Anuja Raut scite author profile

Anuja Raut

2Publications

2Citation Statements Received

67Citation Statements Given

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Virginia Commonwealth University

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Pharmacokinetic profile analyses for inhaled drugs in humans using the lung delivery and disposition model

Raut

Dhapare

Venitz

et al. 2019

Biopharm & Drug Disp

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The kinetic clarification of lung disposition for inhaled drugs in humans via pharmacokinetic (PK) modeling aids in their development and regulation for systemic and local delivery, but remains challenging due to its multiplex nature. This study exercised our lung delivery and disposition kinetic model to derive the kinetic descriptors for the lung disposition of four drugs [calcitonin, tobramycin, ciprofloxacin and fluticasone propionate (FP)] inhaled via different inhalers from the published PK profile data.With the drug dose delivered to the lung (DTL) estimated from the corresponding γ-scintigraphy or in vivo predictive cascade impactor data, the model-based curvefitting and statistical moment analyses derived the rate constants of lung absorption (k a ) and non-absorptive disposition (k nad ). The k a values differed substantially between the drugs (0.05-1.00 h −1 ), but conformed to the lung partition-based membrane diffusion except for FP, and were inhaler/delivery/deposition-independent.The k nad values also varied widely (0.03-2.32 h −1 ), yet appeared to be explained by the presence or absence of non-absorptive disposition in the lung via mucociliary clearance, local tissue degradation, binding/sequestration and/or phagocytosis, and to be sensitive to differences in lung deposition. For FP, its k a value of 0.2 h −1 was unusually low, suggesting solubility/dissolution-limited slow lung absorption, but was comparable between two inhaler products. Thus, the difference in the PK profile was attributed to differences in the DTL and the k nad value, the latter likely originating from different aerosol sizes and regional deposition in the lung. Overall, this empirical, rather simpler model-based analysis provided a quantitative kinetic understanding of lung absorption and non-absorptive disposition for four inhaled drugs from PK profiles in humans. K E Y W O R D Scurve-fitting, inhaled drug, modeling, pharmacokinetics (PK), statistical moment analysis

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Lung Disposition Model-Based Analyses of Clinical Pharmacokinetic Profiles for Inhaled Drugs

Raut¹

2017

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Anuja Raut

Pharmacokinetic profile analyses for inhaled drugs in humans using the lung delivery and disposition model

Lung Disposition Model-Based Analyses of Clinical Pharmacokinetic Profiles for Inhaled Drugs

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