Cyclosporine release and distribution in ophthalmic emulsions determined by pulsatile microdialysis

Robert A Bellantone; Kosha B Shah; Piyush G Patel; Marissa Kaplan; Xiaoming Xu; Vincent Li; Bryan Newman; Md Abul Kaisar

doi:10.1016/j.ijpharm.2022.121521

Cyclosporine release and distribution in ophthalmic emulsions determined by pulsatile microdialysis

Int J Pharm. 2022 Mar 5:615:121521. doi: 10.1016/j.ijpharm.2022.121521. Epub 2022 Jan 29.

Authors

Robert A Bellantone¹, Kosha B Shah², Piyush G Patel², Marissa Kaplan², Xiaoming Xu³, Vincent Li⁴, Bryan Newman⁵, Md Abul Kaisar⁵

Affiliations

¹ Physical Pharmaceutica LLC, 30 Ramland Road, Suite 105, Orangeburg, NY 10962, United States. Electronic address: rbellantone@physpharm.com.
² Physical Pharmaceutica LLC, 30 Ramland Road, Suite 105, Orangeburg, NY 10962, United States.
³ United States Food and Drug Administration, CDER/OPQ/OTR/DPQR, 10903 New Hampshire Avenue, Silver Spring, MD 20993, United States.
⁴ United States Food and Drug Administration, CDER/OPQ/OLDP/DLBP, 10903 New Hampshire Avenue, Silver Spring, MD 20993, United States.
⁵ United States Food and Drug Administration, CDER/OGD/ORS/DTP, 10903 New Hampshire Avenue, Silver Spring, MD 20993, United States.

PMID: 35093461
DOI: 10.1016/j.ijpharm.2022.121521

Abstract

An in vitro release test based on pulsatile microdialysis (PMD) is presented for the purpose of measuring the release of cyclosporine from ophthalmic emulsions, along with a method to determine the drug distribution within the oil-rich globule, surfactant-rich micelle and aqueous phases of the emulsion formulation. Compositionally equivalent formulations containing 0.05% cyclosporine were prepared with similar physical parameters (globule size, viscosity, surface tension zeta potential, osmolality, pH) but made with different manufacturing conditions. Emulsions were made by ultrasonication, using different ultrasonication times (22-49 min) and temperatures (50-82 °C). Formulations were stored at room temperature (20 °C) and PMD was performed under two conditions, one in which the receiving medium temperature was 20 °C, and another in which the receiving medium temperature was 35 °C to mimic the temperature change expected when a drop of formulation is administered to the eye. The PMD release data were taken at release times of 20, 40, 60, 90, 120, 180, 300 and 600 s. All experiments showed a qualitatively similar release pattern, with a rapid initial rate of drug release (Release-1) for the first few minutes, followed by a much slower release (Release-2). In addition, imposing a sudden temperature change on the formulation was observed to affect the release, with some formulations releasing faster into receiver media at 35 °C than at 20 °C, while others released faster into 20 °C than 35 °C receiver media. The drug distribution was also calculated from PMD release data into 20 °C receiver media using a novel release kinetics model. The drug distribution varied among the formulations, with 54-77% of the cyclosporine in the oil phase of the emulsions. PMD is a promising method to evaluate how manufacturing-induced differences affect the distribution and release kinetics of cyclosporine within the emulsion formulation.

Keywords: Cyclosporine; Distribution; Emulsion; IVRT; Ophthalmic; PMD; Pulsatile microdialysis; Release.

MeSH terms

Cyclosporine*
Emulsions
Excipients*
Micelles
Microdialysis

Substances

Emulsions
Excipients
Micelles
Cyclosporine