The Novel Development of an Experimental Model of Dihydropyridine Calcium Channel Blocker Poisoning using Intravenous Amlodipine.

Cardiovascular drug poisoning remains a leading cause of fatality. Within this class, calcium channel blockers (CCBs) account for the majority of deaths. CCBs are typically categorized as dihydropyridines (i.e. amlodipine or nifedipine) versus the non-dihydropyridine (i.e. verapamil and diltiazem) which are the most potent and once considered the CCB type responsible for all CCB-related deaths. Most recently, dihydropyridine deaths have increased. While there are established models of nondihydropyridine poisoning there currently are no established experimental models of dihydropyridine poisoning.Electrocardiogram electrodes and intravenous lines were placed in anesthetized Spraque-Dawley rats. Various doses of amlodipine were administrated as a constant infusion to mimic continued gastrointestinal absorption. Intravenous amlodipine dosing was determined by the Dixon "up-and-down" method. Animals were observed for a total of two hours and death or survival was recorded.Various solvents were used such as tween and ethanol. Amlodipine was successfully dissolved in 20% DMSO. The maximum likelihood estimate for LD50 was 8.65 mg/kg (SE, +/- 2.67 mg/kg). CONCLUSIONS: A reliable experimental model of dihydropyridine poisoning using intravenous amlodipine is presented which will allow future studies concerning pathophysiology of shock from dihydropyridine poisoning and treatment.