PÁSEK, Michal, Markéta BÉBAROVÁ, Peter MATEJOVIČ and Marie NOVÁKOVÁ. Interaction of haloperidol with IKto-channels in cardiac cells: a quantitative model. In Human Biomechanics 2006. Brno: University of Technology, 2006, p. 1-5. ISBN 80-214-3232-2.
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Basic information
Original name Interaction of haloperidol with IKto-channels in cardiac cells: a quantitative model
Name in Czech Interakce haloperidolu s IKto-kanály u srdečních buněk: kvantitativní model
Authors PÁSEK, Michal, Markéta BÉBAROVÁ, Peter MATEJOVIČ and Marie NOVÁKOVÁ.
Edition Brno, Human Biomechanics 2006, p. 1-5, 5 pp. 2006.
Publisher University of Technology
Other information
Original language English
Type of outcome Proceedings paper
Field of Study 10610 Biophysics
Country of publisher Czech Republic
Confidentiality degree is not subject to a state or trade secret
Organization unit Faculty of Medicine
ISBN 80-214-3232-2
Keywords in English IKto-channel;haloperidol;quantitative model
Tags haloperidol, IKto-channel, quantitative model
Tags International impact, Reviewed
Changed by Changed by: doc. MUDr. Markéta Bébarová, Ph.D., učo 15000. Changed: 19/1/2013 21:52.
Abstract
Haloperidol inhibited the transient outward potassium current IKto with decrease of peak current, acceleration of the time course of apparent inactivation and deceleration of recovery from inactivation and block. The quantitative model predicted interaction of haloperidol with both open and open-inactivated states as the most probable mechanism of IKto-block.
Abstract (in Czech)
Haloperidol blokoval přechodný draslíkový proud z buňky IKto. Pozorován byl pokles proudu, zrychlení zdánlivé inaktivace proudu a zpomalení jeho návratu z inaktivace a blokády. Kvantitativní model ukázal jako nejpravděpodobnější mechanismus blokády interakci haloperidolu s kanály v otevřeném stavu a otevřeném-inaktivovaném stavu.
Links
AV0Z20760514, plan (intention)Name: Komplexní dynamické systémy v termodynamice, mechanice tekutin a těles
GA305/04/1385, research and development projectName: Modulační úloha sigma signalizace na elektromechanické vztahy izolovaného kardiomyocytu a srdce
Investor: Czech Science Foundation, Modulatory role of sigma signalling in electromechanical coupling of isolated cardiomyocyte and heart
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