F
Franz Fazekas
Researcher at Medical University of Graz
Publications - 634
Citations - 59050
Franz Fazekas is an academic researcher from Medical University of Graz. The author has contributed to research in topics: Hyperintensity & Stroke. The author has an hindex of 101, co-authored 629 publications receiving 49775 citations. Previous affiliations of Franz Fazekas include Hospital of the University of Pennsylvania & University of Graz.
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Journal ArticleDOI
Levodopa changes brain motor network function during ankle movements in Parkinson’s disease
Petra Schwingenschuh,Petra Katschnig,Margit Jehna,Mariella Koegl-Wallner,Stephan Seiler,Karoline Wenzel,Stefan Ropele,Christian Langkammer,Thomas Gattringer,Martin Svehlik,Erwin Ott,Franz Fazekas,Reinhold Schmidt,Christian Enzinger +13 more
TL;DR: It is speculated that the putamen and thalamus show the most prominent response to levodopa within the cortico-subcortical motor-circuit in the context of nigrostriatal dysfunction in patients with PD.
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Cerebral white matter hyperintensities (WMH): an analysis of cerebrovascular risk factors in Lebanon.
TL;DR: From this first ever retrospective Lebanese study, WMH was reported increasingly with aging in accordance with data from the literature; PVWMH was found significantly more correlated with aging and HTN than was DWMH alone.
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White-matter changes on MRI as surrogate marker.
TL;DR: In this article, the use of white-matter changes as identified on MRI as a surrogate marker in clinical trials on vascular dementia was reviewed, in view of the limited sensitivity to change of current methods and the high measurement error.
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Clinical predominance of proximal upper limb weakness in CMT1A syndrome.
Michaela Auer-Grumbach,Klaus Wagner,S. Strasser-Fuchs,Wolfgang Löscher,Franz Fazekas,Michael M. Millner,Hans-Peter Hartung +6 more
TL;DR: An Austrian family with proximal muscle weakness and wasting predominantly of the shoulder girdle musculature, normal or slightly reduced distal muscle power, mild foot deformity, absent or reduced tendon reflexes in the lower limbs, andnormal or slightly diminished sensation is reported.
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Super-resolution MRI using microscopic spatial modulation of magnetization.
TL;DR: First super‐resolution experiments in a geometric phantom and in brain tissue of two healthy volunteers clearly demonstrate the feasibility and advantages of this new method, which has the capability to extend current resolution limits in MRI.