Time-varying compartmental models capture hours-scale variation in the elimination kinetics of vancomycin in rats
Pharmacokinetics have traditionally been assessed using concentration measurements with relatively low temporal resolution, such as from blood draws, leading to pharmacokinetic profiles estimated from sparse data, often averaged across subjects. Recent advances in in vivo sensors, however, now enabl...
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| Published in | British journal of pharmacology Vol. 182; no. 13; p. 2986 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
01.07.2025
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| Subjects | |
| Online Access | Get more information |
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| Abstract | Pharmacokinetics have traditionally been assessed using concentration measurements with relatively low temporal resolution, such as from blood draws, leading to pharmacokinetic profiles estimated from sparse data, often averaged across subjects. Recent advances in in vivo sensors, however, now enable the collection of hundreds of observations over a few hours in individual subjects. Previous analyses of such data for the antibiotic tobramycin identified significant (several-fold), hours-scale changes in the efficiency with which this renally cleared drug is eliminated in anaesthetised rats. Here, we apply similar analyses to study the pharmacokinetics of another renally cleared drug, the antibiotic vancomycin.
We estimate vancomycin pharmacokinetic profiles using previously collected time-dense plasma concentration measurements within six anaesthetised rats. Specifically, we fit standard one- and two-compartment models, as well as time-varying one-compartment models (in which the proportionality relating concentration to elimination rate is time-varying), to these data to investigate if the time-varying models are statistically preferred for describing individual-level vancomycin pharmacokinetics, over standard one- and two-compartment models.
One-compartment models incorporating time-varying elimination proportionalities are statistically preferred over standard one- and two-compartment models for five of our six vancomycin time courses. When the initial impact of the distribution phase is removed from these data, a reciprocally time-varying one-compartment model is preferred over the standard-one compartment model in four of five considered datasets.
These results provide further animal-model evidence that the pharmacokinetics of renally cleared drugs can vary significantly over timescales as short as a few hours. |
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| AbstractList | Pharmacokinetics have traditionally been assessed using concentration measurements with relatively low temporal resolution, such as from blood draws, leading to pharmacokinetic profiles estimated from sparse data, often averaged across subjects. Recent advances in in vivo sensors, however, now enable the collection of hundreds of observations over a few hours in individual subjects. Previous analyses of such data for the antibiotic tobramycin identified significant (several-fold), hours-scale changes in the efficiency with which this renally cleared drug is eliminated in anaesthetised rats. Here, we apply similar analyses to study the pharmacokinetics of another renally cleared drug, the antibiotic vancomycin.
We estimate vancomycin pharmacokinetic profiles using previously collected time-dense plasma concentration measurements within six anaesthetised rats. Specifically, we fit standard one- and two-compartment models, as well as time-varying one-compartment models (in which the proportionality relating concentration to elimination rate is time-varying), to these data to investigate if the time-varying models are statistically preferred for describing individual-level vancomycin pharmacokinetics, over standard one- and two-compartment models.
One-compartment models incorporating time-varying elimination proportionalities are statistically preferred over standard one- and two-compartment models for five of our six vancomycin time courses. When the initial impact of the distribution phase is removed from these data, a reciprocally time-varying one-compartment model is preferred over the standard-one compartment model in four of five considered datasets.
These results provide further animal-model evidence that the pharmacokinetics of renally cleared drugs can vary significantly over timescales as short as a few hours. |
| Author | Kippin, Tod Plaxco, Kevin W Meiring, Wendy McDonough, Matthew H Gerson, Julian |
| Author_xml | – sequence: 1 givenname: Matthew H orcidid: 0000-0001-5931-124X surname: McDonough fullname: McDonough, Matthew H organization: Institute for Collaborative Biotechnologies at the University of California, Santa Barbara, California, 93106, USA – sequence: 2 givenname: Julian surname: Gerson fullname: Gerson, Julian organization: The Neuroscience Research Institute and Department of Molecular Cellular and Developmental Biology, University of California Santa Barbara, Santa Barbara, California, 93106, USA – sequence: 3 givenname: Tod surname: Kippin fullname: Kippin, Tod organization: The Neuroscience Research Institute and Department of Molecular Cellular and Developmental Biology, University of California Santa Barbara, Santa Barbara, California, 93106, USA – sequence: 4 givenname: Wendy orcidid: 0000-0002-5843-6662 surname: Meiring fullname: Meiring, Wendy organization: Department of Statistics and Applied Probability, University of California Santa Barbara, Santa Barbara, California, 93106, USA – sequence: 5 givenname: Kevin W surname: Plaxco fullname: Plaxco, Kevin W organization: Department of Bioengineering, University of California Santa Barbara, Santa Barbara, California, 93106, USA |
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| Keywords | compartment models renal function animal models Bayesian information criterion nonlinear least squares regression |
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| SubjectTerms | Animals Anti-Bacterial Agents - blood Anti-Bacterial Agents - pharmacokinetics Male Models, Biological Rats Rats, Sprague-Dawley Time Factors Vancomycin - blood Vancomycin - pharmacokinetics |
| Title | Time-varying compartmental models capture hours-scale variation in the elimination kinetics of vancomycin in rats |
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