A. Reichenbach scite author profile

A. Reichenbach

5Publications

64Citation Statements Received

17Citation Statements Given

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Leipzig University

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A Novel Grid-Based Visualization Approach for Metabolic Networks with Advanced Focus&Context View

Rohrschneider

Heine

Reichenbach

et al. 2010

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Abstract. The universe of biochemical reactions in metabolic pathways can be modeled as a complex network structure augmented with domain specific annotations. Based on the functional properties of the involved reactions, metabolic networks are often clustered into so-called pathways inferred from expert knowledge. To support the domain expert in the exploration and analysis process, we follow the well-known Table Lens metaphor with the possibility to select multiple foci.In this paper, we introduce a novel approach to generate an interactive layout of such a metabolic network taking its hierarchical structure into account and present methods for navigation and exploration that preserve the mental map. The layout places the network nodes on a fixed rectilinear grid and routes the edges orthogonally between the node positions. Our approach supports bundled edge routes heuristically minimizing a given cost function based on the number of bends, the number of edge crossings and the density of edges within a bundle.

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Hepatic retinopathy: morphological features of retinal glial (M�ller) cells accompanying hepatic failure

Reichenbach

Fuchs

Kasper

et al. 1995

Acta Neuropathologica

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Plasma levels of transforming growth factor‐1β and α2‐macroglobulin before and after radical prostatectomy: association to clinicopathological parameters

et al. 2004

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Elevated TGF-beta1 and decreased alpha2-M were consistently found in patients with PCa, and may be considered as risk factors for tumor development and progression. In comparison to PSA, the TGF-beta1 levels displayed a slow decline after radical prostatectomy; this indicates that TGF-beta1 is mainly produced outside the prostatic tissue. Since TGF-beta1 levels are influenced by the BMI, this indicates that PCa might be sensitive to diet.

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Potassium buffering by Müller cells isolated from the center and periphery of the frog retina

Skatchkov

Krůšek

Reichenbach

et al. 1999

Glia

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Müller (radial glial) cells span the retina from the outer to the inner limiting membranes. They are the only glial cells found in the amphibian retina. The thickness of the frog (Rana pipiens) retina decreases by a factor of about four from the center to the periphery. Thus, Müller cells were isolated, by enzymatic dissociation, with stalk lengths from 20 to 140 microm. Their ability to transfer K(+) via the stalk between soma and endfoot was studied. Membrane currents were recorded using the whole-cell voltage-clamp technique with the pipette sealed to either the endfoot or the soma. Inward (I(KIN)) or outward (I(KO)) currents were elicited by rapid increases (3 to 10 mM) or decreases (3 to 1 mM) of the extracellular K(+) concentration ([K(+)](o)) either by local application (close or distant to the recording pipette) or around the entire cell (whole cell perfusion). For the long central cells, the ratio I(KIN)/I(KO) was 4.6 +/- 0.6 SE (n = 9) at the endfoot and 1.7 +/- 0.1 SE (n = 8) at the soma. In cells from the retinal periphery, the ratio I(KIN)/I(KO) was higher, 7.0 +/- 0.27 (n = 8) at the endfoot and 3.2 +/- 0.1 (n = 10) at the soma. The results suggest that there is less inward rectification in the somatic than in the endfoot membrane. As expected from previous studies, the sensitivity of the cells to K(+) was higher at the endfoot than at the soma. The amplitude of I(KIN) at the endfoot compared to the soma was about 8-fold for the long central cells but only about 1.5-fold for the short peripheral cells. Currents spread readily from endfoot to soma in the peripheral cells. In the long central Müller cells the soma and endfoot appeared electrotonically isolated. The "functional length constant", lambda, of cell stalk processes was about 70 microm. The relative decrement of large inward currents was stronger than that of smaller outward currents; this difference ("artificial rectification") is explained by a simple model, where larger currents (inward) are attenuated more than smaller (outward) currents. The data support the hypothesis that in the retinal periphery, Müller cells provide extensive spatial K(+) buffering from both plexiform layers into the vitreous body. In the central retina, however, such currents are limited within a short (interlaminar) range.

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V–Bundles: Clustering Fiber Trajectories from Diffusion MRI in Linear Time

Reichenbach

Goldau

Heine

et al. 2015

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A. Reichenbach

A Novel Grid-Based Visualization Approach for Metabolic Networks with Advanced Focus&Context View

Hepatic retinopathy: morphological features of retinal glial (M�ller) cells accompanying hepatic failure

Plasma levels of transforming growth factor‐1β and α2‐macroglobulin before and after radical prostatectomy: association to clinicopathological parameters

Potassium buffering by Müller cells isolated from the center and periphery of the frog retina

V–Bundles: Clustering Fiber Trajectories from Diffusion MRI in Linear Time

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