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Ocular Half-Life of Intravitreal Biologics in Humans and Other Species: Meta-Analysis and Model-Based Prediction.

Authors :
Caruso A
Füth M
Alvarez-Sánchez R
Belli S
Diack C
Maass KF
Schwab D
Kettenberger H
Mazer NA
Source :
Molecular pharmaceutics [Mol Pharm] 2020 Feb 03; Vol. 17 (2), pp. 695-709. Date of Electronic Publication: 2020 Jan 16.
Publication Year :
2020

Abstract

Therapeutic antibodies administered intravitreally are the current standard of care to treat retinal diseases. The ocular half-life ( t <subscript>1/2</subscript> ) is a key determinant of the duration of target suppression. To support the development of novel, longer-acting drugs, a reliable determination of t <subscript>1/2</subscript> is needed together with an improved understanding of the factors that influence it. A model-based meta-analysis was conducted in humans and nonclinical species (rat, rabbit, monkey, and pig) to determine consensus values for the ocular t <subscript>1/2</subscript> of IgG antibodies and Fab fragments. Results from multiple literature and in-house pharmacokinetic studies are presented within a mechanistic framework that assumes diffusion-controlled drug elimination from the vitreous. Our analysis shows, both theoretically and experimentally, that the ocular t <subscript>1/2</subscript> increases in direct proportion to the product of the hydrodynamic radius of the macromolecule (3.0 nm for Fab and 5.0 nm for IgG) and the square of the radius of the vitreous globe, which varies approximately 24-fold from the rat to the human. Interspecies differences in the proportionality factors are observed and discussed in mechanistic terms. In addition, mathematical formulae are presented that allow prediction of the ocular t <subscript>1/2</subscript> for molecules of interest. The utility of these formulae is successfully demonstrated in case studies of aflibercept, brolucizumab, and PEGylated Fabs, where the predicted ocular t <subscript>1/2</subscript> values are found to be in reasonable agreement with the experimental data available for these molecules.

Details

Language :
English
ISSN :
1543-8392
Volume :
17
Issue :
2
Database :
MEDLINE
Journal :
Molecular pharmaceutics
Publication Type :
Academic Journal
Accession number :
31876425
Full Text :
https://doi.org/10.1021/acs.molpharmaceut.9b01191