Population Pharmacokinetic Model of Iohexol in Dogs to Estimate Glomerular Filtration Rate and Optimize Sampling Time

Sarah Baklouti; Sarah Baklouti; Didier Concordet; Vitaliano Borromeo; Paola Pocar; Paola Scarpa; Petra Cagnardi

doi:10.3389/fphar.2021.634404

Frontiers in Pharmacology (Apr 2021)

Population Pharmacokinetic Model of Iohexol in Dogs to Estimate Glomerular Filtration Rate and Optimize Sampling Time

Sarah Baklouti,
Sarah Baklouti,
Didier Concordet,
Vitaliano Borromeo,
Paola Pocar,
Paola Scarpa,
Petra Cagnardi

Affiliations

Sarah Baklouti: INTHERES, Université de Toulouse, INRAE, ENVT, Toulouse, France
Sarah Baklouti: Laboratoire de Pharmacocinétique et Toxicologie, CHU de Toulouse, Toulouse, France
Didier Concordet: INTHERES, Université de Toulouse, INRAE, ENVT, Toulouse, France
Vitaliano Borromeo: Department of Veterinary Medicine, Università Degli Studi di Milano, Milano, Italy
Paola Pocar: Department of Veterinary Medicine, Università Degli Studi di Milano, Milano, Italy
Paola Scarpa: Department of Veterinary Medicine, Università Degli Studi di Milano, Milano, Italy
Petra Cagnardi: Department of Veterinary Medicine, Università Degli Studi di Milano, Milano, Italy

DOI: https://doi.org/10.3389/fphar.2021.634404
Journal volume & issue: Vol. 12

Abstract

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Monitoring iohexol plasma clearance is considered a useful, reliable, and sensitive tool to establish glomerular filtration rate (GFR) and early stages of kidney disease in both humans and veterinary medicine. The assessment of GFR based on iohexol plasma clearance needs repeated blood sampling over hours, which is not easily attainable in a clinical setting. The study aimed to build a population pharmacokinetic (Pop PK) model to estimate iohexol plasma clearance in a population of dogs and based on this model, to indicate the best sampling times that enable a precise clearance estimation using a low number of samples. A Pop PK model was developed based on 5 iohexol plasma samples taken from 5 to 180 minutes (min) after an intravenous iohexol nominal dose of 64.7 mg/kg from 49 client-owned dogs of different breeds, sexes, ages, body weights, and clinical conditions (healthy or presenting chronic kidney disease CKD). The design of the best sampling times could contain either 1 or 2 or 3 sampling times. These were discretized with a step of 30 min between 30 and 180 min. A two-compartment Pop PK model best fitted the data; creatinine and kidney status were the covariates included in the model to explain a part of clearance variability. When 1 sample was available, 90 or 120 min were the best sampling times to assess clearance for healthy dogs with a low creatinine value. Whereas for dogs with CKD and medium creatinine value, the best sampling time was 150 or 180 min, for CKD dogs with a high creatinine value, it was 180 min. If 2 or 3 samples were available, several sampling times were possible. The method to define the best sampling times could be used with other Pop PK models as long as it is representative of the patient population and once the model is built, the use of individualized sampling times for each patient allows to precisely estimate the GFR.

Published in Frontiers in Pharmacology

ISSN: 1663-9812 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Medicine: Therapeutics. Pharmacology
Website: http://journal.frontiersin.org/journals/pharmacology

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