Inferring pulmonary exposure based on clinical PK data: accuracy and precision of model-based deconvolution methods

Abstract: Determining and understanding the target-site exposure in clinical studies remains challenging. This is especially true for oral drug inhalation for local treatment, where the target-site is identical to the site of drug absorption, i.e., the lungs. Modeling and simulation based on clinical pharmacokinetic (PK) data may be a valid approach to infer the pulmonary fate of orally inhaled drugs, even without local measurements. In this work, a simulation-estimation study was systematically applied to investigate f… Show more

“…Predicting the pharmacokinetic models of inhaled drugs can be used for drug dose design, efficacy assessment and drug safety assessment, which have important clinical significance. Pharmacokinetic modeling requires the use of experimental data to establish pharmacokinetic models of inhaled drugs by parameter estimation and other methods and then predict the concentration changes of drugs in the body [3] .…”

Pharmacokinetic prediction of nebulised polymyxin for pulmonary delivery

“…Predicting the pharmacokinetic models of inhaled drugs can be used for drug dose design, efficacy assessment and drug safety assessment, which have important clinical significance. Pharmacokinetic modeling requires the use of experimental data to establish pharmacokinetic models of inhaled drugs by parameter estimation and other methods and then predict the concentration changes of drugs in the body [3] .…”

Pharmacokinetic prediction of nebulised polymyxin for pulmonary delivery

Pharmacokinetics of Inhaled Medications – What Do We Know About Biological Macromolecules?