Login / Signup

Population Pharmacokinetic Method to Predict Within-Subject Variability Using Single-Period Clinical Data.

Won-Ho KangJae-Yeon LeeJung-Woo ChaeKyeong-Ryoon LeeIn-Hwan BaekMin-Soo KimHyun-Moon BackSangkeun JungCraig ShafferRada SavicHwi-Yeol Yun
Published in: Pharmaceuticals (Basel, Switzerland) (2021)
Sample sizes for single-period clinical trials, including pharmacokinetic studies, are statistically determined by within-subject variability (WSV). However, it is difficult to determine WSV without replicate-designed clinical trial data, and statisticians typically estimate optimal sample sizes using total variability, not WSV. We have developed an efficient population-based method to predict WSV accurately with single-period clinical trial data and demonstrate method performance with eperisone. We simulated 1000 virtual pharmacokinetic clinical trial datasets based on single-period and dense sampling studies, with various study sizes and levels of WSV and interindividual variabilities (IIVs). The estimated residual variability (RV) resulting from population pharmacokinetic methods were compared with WSV values. In addition, 3 × 3 bioequivalence results of eperisone were used to evaluate method performance with a real clinical dataset. With WSV of 40% or less, regardless of IIV magnitude, RV was well approximated by WSV for sample sizes greater than 18 subjects. RV was underestimated at WSV of 50% or greater, even with datasets having low IIV and numerous subjects. Using the eperisone dataset, RV was 44% to 48%, close to the true value of 50%. In conclusion, the estimated RV accurately predicted WSV in single-period studies, validating this method for sample size estimation in clinical trials.
Keyphrases
  • clinical trial
  • mycobacterium tuberculosis
  • phase ii
  • open label
  • electronic health record
  • phase iii
  • big data
  • randomized controlled trial
  • case control
  • machine learning
  • single cell
  • finite element