Simultaneous Determination of Caffeine and Paracetamol in Commercial Formulations Using Greener Normal-Phase and Reversed-Phase HPTLC Methods: A Contrast of Validation Parameters.

Prawez Alam, Faiyaz Shakeel, Abuzer Ali, Mohammed H Alqarni, Ahmed I Foudah, Tariq M Aljarba, Faisal K Alkholifi, Sultan Alshehri, Mohammed M Ghoneim, Amena Ali

Molecules (Basel, Switzerland) 2022 Jan 09

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There has been no assessment of the greenness of the described analytical techniques for the simultaneous determination (SMD) of caffeine and paracetamol. As a result, in comparison to the greener normal-phase high-performance thin-layer chromatography (HPTLC) technique, this research was conducted to develop a rapid, sensitive, and greener reversed-phase HPTLC approach for the SMD of caffeine and paracetamol in commercial formulations. The greenness of both techniques was calculated using the AGREE method. For the SMD of caffeine and paracetamol, the greener normal-phase and reversed-phase HPTLC methods were linear in the 50-500 ng/band and 25-800 ng/band ranges, respectively. For the SMD of caffeine and paracetamol, the greener reversed-phase HPTLC approach was more sensitive, accurate, precise, and robust than the greener normal-phase HPTLC technique. For the SMD of caffeine paracetamol in commercial PANEXT and SAFEXT tablets, the greener reversed-phase HPTLC technique was superior to the greener normal-phase HPTLC approach. The AGREE scores for the greener normal-phase and reversed-phase HPTLC approaches were estimated as 0.81 and 0.83, respectively, indicated excellent greenness profiles for both analytical approaches. The greener reversed-phase HPTLC approach is judged superior to the greener normal-phase HPTLC approach based on numerous validation parameters and pharmaceutical assays.

Citation

Prawez Alam, Faiyaz Shakeel, Abuzer Ali, Mohammed H Alqarni, Ahmed I Foudah, Tariq M Aljarba, Faisal K Alkholifi, Sultan Alshehri, Mohammed M Ghoneim, Amena Ali. Simultaneous Determination of Caffeine and Paracetamol in Commercial Formulations Using Greener Normal-Phase and Reversed-Phase HPTLC Methods: A Contrast of Validation Parameters. Molecules (Basel, Switzerland). 2022 Jan 09;27(2)