Application of allometry principles for the prediction of human pharmacokinetic parameters for irbesartan, a AT1 receptor antagonist, from animal data

Kumar, Venkata V. Pavan; Srinivas, Nuggehally R.

doi:10.1007/bf03190880

Eur. J. Drug Metabol. Pharmacokinet.

2008

DOI: 10.1007/bf03190880

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Application of allometry principles for the prediction of human pharmacokinetic parameters for irbesartan, a AT1 receptor antagonist, from animal data

Venkata V. Pavan Kumar¹,

Nuggehally R. Srinivas²

Abstract: Allometric principles have been applied to scale and predict human pharmacokinetic parameters of irbesartan, an important AT1 receptor antagonist. The preclinical data gathered from rats, macaques (monkeys) and dogs were used in the allometric analysis. The use of these species was rationalized because preclinical models based on these species have been used in the evaluation pharmacodynamic activity of irbesartan. The human parameter values for clearance (CL/F), volume of distribution (V/F), and elimination r… Show more

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Cited by 8 publications

References 13 publications

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Quantitative clinical pharmacology for size and age scaling in pediatric drug development: A systematic review

Samant

Mangal

Lukáčová

et al. 2015

The Journal of Clinical Pharma

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The establishment of drug dosing in children is often hindered by the lack of actual pediatric efficacy and safety data. To overcome this limitation, scaling approaches are frequently employed to leverage adult clinical information for informing pediatric dosing. The objective of this review is to provide a comprehensive overview of the different scaling approaches used in pediatric pharmacotherapy as well as their proper implementation in drug development and clinical use. We will start out with a brief overview of the current regulatory requirements in pediatric drug development, followed by a review of the most commonly employed scaling approaches in increasing order of complexity ranging from simple body weight-based dosing to physiologically-based pharmacokinetic (PBPK) modeling approaches. Each of the presented approaches has advantages and limitations, which will be highlighted throughout the course of the review by the use of clinically-relevant examples. The choice of the approach employed consequently depends on the clinical question at hand and the availability of sufficient clinical data. The main effort while establishing and qualifying these scaling approaches should be directed towards the development of safe and effective dosing regimens in children rather than identifying the best model, ie models should be fit for purpose.

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Quantitative clinical pharmacology for size and age scaling in pediatric drug development: A systematic review

Samant

Mangal

Lukáčová

et al. 2015

The Journal of Clinical Pharma

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Intravenous prediction of human pharmacokinetic parameters for ketorolac, a non-steroidal anti-inflammatory agent, using allometry approach

Gilibili

Mullangi

Srinivas³

2011

Eur J Drug Metab Pharmacokinet

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The intravenous pharmacokinetics data of ketorolac in mice, rats, rabbits, dogs and monkeys were assembled from literature. The relationship between the main pharmacokinetic parameters [viz., volume of distribution (V (d)) and clearance (CL)] and body weight was studied across five mammalian species, using double-logarithmic plots to predict the human pharmacokinetic parameters of CL and V (d) using simple allometry or with correction factors [maximum life span potential (MLP), brain weight, CF1 (bile flow/liver weight) and CF2 (bile flow/body weight)]. The metabolism pattern, biotransformation pathways and the predominant urinary excretion of parent and the formed metabolites of ketorolac were found to be similar amongst mice, rats, rabbits, dogs, monkeys and humans, facilitating the scaling process. The human parameter value for V (d) was predicted by simple allometric equation: 0.2481W(1.0549) (r (2) = 0.9217). The predicted V (d) value (21.92 L) is close to the reported value (17.5 L), whereas the CL was predicted by simple allometric approach or with standard correction factors viz., MLP, brain weight, CF1 and CF2. Best proximity CL value was obtained with MLP having allometric equation: 0.7126W(1.3264) (r (2) = 0.9640). The outcome of this exercise suggests that allometric scaling with suitable correction factors could potentially be used to predict the human pharmacokinetic parameters of drugs belonging to non-steroidal anti-inflammatory drugs retrospectively.

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Delay differential equations for the description of Irbesartan pharmacokinetics: A population approach to model absorption complexities leading to dual peaks

Karatza

Karalis

2020

European Journal of Pharmaceutical Sciences

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Application of allometry principles for the prediction of human pharmacokinetic parameters for irbesartan, a AT1 receptor antagonist, from animal data

Cited by 8 publications

References 13 publications

Quantitative clinical pharmacology for size and age scaling in pediatric drug development: A systematic review

Quantitative clinical pharmacology for size and age scaling in pediatric drug development: A systematic review

Intravenous prediction of human pharmacokinetic parameters for ketorolac, a non-steroidal anti-inflammatory agent, using allometry approach

Delay differential equations for the description of Irbesartan pharmacokinetics: A population approach to model absorption complexities leading to dual peaks

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