Time-dependent cardioprotection with calcium antagonism and experimental studies with clevidipine in ischemic-reperfused pig hearts: part I.

Article Details

Citation
Copy to clipboard

Wang QD, Segawa D, Ericsson H, Sjoquist PO, Johansson L, Ryden L

Time-dependent cardioprotection with calcium antagonism and experimental studies with clevidipine in ischemic-reperfused pig hearts: part I.

J Cardiovasc Pharmacol. 2002 Aug;40(2):228-34.

PubMed ID
12131552 [ View in PubMed
]
Abstract

Clevidipine is a new ultrashort-acting dihydropyridine calcium antagonist developed for blood pressure regulation during cardiac surgery. When given locally to the ischemic and reperfused myocardium, clevidipine exerts a cardioprotective effect that varies depending on the timing of administration during ischemia. The current study explored the pharmacokinetics of clevidipine when administered locally into the coronary circulation. Pentobarbital-anesthetized pigs were randomly divided into four groups, of which three were subjected to myocardial ischemia through ligation of the left anterior descending coronary artery (LAD) for 15, 35, or 45 minutes (n = 4 in each group). The fourth group (n = 4) was not subjected to LAD occlusion and acted as nonischemic controls. Clevidipine (0.3 nmol/kg per minute) was infused over a period of 5 minutes through a catheter distal to the LAD ligation in the ischemic pigs, or at the corresponding site of the nonligated LAD in the nonischemic pigs. Following release of the LAD ligation, or in the nonligated group following the drug infusion, the pigs were subjected to 60 minutes of reperfusion. Simultaneous blood samples were obtained for analysis of clevidipine from the femoral artery and the coronary vein during reperfusion and during drug infusion in the nonischemic pigs. Blood samples for estimating the in vitro hydrolysis rate both in whole blood and in plasma were also obtained. In nonischemic hearts, clevidipine reached a steady state level in the coronary venous blood of about 30 nM during the infusion. The concentration declined almost to the detection limit (1 nM) within 3 minutes of the end of infusion. The mean blood clearance of clevidipine was calculated to be 0.17 l/min per kilogram, and the estimated half-life was 0.5 minute. In animals subjected to different periods of ischemia, very low levels of clevidipine were detected in the coronary venous blood only during the first 2 minutes of reperfusion. There were no detectable levels in the arterial blood at any time. Blood concentration profiles of clevidipine did not differ with the length of myocardial ischemia. The in vitro half-life in pig blood was 13 minutes, and the corresponding half-life in plasma was 111 minutes. At a dose known to exert cardioprotection when given as an intracoronary injection, the systemic concentration of clevidipine does not reach pharmacologically active levels. Clevidipine has an ultrashort blood half-life, and ischemic duration of up to 45 minutes does not seem to change the cardiac metabolism of this drug. Thus, it represents a pharmacological tool well suited for the study of time windows in cardioprotection. Moreover, considering the possibility of exerting myocardioprotection without any systemic effects, it could be an interesting compound to test in a clinical setting.

DrugBank Data that Cites this Article

Drugs