Utilização de zebrafish para validação de programa computacional aplicado à análise cardíaca após administração de medicamentos cardiotônicos
Abstract
The zebrafish (Danio rerio) is a vertebrate widely used as a model for laboratory tests,
due to its high fertility, practical handling and low cost. The cardiac characteristics of this
species, as well, as the easy absorption of substances present in the water by the tissues
of different organs, makes it an excellent model for cardiotoxicity studies. Thus, the
present study aims to validate a program (CardioCount v2.0) capable of detecting cardiac
changes like, intervals of cardiac contraction and contraction patterns in zebrafish larvae.
For this, four substances (dopamine, atropine, adrenaline and haloperidol) were
selected, to which zebrafish larvae were exposed in different concentrations. Through
filming, the 60 larvae with 96 hpf were anesthetized by immersion of 0.7 M tricaine
methanesulfonat, filmed and analyzed for variations in heart rate, entropy and possible
cardiotoxicity, with 1% DMSO as control. Tests performed with dopamine showed a
significant change in the concentration of 2.5 µM with respect to entropy; in the case of
adrenaline, all doses resulted in an increase in HR except for 1.0 µM; with respect to
atropine, at the dose of 2.50 µM there was an increase in entropy and, in the test with
haloperidol, there was a greater dispersion of effects and a greater dependence on the
concentration value, with a decrease in heart rate at doses of 2, 5 and 20 µM and in
changing entropy with concentrations of 5, 10 and 20 µM. The analysis based on cardiac
frequency and entropy parameters quantified in zebrafish larvae, using the computer
program CardioCount v.2.0 allowed to quickly and accurately detect cardiological effects
of the following drugs: dopamine, adrenaline, atropine and haloperidol.
Collections
The following license files are associated with this item: