BACKGROUND AND PURPOSE: Status epilepticus is increasingly associated with cardiac injury in both clinical and animal studies. The current study examined ECG activity for up to 48 h following kainic acid (KA) seizure induction and compared the potential of atenolol and clonidine to attenuate this cardiac pathology. EXPERIMENTAL APPROACH: Sprague-Dawley rats (male, 300-350 g) were implanted with ECG and electrocorticogram electrodes to allow simultaneous telemetric recordings of cardiac and cortical responses during and after KA-induced seizures. Animals were randomized into saline controls, and saline vehicle-, clonidine- or atenolol-pretreated KA groups. KEY RESULTS: KA administration in the saline-pretreated group produced an immediate bradycardic response (maximal decrease of 28 ± 6%), coinciding with low-level seizure activity. As high-level seizure behaviours and EEG spiking increased, tachycardia also developed, with a maximum heart rate increase of 38 ± 7% coinciding with QTc prolongation and T wave elevation. Both clonidine and atenolol pretreatment attenuated seizure activity and reduced KA-induced changes in heart rate, QTc interval and T wave amplitude observed during both bradycardic and tachycardic phases in saline-pretreated KA animals. Clonidine, however, failed to reduce the power of EEG frequencies. Atenolol and to a lesser extent clonidine attenuated the cardiac hypercontraction band necrosis, inflammatory infiltration, and oedema at 48 h after KA, relative to the saline-KA group. CONCLUSIONS AND IMPLICATIONS: Severe seizure activity in this model was clearly associated with altered ECG activity and cardiac pathology. We suggest that modulation of sympathetic activity by atenolol provides a promising cardioprotective approach in status epilepticus.
BACKGROUND AND PURPOSE:Status epilepticus is increasingly associated with cardiac injury in both clinical and animal studies. The current study examined ECG activity for up to 48 h following kainic acid (KA) seizure induction and compared the potential of atenolol and clonidine to attenuate this cardiac pathology. EXPERIMENTAL APPROACH: Sprague-Dawley rats (male, 300-350 g) were implanted with ECG and electrocorticogram electrodes to allow simultaneous telemetric recordings of cardiac and cortical responses during and after KA-induced seizures. Animals were randomized into saline controls, and saline vehicle-, clonidine- or atenolol-pretreated KA groups. KEY RESULTS: KA administration in the saline-pretreated group produced an immediate bradycardic response (maximal decrease of 28 ± 6%), coinciding with low-level seizure activity. As high-level seizure behaviours and EEG spiking increased, tachycardia also developed, with a maximum heart rate increase of 38 ± 7% coinciding with QTc prolongation and T wave elevation. Both clonidine and atenolol pretreatment attenuated seizure activity and reduced KA-induced changes in heart rate, QTc interval and T wave amplitude observed during both bradycardic and tachycardic phases in saline-pretreated KA animals. Clonidine, however, failed to reduce the power of EEG frequencies. Atenolol and to a lesser extent clonidine attenuated the cardiac hypercontraction band necrosis, inflammatory infiltration, and oedema at 48 h after KA, relative to the saline-KA group. CONCLUSIONS AND IMPLICATIONS: Severe seizure activity in this model was clearly associated with altered ECG activity and cardiac pathology. We suggest that modulation of sympathetic activity by atenolol provides a promising cardioprotective approach in status epilepticus.
Authors: Philip Williams; Andrew White; Damien Ferraro; Suzanne Clark; Kevin Staley; F Edward Dudek Journal: J Neurosci Methods Date: 2006-03-27 Impact factor: 2.390
Authors: J M Cruickshank; G Neil-Dwyer; J P Degaute; Y Hayes; T Kuurne; J Kytta; J L Vincent; M E Carruthers; S Patel Journal: Lancet Date: 1987-09-12 Impact factor: 79.321
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Authors: Yi-Chen Lai; Na Li; William Lawrence; Sufen Wang; Amber Levine; Daniela M Burchhardt; Robia G Pautler; Miguel Valderrábano; Xander H Wehrens; Anne E Anderson Journal: Epilepsia Open Date: 2018-03-23
Authors: Simona Balestrini; Mohamad A Mikati; Reyes Álvarez-García-Rovés; Michael Carboni; Arsen S Hunanyan; Bassil Kherallah; Melissa McLean; Lyndsey Prange; Elisa De Grandis; Alessandra Gagliardi; Livia Pisciotta; Michela Stagnaro; Edvige Veneselli; Jaume Campistol; Carmen Fons; Leticia Pias-Peleteiro; Allison Brashear; Charlotte Miller; Raquel Samões; Vesna Brankovic; Quasar S Padiath; Ana Potic; Jacek Pilch; Aikaterini Vezyroglou; Ann M E Bye; Andrew M Davis; Monique M Ryan; Christopher Semsarian; Georgina Hollingsworth; Ingrid E Scheffer; Tiziana Granata; Nardo Nardocci; Francesca Ragona; Alexis Arzimanoglou; Eleni Panagiotakaki; Inês Carrilho; Claudio Zucca; Jan Novy; Karolina Dzieżyc; Marek Parowicz; Maria Mazurkiewicz-Bełdzińska; Sarah Weckhuysen; Roser Pons; Sergiu Groppa; Daniel S Sinden; Geoffrey S Pitt; Andrew Tinker; Michael Ashworth; Zuzanna Michalak; Maria Thom; J Helen Cross; Rosaria Vavassori; Juan P Kaski; Sanjay M Sisodiya Journal: Neurology Date: 2020-09-10 Impact factor: 11.800