U. Ziskoven scite author profile

U. Ziskoven

3Publications

74Citation Statements Received

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University of Cologne

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A new synthetic antiarrhythmic peptide reduces dispersion of epicardial activation recovery interval and diminishes alterations of epicardial activation patterns induced by regional ischemia

Dhein

Manicone

Müller³

et al. 1994

Naunyn-Schmiedeberg's Arch Pharmacol

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Common antiarrhythmic agents affect ionic membrane channels and thereby alter cellular electrical activity. Since this accounts for the proarrhythmic effects as well we tried to find new substances with different profiles of actions. A new antiarrhythmic peptide, H2N-Gly-Ala-Gly-4 Hyp-Pro-Tyr-CONH2 (AAP 10), was synthetized using the Fmoc-strategy. This peptide was analyzed for its electrophysiological profile of action in normal isolated rabbit hearts perfused according to the Langendorff technique either under control conditions or after induction of a regional ischemia. For this purpose 256 channel epicardial mapping was employed allowing the determination of the timepoints of activation at each electrode thus identifying the origins of epicardial activation (socalled breakthrough-points, BTP). Epicardial spread of activation was then described mathematically by activation vectors which gave direction and velocity of the epicardial activation wave at each electrode. Single heart beats were analyzed under control conditions and under treatment with AAP 10 or under regional ischemia with or without AAP 10-pretreatment (10(-8) mol/l). We calculated the percentage of similar vectors (VEC) with unaltered direction (deviation < or = 5 degrees) and the percentage of identical breakthroughpoints (deviation < or = 1 mm) compared to control conditions. In addition, apparent epicardial velocities, total activation time of a given region and activation-recovery interval (ARI) as well as dispersion of ARI (i.e. standard deviation of ARI) and distribution of ARI were analyzed. Under control conditions treatment with AAP 10 (10(-10) to 3 x 10(-7) mol/l) led to a significant decrease in ARI-dispersion without alteration of any of the other parameters under investigation. Left ventricular regional ischemia resulted in a marked alteration of the activation patterns (a significant decrease in vectorfield- and breakthroughpoint-similarity) which could be significantly inhibited by pretreatment with AAP 10. In addition, we found that AAP 10 depressed the increase in ARI-dispersion during the first minutes of ischemia and accelerated normalization of ARI-dispersion during reperfusion. In additional experiments, it could be shown that AAP 10 did not alter action potential duration, maximum dU/dt, amplitude or resting membrane potential of isolated guinea pig muscles using a common intracellular action potential recording technique.(ABSTRACT TRUNCATED AT 400 WORDS)

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Frequency-dependent effects of propafenone decrease with duration of ventricular tachycardia in isolated guinea pig hearts

Stärk

Dhein

Bachernegg

et al. 1994

European Journal of Pharmacology

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Propranolol unmasks class III like electrophysiological properties of norepinephrine

Dhein

Gerwin

Ziskoven

et al. 1993

Naunyn-Schmiedeberg's Arch Pharmacol

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Isolated perfused spontaneously beating rabbit hearts were treated with increasing concentrations of norepinephrine (0.01, 0.1, 0.5 mumol/l) either alone or in presence of propranolol (0.1 mumol/l). For analysis of the epicardial activation and repolarization process and epicardial mapping (256 unipolar leads) was performed. For each electrode the activation and repolarization time was determined. From these data the "breakthrough-points" (BTP) of epicardial activation were determined. At each electrode an activation vector (VEC) was calculated giving direction and velocity of the local excitation wave. The beat similarity of various heart beats (under NE) compared to control was evaluated by determination of the percentage of identical BTP and of similar VEC (deviation < or = 5 degrees). Moreover at each electrode the local activation recovery interval (ARI) and its standard deviation (of 256 leads, dispersion, DISP) were determined. Norepinephrine alone (0.01, 0.1, 0.5 mumol/l) led to an increase in left ventricular pressure, heart rate and DISP with concomitant frequency dependent reduction in ARI, and to changes in the epicardial activation pattern (reduction in BTP, VEC). We found that in the presence of propranolol (0.1 mumol/l) norepinephrine prolonged ARI and reduced ARI-dispersion. This effect was not due to changes in heart rate. The disturbing effects on the activation pattern were diminished. These effects could be prevented by pretreatment with 1 mumol/l prazosin. From these results we conclude, that norepinephrine prolongs the relative action potential duration via stimulation of alpha 1-adrenoceptor and enhances cellular coupling.(ABSTRACT TRUNCATED AT 250 WORDS)

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U. Ziskoven

A new synthetic antiarrhythmic peptide reduces dispersion of epicardial activation recovery interval and diminishes alterations of epicardial activation patterns induced by regional ischemia

Frequency-dependent effects of propafenone decrease with duration of ventricular tachycardia in isolated guinea pig hearts

Propranolol unmasks class III like electrophysiological properties of norepinephrine

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