Lee F W, Salmonson T, Metzler C H, Benet L Z
Department of Pharmacy, School of Pharmacy, University of California, San Francisco.
J Pharmacol Exp Ther. 1990 Dec;255(3):1222-9.
The pharmacokinetics and pharmacodynamics of nitroglycerin (GTN) and its dinitrate metabolites, 1,2-glyceryl dinitrate and 1,3-glyceryl dinitrate (1,2-GDN and 1,3-GDN), were examined in a seven-way crossover study in six conscious dogs. The mean apparent clearance after a low GTN i.v. dose (0.025 mg/kg) was 1440 ml/min/kg (S.D. = 630), which decreased to 686 ml/min/kg (S.D. = 317) after a high GTN i.v. dose (0.25 mg/kg), demonstrating dose-dependent pharmacokinetics. Bioavailability of oral GTN (0.25 mg/kg) was very low (0.015 +/- 0.019). The formation of dinitrate metabolites was rapid and extensive after i.v. and oral dosing of GTN. The pharmacokinetics of 1,2-GDN and 1,3-GDN were very similar. The dinitrates exhibited longer half-lives (approximately 45 min) and lower apparent clearances (approximately 16 ml/min/kg) than those found for GTN. The apparent fractional GTN clearances to 1,2-GDN (CLapp,m1) and 1,3-GDN (CLapp,m2) were also determined. The CLapp,m1 decreased significantly (P less than .05) in going from the low GTN dose (1030 +/- 620 ml/min/kg) to the high dose (425 +/- 145 ml/min/kg). In contrast, CLapp,m2 remained unchanged (low dose: 107 +/- 55 ml/min/kg; high dose: 115 +/- 37 ml/min/kg). The duration of systolic blood pressure decrease after low i.v. GTN doses was very short (approximately 15 min) and significantly longer (approximately 90 min) for high i.v. GTN doses. GTN is about 10 to 12 times more efficient than 1,2-GDN and 1,3-GDN in terms of the maximal systolic blood pressure decrease produced by a therapeutic dose. Oral GTN is pharmacodynamically active and this effect can be attributed to the formation of high levels of dinitrate metabolites.
在一项针对6只清醒犬的七交叉研究中,研究了硝酸甘油(GTN)及其二硝酸盐代谢产物1,2 - 甘油二硝酸盐和1,3 - 甘油二硝酸盐(1,2 - GDN和1,3 - GDN)的药代动力学和药效学。静脉注射低剂量GTN(0.025mg/kg)后的平均表观清除率为1440ml/min/kg(标准差 = 630),静脉注射高剂量GTN(0.25mg/kg)后降至686ml/min/kg(标准差 = 317),表明存在剂量依赖性药代动力学。口服GTN(0.25mg/kg)的生物利用度非常低(0.015±0.019)。静脉注射和口服GTN后,二硝酸盐代谢产物的形成迅速且广泛。1,2 - GDN和1,3 - GDN的药代动力学非常相似。与GTN相比,二硝酸盐的半衰期更长(约45分钟),表观清除率更低(约16ml/min/kg)。还测定了GTN向1,2 - GDN(CLapp,m1)和1,3 - GDN(CLapp,m2)的表观分数清除率。从低剂量GTN(1030±620ml/min/kg)到高剂量(425±145ml/min/kg),CLapp,m1显著降低(P<0.05)。相比之下,CLapp,m2保持不变(低剂量:107±55ml/min/kg;高剂量:115±37ml/min/kg)。静脉注射低剂量GTN后收缩压降低的持续时间非常短(约15分钟),而静脉注射高剂量GTN后则显著更长(约90分钟)。就治疗剂量产生的最大收缩压降低而言,GTN的效率比1,2 - GDN和1,3 - GDN高约10至12倍。口服GTN具有药效学活性,这种作用可归因于高水平二硝酸盐代谢产物的形成。