Syed Nazrin Ruhina Rahman scite author profile

Syed Nazrin Ruhina Rahman

5Publications

23Citation Statements Received

25Citation Statements Given

How they've been cited

How they cite others

Affiliations

National Institute of Pharmaceutical Education and Research, National Institute of Pharmaceutical Education and Research

Publications

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Systematic Optimization, In Vitro Drug Release, and Preliminary Nonclinical Toxicity Assessment of Nonphospholipid-Based Topical Ophthalmic Emulsions Containing 0.05 or 0.1% w/w Cyclosporin A for Dry-Eye Syndrome Management

et al. 2019

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The objectives of the present investigations are (1) to envisage a risk assessment plan for nonphospholipid-based topical ophthalmic emulsions with the help of failure mode and effect analysis (FMEA), (2) to screen the risky formulation and process variables by the Taguchi design, (3) to optimize systematically an emulsion formula by face-centered central composite design (CCD), (4) to incorporate cyclosporin A (0.05 or 0.1% w/w) into the optimized emulsions and predict the in vitro drug release kinetic via a particle diffusioncontrolled mathematical model equation, and (5) to assess the emulsion's toxicity using in vitro hemolysis study. Through the risk priority number (RPN) scores of FMEA, halfnormal and Pareto charts of the Taguchi design, 3D-response surface graphs, and overlay plots of CCD, the emulsion formula was systematically optimized. Irrespective of the two different drug loadings into optimized emulsions, the drug entrapment efficiency values ranged from 73.20 ± 0.13 to 74.42 ± 0.15%. The film diffusion or ion-exchange process fails to interpret the in vitro drug release kinetic profile. A permissible percentage hemolysis value of above 10% but below 25% guidance was observed for emulsions with or without cyclosporin A. The systematically optimized phospholipidless ophthalmic emulsions could further be exploited commercially for managing dry-eye syndrome.

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Neoteric solvents for the pharmaceutical industry: an update

Sekharan

Katari

Rahman

et al. 2021

Drug Discovery Today

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Application of Design of Experiments® Approach-Driven Artificial Intelligence and Machine Learning for Systematic Optimization of Reverse Phase High Performance Liquid Chromatography Method to Analyze Simultaneously Two Drugs (Cyclosporin A and Etodolac) in Solution, Human Plasma, Nanocapsules, and Emulsions

et al. 2021

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Orally Administered Drug Solubility-Enhancing Formulations: Lesson Learnt from Optimum Solubility-Permeability Balance

et al. 2021

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Protecting the Normal Physiological Functions of Articular and Periarticular Structures by Aurum Nanoparticle-Based Formulations: an Up-to-Date Insight

Famta

Kaur

et al. 2020

AAPS PharmSciTech

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