Implementation of White Analytical Chemistry-Assisted Analytical Quality by Design Approach to Green Liquid Chromatographic Method for Concomitant Analysis of Anti-Hypertensive Drugs in Human Plasma.

Autor: Prajapati P; Department of Quality Assurance, Maliba Pharmacy College, Maliba Campus, Bardoli-Mahuva Road, Tarsadi, Mahuva, Surat, Gujarat 394 350, India., Shahi A; Department of Quality Assurance, Maliba Pharmacy College, Maliba Campus, Bardoli-Mahuva Road, Tarsadi, Mahuva, Surat, Gujarat 394 350, India., Acharya A; Department of Quality Assurance, Maliba Pharmacy College, Maliba Campus, Bardoli-Mahuva Road, Tarsadi, Mahuva, Surat, Gujarat 394 350, India., Pulusu VS; Department of Chemistry and Biochemistry, Ohio University, Anthens, OH 45701, USA., Shah S; Department of Quality Assurance, Maliba Pharmacy College, Maliba Campus, Bardoli-Mahuva Road, Tarsadi, Mahuva, Surat, Gujarat 394 350, India.
Jazyk: angličtina
Zdroj: Journal of chromatographic science [J Chromatogr Sci] 2023 Jul 31. Date of Electronic Publication: 2023 Jul 31.
DOI: 10.1093/chromsci/bmad054
Abstrakt: According to current concepts of white analytical chemistry (WAC), the use of organic solvents those are teratogenic and carcinogenic must be avoided for the protection of the environment and of the analysts. This led to the development and validation of the WAC-assisted green liquid chromatographic technique (reverse-phase high-pressure liquid chromatography (RP-HPLC)) for the simultaneous analysis of anti-hypertensive drugs (azilsartan medoxomil, chlorthalidone and cilnidipine) in human plasma and their fixed-dose combinations. The analytical quality by design approach was used in conjunction with the design of experiments and chemometrics concepts to develop the method. To develop the green RP-HPLC method, critical method variables (CMVs) and critical analytical attributes were identified using the multivariate analytical tools principal component analysis and partial least square regression. Using the Box-Behnken design, the design of experiments was used for CMV optimization and response surface analysis. It was possible to explore the analytical design space for the life cycle management of the RP-HPLC method. The developed method was found to be validated following International Council for Harmonization Q2 (R1) and M10 requirements. Using the red, green and blue paradigm, the existing and proposed chromatographic methods were evaluated for their validation efficacy, greenness profile and cost-effectiveness.
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Databáze: MEDLINE