Reed M D, Goldfarb J, Yamashita T S, Lemon E, Blumer J L
Division of Pediatric Pharmacology, Rainbow Babies and Childrens Hospital, Cleveland, OH 44106-6010, USA.
Antimicrob Agents Chemother. 1994 Dec;38(12):2817-26. doi: 10.1128/AAC.38.12.2817.
The pharmacokinetics of piperacillin and tazobactam were assessed after single-dose administration to 47 infants and children. Study subjects ranging in age from 2 months to 12 years were randomized to receive one of two different doses of a piperacillin-tazobactam combination (8:1): a low dose (n = 23) of 50 and 6.25 mg of piperacillin and tazobactam per kg of body weight, respectively, or a high dose (n = 24) of 100 and 12.5 mg, respectively. The pharmacokinetic behavior of tazobactam was very similar to that observed for piperacillin, supporting the use of these two agents in a fixed-dose combination. No differences in the pharmacokinetics of piperacillin or tazobactam were observed between the two doses administered. The elimination parameters half-life and total body clearance decreased and increased, respectively, with increasing age, whereas volume parameters (volume of distribution and steady-state volume of distribution) remained relatively constant for both compounds. The primary metabolite of tazobactam, metabolite M1, was measurable in the plasma of 18 of the 47 study subjects; 17 of these 18 subjects received the high doses. More than 70% of the administered piperacillin and tazobactam doses were excreted unchanged in the urine over a 6-h collection period. These data combined with the known in vitro susceptibilities of a broad range of pediatric bacterial pathogens indicate that a dose of 100 mg of piperacillin and 12.5 of mg tazobactam per kg of body weight administered as a fixed-dose combination every 6 to 8 h would be appropriate to initiate clinical efficacy studies in infants and children for the treatment of systemic infections arising outside of the central nervous system.
在对47名婴幼儿和儿童进行单剂量给药后,评估了哌拉西林和他唑巴坦的药代动力学。年龄在2个月至12岁之间的研究对象被随机分配接受两种不同剂量的哌拉西林 - 他唑巴坦组合(8:1)之一:低剂量组(n = 23),哌拉西林和他唑巴坦的剂量分别为每千克体重50毫克和6.25毫克;高剂量组(n = 24),剂量分别为每千克体重100毫克和12.5毫克。他唑巴坦的药代动力学行为与哌拉西林观察到的非常相似,支持将这两种药物以固定剂量组合使用。在给予的两种剂量之间,未观察到哌拉西林或他唑巴坦药代动力学的差异。消除参数半衰期和全身清除率分别随着年龄的增加而降低和增加,而两种化合物的容积参数(分布容积和稳态分布容积)保持相对恒定。他唑巴坦的主要代谢产物M1在47名研究对象中的18名的血浆中可检测到;这18名对象中的17名接受了高剂量。在6小时的收集期内,超过70%的给药哌拉西林和他唑巴坦剂量以原形经尿液排泄。这些数据与广泛的儿科细菌病原体已知的体外敏感性相结合表明,对于中枢神经系统以外发生的全身感染的婴幼儿和儿童,每6至8小时以固定剂量组合给予每千克体重100毫克哌拉西林和12.5毫克他唑巴坦的剂量,将适合启动临床疗效研究。