Reverse translational analysis of clinically reported, lamotrigine-induced cardiovascular adverse events using the halothane-anesthetized dogs

Lamotrigine has been used for patients with epilepsy and/or bipolar disorder, overdose of which induced the hypotension, elevation of the atrial pacing threshold, cardiac conduction delay, wide complex tachycardia, cardiac arrest and Brugada-like electrocardiographic pattern. To clarify how lamotrig...

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Bibliographic Details
Published in:Heart and vessels 2021-03, Vol.36 (3), p.424-429
Main Authors: Goto, Ai, Hagiwara-Nagasawa, Mihoko, Kambayashi, Ryuichi, Nunoi, Yoshio, Izumi-Nakaseko, Hiroko, Kawai, Shinichi, Takei, Yoshinori, Matsumoto, Akio, Sugiyama, Atsushi
Format: Article
Language:English
Subjects:
Adverse events
Arterioles
Biomedical Engineering and Bioengineering
Bipolar disorder
Capacitance
Cardiac Surgery
Cardiology
Dogs
Epilepsy
Genotypes
Halothane
Heart
Hypotension
Lamotrigine
Medicine
Medicine & Public Health
Original Article
Overdose
Prolongation
Refractory period
Safety margins
Tachycardia
Vascular Surgery
Ventricle
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Summary:Lamotrigine has been used for patients with epilepsy and/or bipolar disorder, overdose of which induced the hypotension, elevation of the atrial pacing threshold, cardiac conduction delay, wide complex tachycardia, cardiac arrest and Brugada-like electrocardiographic pattern. To clarify how lamotrigine induces those cardiovascular adverse events, we simultaneously assessed its cardiohemodynamic and electrophysiological effects using the halothane-anesthetized dogs ( n  = 4). Lamotrigine was intravenously administered in doses of 0.1, 1 and 10 mg/kg/10 min under the monitoring of cardiovascular variables, possibly providing subtherapeutic to supratherapeutic plasma concentrations. The low or middle dose of lamotrigine did not alter any of the variables. The high dose significantly delayed the intra-atrial and intra-ventricular conductions in addition to the prolongation of ventricular effective refractory period, whereas no significant change was detected in the other variables. Lamotrigine by itself has relatively wide safety margin for cardiohemodynamics, indicating that clinically reported hypotension may not be induced through its direct action on the resistance arterioles or capacitance venules. The electrophysiological effects suggested that lamotrigine can inhibit Na + channel in the in situ hearts. This finding may partly explain the onset mechanism of lamotrigine-associated cardiac adverse events in the clinical cases. In addition, elevation of J wave was induced in half of the animals, suggesting that lamotrigine may have some potential to unmask Brugada electrocardiographic genotype in susceptible patients.
ISSN:0910-8327
1615-2573
DOI:10.1007/s00380-020-01716-8