendorf
C03
C06 Striatal dopamine and volitional motor control: vigour, planning, and incentive salience
©MedizinFotoKöln
Alisa Bakhareva
A04
A04 The role of the reward system in obesity- and ageing-associated changes of motor behaviours
©MedizinFotoKöln
Magdalena Banwinkler
C03
C03 Striatal dopamine and volitional motor control: vigour, planning, and incentive salience
Thesis:
The Role of the Limbic System in Motivated Behavior: A Multimodal Neuroimaging Approach
©MedizinFotoKöln
Sandrina campos maÇãs
Jun. Res. Group | Dr. Gatto
Jun.-Res.-Group: Sensorimotor Adaptation
©private
Christian Gerloff
B02
B02 Neural network maturation underlying top-down motor control and movement initiation in childhood and adolescence
©MedizinFotoKöln
Jan Götz
A07
A07 Role of synaptic lipid modulated cortical excitability in motor control
©MedizinFotoKöln
Niklas hammer
B01 | MD candidate
B01 Developmental mechanisms affecting motor skills and motor control
Thesis:
Projection-specific hierarchical organisation of somato-dendritic dopamine 2 receptor inhibition among midbrain dopamine neurons
©MedizinFotoKöln
Johannes Hannemann
C01
C01 Identification and selective stimulation of motor recovery-related functional networks after experimental stroke
©MedizinFotoKöln
Theresa heinen
B02
B02 Neural network maturation underlying top-down motor control and movement initiation in childhood and adolescence
Thesis:
Typical brain maturation associated with motor development in children/adolescents and its deviations in subjects with tic disorders – as revealed by functional magnetic resonance imaging
©MedizinFotoKöln
Lena Herkert
C04
C04 Apraxia in Alzheimer’s disease: Plastic reorganization of praxis networks in response to chronically progressive dysfunction
©MedizinFotoKöln
Alicia Jones
C03
C06 Striatal dopamine and volitional motor control: vigour, planning, and incentive salience
©MedizinFotoKöln
Aref Kalantari
C01
C01 Identification and selective stimulation of motor recovery-related functional networks after experimental stroke
©MedizinFotoKöln
Sebastian Kalytta
C03
C06 Striatal dopamine and volitional motor control: vigour, planning, and incentive salience
©MedizinFotoKöln
Jacquelin Kasemir
B01
B01 Developmental mechanisms affecting motor skills and motor control
Thesis:
Developmental stage-specific analysis of molecular disease mechanisms in genetic epileptic encephalopathies
©MedizinFotoKöln
Vera Komeyer
B05
B05 Single-case predictions of motor abilities in health and disease
©MedizinFotoKöln
Vincent Küppers
X02
X02 The interplay between sleep, depressivity and motor performance
©MedizinFotoKöln
Prisca Kuhnhäuser
A07
A07 Role of synaptic lipid modulated cortical excitability in motor control
©MedizinFotoKöln
Martin Lieb
C01
C01 Identification and selective stimulation of motor recovery-related functional networks after experimental stroke
©private
Vlad Mardare
A04
A04 The role of the reward system in obesity- and ageing-associated changes of motor behaviours
©MedizinFotoKöln
Grusha Primal Mathias
B01
B01 Developmental mechanisms affecting motor skills and motor control
Thesis:
Developmental mechanisms affecting motor skills and motor control
©MedizinFotoKöln
Lisa Maurer
C01
C01 Identification and selective stimulation of motor recovery-related functional networks after experimental stroke
©MedizinFotoKöln
Kimia Nazarzadeh
B05
B05 Single-case predictions of motor abilities in health and disease
©MedizinFotoKöln
Anna Pierzchlinska
A05
A05 Neural mechanisms underlying motor flexibility in fruit fly walking
©MedizinFotoKöln
Rebecca Roßberg
B02
B02 Neural network maturation underlying top-down motor control and movement initiation in childhood and adolescence
Thesis:
Typical brain maturation associated with motor development in children/adolescents and its deviations in subjects with tic disorders – as revealed by functional magnetic resonance imaging
©MedizinFotoKöln
Amelie Rummel
C07
©private
Annika Sauter
X04
X04 The modulation of cortical networks for predictive motor control by the subthalamic nucleus:
from functional imaging to deep brain stimulation and recording
©MedizinFotoKöln
Marina Sazhumyan
B03
B03 Modelling neural network dynamics underlying movements in health and disease
©MedizinFotoKöln
Daniela Schenkel
B01 | MD candidate
B01 Developmental mechanisms affecting motor skills and motor control
Thesis:
Characterization of an alpha-synuclein aggregate mouse model of PD
©private
Julia Schmidgen
B02
B02 Neural network maturation underlying top-down motor control and movement initiation in childhood and adolescence
Thesis:
Typical brain maturation associated with motor development in children/adolescence and its deviations in subjects with tic disorders – as revealed by movement-related potentials
©MedizinFotoKöln
Carolin Semmler
X03
X03 Investigating motor and non-motor symptoms affecting outcome in Parkinson’s disease and related disorders.
©MedizinFotoKöln
Maxim Sitter
C03
C06 Striatal dopamine and volitional motor control: vigour, planning, and incentive salience
©MedizinFotoKöln
Nicholai Tecker
C07
©MedizinFotoKöln
Massimo Thiel
A05
A05 Neural mechanisms underlying motor flexibility in fruit fly walking
©MedizinFotoKöln
Magdalena Springer
A06
A06 Sensory-motor pathways controlling voluntary movements in health and disease
magdalena.springer@uni-koeln.de
