<p>The fast and validated capillary gas chromatographic method equipped with a flame ionization detector (CGC-FID) has been improved to determine metronidazole benzoate (MTB) in the pure state and marketed dosage forms. Miconazole nitrate (MCN) was used as an internal standard. Initially, the oven temperature was 210&#xa0;°C for 10&#xa0;min. Then, through the thermal programming of the oven, the temperature was raised to 250&#xa0;°C at a rate of 10&#xa0;°C/min and maintained for 10&#xa0;min. Meanwhile, the injector port and detector temperatures were fixed at 260&#xa0;°C. MTB was first separated and then MCN at retention times of 4.2 and 12.0&#xa0;min, respectively. The response-concentration graph is linear over the 3.0–125.0&#xa0;µg/mL range with a LOD of 0.16&#xa0;µg/mL. The suggested approach was validated according to ICH criteria and utilized to analyze commercial medication formulations. It was found that the findings matched those obtained using the comparison approach to the quantitative analysis of MTB in an oral suspension. The Analytical Greenness metric Approach, including AGREE-Prep, Analytical Eco-Scale, AGREE, Green Analytical Procedure Index (GAPI), Blue Applicability Grade Index (BAGI), and White Analytical Chemistry (WAC), and its applications to our presented methodology, provide further insight into this study.</p> Graphical Abstract <p></p>

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Eco-friendly capillary gas chromatography with flame ionization detector (CGC-FID) to determine metronidazole benzoate in dosage forms

  • Safwan Ashour,
  • Nuha Kattan

摘要

The fast and validated capillary gas chromatographic method equipped with a flame ionization detector (CGC-FID) has been improved to determine metronidazole benzoate (MTB) in the pure state and marketed dosage forms. Miconazole nitrate (MCN) was used as an internal standard. Initially, the oven temperature was 210 °C for 10 min. Then, through the thermal programming of the oven, the temperature was raised to 250 °C at a rate of 10 °C/min and maintained for 10 min. Meanwhile, the injector port and detector temperatures were fixed at 260 °C. MTB was first separated and then MCN at retention times of 4.2 and 12.0 min, respectively. The response-concentration graph is linear over the 3.0–125.0 µg/mL range with a LOD of 0.16 µg/mL. The suggested approach was validated according to ICH criteria and utilized to analyze commercial medication formulations. It was found that the findings matched those obtained using the comparison approach to the quantitative analysis of MTB in an oral suspension. The Analytical Greenness metric Approach, including AGREE-Prep, Analytical Eco-Scale, AGREE, Green Analytical Procedure Index (GAPI), Blue Applicability Grade Index (BAGI), and White Analytical Chemistry (WAC), and its applications to our presented methodology, provide further insight into this study.

Graphical Abstract