Impact of Vehicle Physicochemical Properties on Modeling-Based Predictions of Cyclosporine Ophthalmic Emulsion Bioavailability and Tear Film Breakup Time

Walenga, Ross; Babiskin, Andrew; Zhang, Xinyuan; Absar, Mohammad; Zhao, Liang; Lionberger, Robert

doi:10.1016/j.xphs.2018.10.034

Cited by 23 publications

(18 citation statements)

References 52 publications

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“…Low formulation viscosity enables dosing accuracy and ease of eye-drop administration. Surface tension is an important physicochemical formulation parameter that determines spreading of a formulation across the ocular surface and also influences capillary drainage through the nasolacrimal ducts, affecting precorneal residence time of the instilled formulation (20). As expected, with the increase in cationic surfactant concentration, the surface tension of SANE formulation decreased.…”

Section: Preparation and Physicochemical Characterization Of Cationicmentioning

confidence: 52%

“…NE technology has an increasing influence in every aspect of drug delivery (16)(17)(18), particularly in ophthalmic drug delivery (2,19). Physicochemical properties affecting in vivo performance of an ophthalmic NE include droplet size, size distribution and zeta-potential, formulation viscosity profile as a function of applied shear, pH, osmolarity, and surface tension (20,21). In order to develop a stable cationic NE with SA as a carrier of positive charge, we first performed screening of ophthalmically acceptable oils and nonionic surfactants in search for primary formulation with small droplet size and low PDI value.…”

Section: Resultsmentioning

confidence: 99%

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In vitro evaluation of stearylamine cationic nanoemulsions for improved ocular drug delivery

et al. 2019

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Oil-in-water nanoemulsions (NEs) represent one of the formulation approaches to improve eye-related bio-availability of lipophilic drugs. The potential of cationic NEs is pronounced due to the electrostatic interaction of positively charged droplets with negatively charged mucins present in the tear film, providing prolonged formulation residence at the ocular surface. The aim of this study was to develop a cationic ophthalmic NE with cationic lipid stearylamine (SA) as a carrier of a positive charge. The addition of a nonionic surfactant provided the dual electro-steric stabilization of NEs and enabled tuning of SA concentration to achieve an optimal balance between its interaction with mucins and biocompatibility. Physicochemical characterization, stability profile, in vitro mucoadhesion study and biocompatibility study employing 3D HCE-T cell-based model of corneal epithelium pointed out the NE with 0.05 % (m/m) SA as the leading formulation. Minimizing SA content while retaining droplet/mucin interactions is of great importance for efficacy and safety of future ophthalmic drug products.

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Section: Preparation and Physicochemical Characterization Of Cationicmentioning

confidence: 52%

Section: Resultsmentioning

confidence: 99%

In vitro evaluation of stearylamine cationic nanoemulsions for improved ocular drug delivery

et al. 2019

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“…For ophthalmic products, the FDA's ophthalmic research program integrates different aspects of Q3 evaluation on new methodologies for characterization of physicochemical properties of ophthalmic drug products, development, and evaluation of in vitro release testing methods and their capacity to predict in vivo performance and development of predictive modeling of ocular drug absorption …”

Section: Equivalence Of Locally Acting Drugsmentioning

confidence: 99%

Innovation for Generic Drugs: Science and Research Under the Generic Drug User Fee Amendments of 2012

Lionberger¹

2019

Clin Pharma and Therapeutics

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Regulatory science is science and research intended to improve decision making in a regulatory framework. Improvements in decision making can be in both accuracy (making better decisions) and in efficiency (making faster decisions). Science and research supported by the Generic Drug User Fee Amendments of 2012 (GDUFA) have focused on two innovative methodologies that work together to enable new approaches to development and review of generic drugs: quantitative models and advanced in vitro product characterization. Quantitative models faithfully represent current scientific understanding. They are tools pharmaceutical scientists and clinical pharmacologists use for making better and faster product development decisions. Advances in the in vitro product comparisons provide the measurements of product differences that are the critical input into the models. This paper outlines four areas where science and research funded by GDUFA support synergistic use of models and characterization at critical decision points during generic drug product development and review.

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“…Viskositas (154)(155)(156)(157)(158)(159)(160)(161) adalah suatu cara untuk menyatakan berapa daya tahan dari aliran yang diberikan oleh suatu cairan.Viskositas adalah ukuran yang menyatakan kekentalan suatu cairan atau fluida.Kekentalan merupakan sifat cairan yang berhubungan erat dengan hambatan untuk mengalir.Viskositas cairan akan menimbulkan gesekan antar bagian atau lapisan cairan yang bergerak satu terhadap yang lain.Hambatan atau gesekan yang terjadi ditimbulkan oleh gaya kohesi didalam zat cair.…”

Section: Viskositasunclassified

Kalium Permanganat: Termodinamika Mengenai Transport Ionik dalam Air

Feronika¹,

Zainul²

2018

Preprint

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Kalium permanganat adalah suatu senyawa kimia anorganik yang memiliki rumus KMnO4 dan merupakan garam yang mengandung ion K+ dan MnO4-.. Kalium permanganat larut dalam air dan menghasilkan larutan berwarna merah muda atau ungu Intens.Senyawa ini merupakan suatu agen pengoksidasi yang baik, dimana mangan memiliki bilangan oksidasi +4 sehingga dapat dimanfaatkan dibidang kesehatan maupun industry.Review ini bertujuan untuk menganalisis bentuk dari struktur serta interaksi dalam transport ion Kalium Permanganat. Metode yang digunakan dalam penelitian ini adalah penggunaan aplikasi Chemdraw 15.0 (Komputasi),penelusuran literature dengan Endnote X7, serta perhitungan matematis. Kalium permanganat memiliki struktur kristal ortorombik dengan jarak Mn–O adalah1.62Å dan merupakan larutan elektrolit yang memiliki sifat termokimia yaitu entropi molar standar sebesar 171,7 JK-1mol-1,energi bebas Gibbs sebesar -713,8 kJ/mol,serta entalpi pembentukan standar sebesar -813,4 kJ/mol. Interaksi yang terjadi pada ion KMnO4 dapat diperhatikan melalui beberapa parameter, diantaranya adalah konduktivitas, mobilitas,serta kecepatan hanyut ionnya.Konduktivitas dari KMnO4 dipengaruhi oleh konsentrasi yaitu semakin banyak ion yang ada dalam larutan maka mobilitas ion yang juga berhubungan dengan kecepatan hanyut dalam larutan akan semakin berkurang sehingga nilai konduktivitas akan menurun. Mobilitas ion K+ yaitu 7,6 10-8m2s-1V-1, serta kecepatan hanyut KMnO4 sebesar 0,33 V/cm. Berdasrkan metoda komputasi dengan ChemOffice 3D, energi total yang dibutuhkan KMnO4 untuk bergerak sebesar 680.5699 kcal/mol pada suhu 300 K dengan RMS gradient yaitu 33.114.

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Impact of Vehicle Physicochemical Properties on Modeling-Based Predictions of Cyclosporine Ophthalmic Emulsion Bioavailability and Tear Film Breakup Time

Cited by 23 publications

References 52 publications

In vitro evaluation of stearylamine cationic nanoemulsions for improved ocular drug delivery

In vitro evaluation of stearylamine cationic nanoemulsions for improved ocular drug delivery

Innovation for Generic Drugs: Science and Research Under the Generic Drug User Fee Amendments of 2012

Kalium Permanganat: Termodinamika Mengenai Transport Ionik dalam Air

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