Model-informed precision dosing of teicoplanin for the rapid achievement of the target area under the concentration-time curve: A simulation study

Kazutaka Oda; Tomoyuki Yamada; Kazuaki Matsumoto; Yuki Hanai; Takashi Ueda; Masaru Samura; Akari Shigemi; Hirofumi Jono; Hideyuki Saito; Toshimi Kimura

doi:10.1111/cts.13484

Model-informed precision dosing of teicoplanin for the rapid achievement of the target area under the concentration-time curve: A simulation study

Kazutaka Oda, Tomoyuki Yamada, Kazuaki Matsumoto, Yuki Hanai, Takashi Ueda, Masaru Samura, Akari Shigemi, Hirofumi Jono, Hideyuki Saito, Toshimi Kimura

School of Pharmacy

Research output: Contribution to journal › Article › peer-review

Abstract

Teicoplanin, a glycopeptide antimicrobial, is recommended for therapeutic drug monitoring, but it remains unclear how to target the area under the concentration-time curve (AUC). This simulation study purposed to demonstrate the potential of the Bayesian forecasting approach for the rapid achievement of the target AUC for teicoplanin. We generated concordant and discordant virtual populations against a Japanese population pharmacokinetic model. The predictive performance of the Bayesian posterior AUC in limited sampling on the first day against the reference AUC was evaluated as an acceptable target AUC ratio within the range of 0.8–1.2. In the concordant population, the probability for the maximum a priori or Bayesian posterior AUC on the first day (AUC_0–24) was 61.3% or more than 77.0%, respectively. The Bayesian posterior AUC on the second day (AUC_24–48) was more than 75.1%. In the discordant population, the probability for the maximum a priori or Bayesian posterior AUC_0–24 was 15.5% or 11.7–80.7%, respectively. The probability for the maximum a priori or Bayesian posterior AUC_24–48 was 23.4%, 30.2–82.1%. The AUC at steady-state (AUC_SS) was correlated with trough concentration at steady-state, with a coefficient of determination of 0.930; the coefficients on days 7 and 4 were 0.442 and 0.125, respectively. In conclusion, this study demonstrated that early sampling could improve the probability of AUC_0–24 and AUC_24–48 but did not adequately predict AUC_SS. Further studies are necessary to apply early sampling-based model-informed precision dosing in the clinical settings.

Original language	English
Pages (from-to)	704-713
Number of pages	10
Journal	Clinical and Translational Science
Volume	16
Issue number	4
DOIs	https://doi.org/10.1111/cts.13484
Publication status	Published - 2023 Apr

ASJC Scopus subject areas

Neuroscience(all)
Biochemistry, Genetics and Molecular Biology(all)
Pharmacology, Toxicology and Pharmaceutics(all)

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10.1111/cts.13484

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title = "Model-informed precision dosing of teicoplanin for the rapid achievement of the target area under the concentration-time curve: A simulation study",

abstract = "Teicoplanin, a glycopeptide antimicrobial, is recommended for therapeutic drug monitoring, but it remains unclear how to target the area under the concentration-time curve (AUC). This simulation study purposed to demonstrate the potential of the Bayesian forecasting approach for the rapid achievement of the target AUC for teicoplanin. We generated concordant and discordant virtual populations against a Japanese population pharmacokinetic model. The predictive performance of the Bayesian posterior AUC in limited sampling on the first day against the reference AUC was evaluated as an acceptable target AUC ratio within the range of 0.8–1.2. In the concordant population, the probability for the maximum a priori or Bayesian posterior AUC on the first day (AUC0–24) was 61.3% or more than 77.0%, respectively. The Bayesian posterior AUC on the second day (AUC24–48) was more than 75.1%. In the discordant population, the probability for the maximum a priori or Bayesian posterior AUC0–24 was 15.5% or 11.7–80.7%, respectively. The probability for the maximum a priori or Bayesian posterior AUC24–48 was 23.4%, 30.2–82.1%. The AUC at steady-state (AUCSS) was correlated with trough concentration at steady-state, with a coefficient of determination of 0.930; the coefficients on days 7 and 4 were 0.442 and 0.125, respectively. In conclusion, this study demonstrated that early sampling could improve the probability of AUC0–24 and AUC24–48 but did not adequately predict AUCSS. Further studies are necessary to apply early sampling-based model-informed precision dosing in the clinical settings.",

author = "Kazutaka Oda and Tomoyuki Yamada and Kazuaki Matsumoto and Yuki Hanai and Takashi Ueda and Masaru Samura and Akari Shigemi and Hirofumi Jono and Hideyuki Saito and Toshimi Kimura",

note = "Funding Information: This work was supported by a Grant‐in‐Aid for Young Scientists (B) 20K17467 from the Ministry of Education, Culture, Sports, Science, and Technology of Japan. Publisher Copyright: {\textcopyright} 2023 The Authors. Clinical and Translational Science published by Wiley Periodicals LLC on behalf of American Society for Clinical Pharmacology and Therapeutics.",

year = "2023",

month = apr,

doi = "10.1111/cts.13484",

language = "English",

volume = "16",

pages = "704--713",

journal = "Clinical and Translational Science",

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T1 - Model-informed precision dosing of teicoplanin for the rapid achievement of the target area under the concentration-time curve

T2 - A simulation study

AU - Oda, Kazutaka

AU - Yamada, Tomoyuki

AU - Matsumoto, Kazuaki

AU - Hanai, Yuki

AU - Ueda, Takashi

AU - Samura, Masaru

AU - Shigemi, Akari

AU - Jono, Hirofumi

AU - Saito, Hideyuki

AU - Kimura, Toshimi

N1 - Funding Information: This work was supported by a Grant‐in‐Aid for Young Scientists (B) 20K17467 from the Ministry of Education, Culture, Sports, Science, and Technology of Japan. Publisher Copyright: © 2023 The Authors. Clinical and Translational Science published by Wiley Periodicals LLC on behalf of American Society for Clinical Pharmacology and Therapeutics.

PY - 2023/4

Y1 - 2023/4

N2 - Teicoplanin, a glycopeptide antimicrobial, is recommended for therapeutic drug monitoring, but it remains unclear how to target the area under the concentration-time curve (AUC). This simulation study purposed to demonstrate the potential of the Bayesian forecasting approach for the rapid achievement of the target AUC for teicoplanin. We generated concordant and discordant virtual populations against a Japanese population pharmacokinetic model. The predictive performance of the Bayesian posterior AUC in limited sampling on the first day against the reference AUC was evaluated as an acceptable target AUC ratio within the range of 0.8–1.2. In the concordant population, the probability for the maximum a priori or Bayesian posterior AUC on the first day (AUC0–24) was 61.3% or more than 77.0%, respectively. The Bayesian posterior AUC on the second day (AUC24–48) was more than 75.1%. In the discordant population, the probability for the maximum a priori or Bayesian posterior AUC0–24 was 15.5% or 11.7–80.7%, respectively. The probability for the maximum a priori or Bayesian posterior AUC24–48 was 23.4%, 30.2–82.1%. The AUC at steady-state (AUCSS) was correlated with trough concentration at steady-state, with a coefficient of determination of 0.930; the coefficients on days 7 and 4 were 0.442 and 0.125, respectively. In conclusion, this study demonstrated that early sampling could improve the probability of AUC0–24 and AUC24–48 but did not adequately predict AUCSS. Further studies are necessary to apply early sampling-based model-informed precision dosing in the clinical settings.

AB - Teicoplanin, a glycopeptide antimicrobial, is recommended for therapeutic drug monitoring, but it remains unclear how to target the area under the concentration-time curve (AUC). This simulation study purposed to demonstrate the potential of the Bayesian forecasting approach for the rapid achievement of the target AUC for teicoplanin. We generated concordant and discordant virtual populations against a Japanese population pharmacokinetic model. The predictive performance of the Bayesian posterior AUC in limited sampling on the first day against the reference AUC was evaluated as an acceptable target AUC ratio within the range of 0.8–1.2. In the concordant population, the probability for the maximum a priori or Bayesian posterior AUC on the first day (AUC0–24) was 61.3% or more than 77.0%, respectively. The Bayesian posterior AUC on the second day (AUC24–48) was more than 75.1%. In the discordant population, the probability for the maximum a priori or Bayesian posterior AUC0–24 was 15.5% or 11.7–80.7%, respectively. The probability for the maximum a priori or Bayesian posterior AUC24–48 was 23.4%, 30.2–82.1%. The AUC at steady-state (AUCSS) was correlated with trough concentration at steady-state, with a coefficient of determination of 0.930; the coefficients on days 7 and 4 were 0.442 and 0.125, respectively. In conclusion, this study demonstrated that early sampling could improve the probability of AUC0–24 and AUC24–48 but did not adequately predict AUCSS. Further studies are necessary to apply early sampling-based model-informed precision dosing in the clinical settings.

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Model-informed precision dosing of teicoplanin for the rapid achievement of the target area under the concentration-time curve: A simulation study

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