Simultaneous determination of cinnarizine and domperidone in marketed tablets using a green HPTLC method

Currently, there are no reported green "high-performance thin-layer chromatography (HPTLC)"methods for domperidone (DOM) and cinnarizine (CNZ) simultaneous detection. The objective of the present study was to design and verify a reverse-phase HPTLC method for the concurrent analysis of CNZ and DOM in commercial tablets that is fast, sensitive, and greener. As a green mobile phase, acetone and water in an 80:20 (v/v) binary ratio were used to simultaneously determine CNZ and DOM. The stationary phase was reverse-phase silica gel 60F254S plates. Concurrent measurements of CNZ and DOM were performed at 230 nm. Four different tools were used to assess the greenness of the current method: AGREE, AES, ChlorTox, and NEMI. For both medications, the current approach was linear in the 25-1,000 ng/band range. The accuracy, precision, robustness, sensitivity, and environmental friendliness of the suggested technique for the CNZ and DOM simultaneous detection were verified. The new method's profile was noticeably greener, as seen by the results of every greenness tool, including NEMI, AES (89), ChlorTox (1.08 g), and AGREE (0.83). Utilizing the current approach, the amount of CNZ and DOM in pharmaceutical tablets was found to be 99.53 and 98.87%, respectively. These findings validate the suitability of the existing method for measuring CNZ and DOM simultaneously in commercial tablets. The results of the proposed study indicated that measuring CNZ and DOM in commercial products could be done consistently with the current methodology.