Christiane Köhler scite author profile

This paper proposes a novel super-resolution framework to reconstruct high-resolution fundus images from multiple low-resolution video frames in retinal fundus imaging. Natural eye movements during an examination are used as a cue for super-resolution in a robust maximum a-posteriori scheme. In order to compensate heterogeneous illumination on the fundus, we integrate retrospective illumination correction for photometric registration to the underlying imaging model. Our method utilizes quality self-assessment to provide objective quality scores for reconstructed images as well as to select regularization parameters automatically. In our evaluation on real data acquired from six human subjects with a low-cost video camera, the proposed method achieved considerable enhancements of low-resolution frames and improved noise and sharpness characteristics by 74 %. In terms of image analysis, we demonstrate the importance of our method for the improvement of automatic blood vessel segmentation as an example application, where the sensitivity was increased by 13 % using super-resolution reconstruction.

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Cholinerge Einflüsse auf die Wirkung von Antiarrhythmika unter Berücksichtigung von Ajmalin und N-Propylajmalin

Langenfeld¹,

Köhler²,

Haverkampf³

et al. 1989

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Electrophysiological interactions between carbachol and class I antiarrhythmic drugs (lidocaine, quinidine)—experimental studies in rabbit atrial myocardium

et al. 1989

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Carbachol effects on Vmax are most likely attributable to earlier recovery (caused by the shortening of the AP) and to faster recovery kinetics (due to hyperpolarization). The attenuation of the class I effect of lidocaine by carbachol can thus be considered mainly a consequence of the shortening of the inactivated state which results in a reduced affinity of lidocaine to its receptor and allows earlier dissociation of the drug. Minor binding of the drug due to hyperpolarization may play the major role in interactions between carbachol and quinidine.

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Reverse Use Dependence of Antiarrhythmic Class la, Ib, and Ic: Effects of Drugs on the Action Potential Duration?

Langenfeld¹,

Köhler²,

Weirich³

et al. 1992

Pacing Clinical Electrophis

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The subclassification of Class I antiarrhythmic drugs that is based on APD modifying influences is only valid under normal heart rates (1.0 Hz). During tachycardia these actions are absent and the phenomenon of "reverse use dependence" is found in Class I drugs. Therefore, an additional antiarrhythmic effect due to APD modification by the examined drugs should not be expected at rapid heart rates.

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