Model-informed drug development for antimicrobials: translational pharmacokinetic-pharmacodynamic modelling of apramycin to facilitate prediction of efficacious dose in complicated urinary tract infections.

IF 3.9 2区 医学 Q1 INFECTIOUS DISEASES
Irene Hernández-Lozano, Vincent Aranzana-Climent, Sha Cao, Carina Matias, Jon Ulf Hansen, Edgars Liepinsh, Diarmaid Hughes, Sven N Hobbie, Carina Vingsbo Lundberg, Lena E Friberg
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Abstract

Objectives: The use of mouse models of complicated urinary tract infection (cUTI) has usually been limited to a single timepoint assessment of bacterial burden. Based on longitudinal in vitro and in vivo data, we developed a pharmacokinetic-pharmacodynamic (PKPD) model to assess the efficacy of apramycin, a broad-spectrum aminoglycoside antibiotic, in mouse models of cUTI.

Methods: Two Escherichia coli strains were studied (EN591 and ATCC 700336). Apramycin exposure-effect relationships were established with in vitro time-kill data at pH 6 and pH 7.4 and in mice with cUTI. Immunocompetent mice were treated with apramycin (1.5-30 mg/kg) starting 24 h post-infection. Kidney and bladder tissue were collected 6-96 h post-infection for cfu determination. A PKPD model integrating all data was developed and simulations were performed to predict bacterial burden in humans.

Results: Treatment with apramycin reduced the bacterial load in kidneys and bladder tissue up to 4.3-log compared with vehicle control. In vitro and in vivo tissue time-course efficacy data were integrated into the PKPD model, showing 76%-98% reduction of bacterial net growth and 3- to 145-fold increase in apramycin potency in vivo compared with in vitro. Simulations suggested that an 11 mg/kg daily dose would be sufficient to achieve bacterial stasis in kidneys and bladder in humans.

Conclusions: PKPD modelling with in vitro and in vivo PK and PD data enabled simultaneous evaluation of the different components that influence drug effect, an approach that had not yet been evaluated for antibiotics in the cUTI model and that has potential to enhance model-informed drug development of antibiotics.

抗菌药物的模型化药物开发:建立阿普霉素的转化药代动力学-药效学模型,帮助预测复杂尿路感染的有效剂量。
目的:复杂性尿路感染(cUTI)小鼠模型的使用通常仅限于对细菌负荷进行单一时间点评估。基于纵向体外和体内数据,我们开发了一种药代动力学-药效学(PKPD)模型,用于评估阿普霉素(一种广谱氨基糖苷类抗生素)在小鼠复杂性尿路感染模型中的疗效:研究了两种大肠杆菌菌株(EN591和ATCC 700336)。根据体外 pH 值 6 和 pH 值 7.4 时的致死数据,并在患有 cUTI 的小鼠体内建立了阿普霉素的暴露-效应关系。免疫功能正常的小鼠在感染后 24 小时开始接受阿普霉素(1.5-30 mg/kg)治疗。感染后 6-96 小时收集肾脏和膀胱组织以测定 cfu。我们建立了一个整合所有数据的 PKPD 模型,并进行了模拟,以预测人体内的细菌负荷:结果:与药物对照组相比,使用阿普霉素治疗可减少肾脏和膀胱组织中的细菌负荷达4.3个log。体外和体内组织时程疗效数据被整合到 PKPD 模型中,结果显示细菌净生长量减少了 76%-98%,体内阿普霉素的效力比体外提高了 3 到 145 倍。模拟结果表明,每天 11 毫克/千克的剂量足以使人体肾脏和膀胱中的细菌停止生长:利用体外和体内的 PK 和 PD 数据建立 PKPD 模型,可以同时评估影响药物效果的不同因素,这种方法尚未在 cUTI 模型中对抗生素进行过评估,有可能提高抗生素的模型药物开发水平。
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来源期刊
CiteScore
9.20
自引率
5.80%
发文量
423
审稿时长
2-4 weeks
期刊介绍: The Journal publishes articles that further knowledge and advance the science and application of antimicrobial chemotherapy with antibiotics and antifungal, antiviral and antiprotozoal agents. The Journal publishes primarily in human medicine, and articles in veterinary medicine likely to have an impact on global health.
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