L
L. Niehaus
Researcher at Otto-von-Guericke University Magdeburg
Publications - 23
Citations - 1423
L. Niehaus is an academic researcher from Otto-von-Guericke University Magdeburg. The author has contributed to research in topics: Transcranial magnetic stimulation & Corpus callosum. The author has an hindex of 15, co-authored 22 publications receiving 1283 citations. Previous affiliations of L. Niehaus include Charité.
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Journal ArticleDOI
Imbalance between Left and Right Dorsolateral Prefrontal Cortex in Major Depression Is Linked to Negative Emotional Judgment : An fMRI Study in Severe Major Depressive Disorder
Simone Grimm,Johannes Beck,Daniel Schuepbach,Daniel Hell,Peter Boesiger,Felix Bermpohl,L. Niehaus,Heinz Boeker,Georg Northoff,Georg Northoff +9 more
TL;DR: Left-right DLPFC imbalance is characterized in neuropsychological regard, which bridges the gap from resting metabolism and therapeutic repetitive transcranial magnetic stimulation effects to functional neuroanatomy of altered emotional-cognitive interaction in MDD.
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Transcranial brain parenchyma sonography in movement disorders: state of the art
TL;DR: TCS is a quick and noninvasive method, using the same duplex-ultrasound machines as for investigation of intracranial vessels, applicable even in agitated patients, and has a great potential to be more widely used.
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Ageing and early-stage Parkinson's disease affect separable neural mechanisms of mesolimbic reward processing
Björn H. Schott,L. Niehaus,Bianca C. Wittmann,Hartmut Schütze,Constanze I. Seidenbecher,Hans-Jochen Heinze,Emrah Düzel +6 more
TL;DR: The results are compatible with existing behavioural evidence that both groups exhibit a particularly pronounced deficit in learning from positive feedback and support the view that a tendency to underestimate expected values of reward cues might underlie this deficit.
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Contemporary ultrasound systems allow high-resolution transcranial imaging of small echogenic deep intracranial structures similarly as MRI: A phantom study
TL;DR: Findings suggest that contemporary TCS systems achieve higher image resolution of intracranial structures in comparison not only to former-generation systems, but also to MRI under clinical conditions.
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Conduction deficits of callosal fibres in early multiple sclerosis.
TL;DR: The assessment of TI allows the discovery of lesions within the periventricular white matter that were not accessible by neurophysiological techniques before and increases the sensitivity of TMS with which to detect central conduction deficits in early multiple sclerosis.