S
Steffen Prohaska
Researcher at Zuse Institute Berlin
Publications - 90
Citations - 2246
Steffen Prohaska is an academic researcher from Zuse Institute Berlin. The author has contributed to research in topics: Visualization & Centrosome. The author has an hindex of 22, co-authored 89 publications receiving 1857 citations. Previous affiliations of Steffen Prohaska include Laboratory of Molecular Biology & Leipzig University of Applied Sciences.
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A Novel Three-Dimensional Computer-Assisted Method for a Quantitative Study of Microvascular Networks of the Human Cerebral Cortex
TL;DR: The main objective of this study is to propose a new method to analyze this microcirculation, which is a requirement for understanding several aspects of micro Circulation, including oxygen transport, distributions of pressure, and wall shear stress in microvessels.
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NBLAST: Rapid, Sensitive Comparison of Neuronal Structure and Construction of Neuron Family Databases
Marta Costa,James D. Manton,Aaron D. Ostrovsky,Steffen Prohaska,Gregory S.X.E. Jefferis,Gregory S.X.E. Jefferis +5 more
TL;DR: NBLAST can distinguish neuronal types down to the finest level (single identified neurons) without a priori information, and it is shown that NBLAST is effective with data from other invertebrates and zebrafish.
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Stereological measures of trabecular bone structure: comparison of 3D micro computed tomography with 2D histological sections in human proximal tibial bone biopsies
TL;DR: 3D µCT data sets can be used as a substitute for conventional histological sections for bone structural evaluations, indicating that the proximal tibia can be introduced as a potential bone examination location by peripheral quantitative CT and CT.
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Automated segmentation of electron tomograms for a quantitative description of actin filament networks.
Alexander Rigort,David Günther,Reiner Hegerl,Daniel Baum,Britta Weber,Steffen Prohaska,Ohad Medalia,Ohad Medalia,Wolfgang Baumeister,Hans-Christian Hege +9 more
TL;DR: An automated procedure for the segmentation of actin filaments is described, which combines template matching with a new tracing algorithm, and the result is a set of lines, each one representing the central line of a filament.
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C. elegans chromosomes connect to centrosomes by anchoring into the spindle network
Stefanie Redemann,Johannes Baumgart,Norbert Lindow,Michael Shelley,Ehssan Nazockdast,Andrea Kratz,Steffen Prohaska,Jan Brugués,Sebastian Fürthauer,Thomas Müller-Reichert +9 more
TL;DR: The first large-scale serial electron tomography of whole mitotic spindles in early C. elegans embryos with live-cell imaging and quantitatively analysing several models of microtubule growth concludes that minus-ends of KMTs have selectively detached and depolymerized from the centrosome.