Spectrophotometric determination of olanzapine, fluoxetine HCL and its impurity using univariate and chemometrics methods reinforced by latin hypercube sampling: Validation and eco-friendliness assessments

IF 4.3 2区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY BMC Chemistry Pub Date : 2024-10-17 DOI:10.1186/s13065-024-01310-3
Hussein N. Ghanem, Asmaa A. El-Zaher, Sally T. Mahmoud, Enas A. Taha
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Abstract

Novel univariate and chemometrics-aided UV spectrophotometric methods were tailored to undergo the fundamentals of green and white analytical chemistry for the simultaneous estimation of a ternary mixture of olanzapine (OLA), fluoxetine HCL (FLU), and its toxic impurity 4-(Trifluoromethyl) phenol (FMP) without any prior separation. The dual-wavelength ratio spectrum univariate method was used to determine OLA and FLU in the presence of FMP in the range of (4–20) and (5–50) μg/ml, respectively. In compliance with the International Conference on Harmonization (ICH) standards, the technique was validated and established Remarkable accuracy (98–102%) and precision (< 2%) with limits of quantification (LOQs) of 0.432 and 2.002 μg/ml, respectively. Partial least squares (PLS) and artificial neural networks (ANNs) are chemometric methodologies that have advantages over the univariate method and use significant innovations employing Latin hypercube sampling (LHS), allowing the generation of a reliable validation set to guarantee the effectiveness and sustainability of these models. The concentration ranges used were (2–20), (2–20), and (5–50) μg/ml; for PLS, the LOQs were 0.602, 0.508, and 1.429 μg/ml, and the root mean square errors of prediction (RMSEPs) were 0.087, 0.048, and 0.159 for OLA, FMP, and FLU, respectively; and for ANNs, the LOQs were 0.551, 0.465, and 0.965 μg/ml, with RMSEPs of 0.056, 0.047, and 0.087 for OLA, FMP, and FLU, respectively. The developed methods yield a greener National Environmental Methods Index (NEMI) with an eco-scale assessment (ESA) score of 90 and a complementary Green Analytical Procedure Index (complex GAPI) in quadrants with an analytical greenness metric (AGREE) score of 0.8. The Red‒Green–Blue 12 algorithm (RGB 12) scored 88.9, outperforming on reported methods and demonstrating widespread practical and environmental approval. Statistical analysis revealed no noteworthy differences (P > 0.05) among the proposed and published techniques. Both pure powders and pharmaceutical capsules were analyzed via these methods.

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使用单变量和化学计量学方法以及拉丁超立方取样法测定奥氮平、氟西汀盐酸盐及其杂质的分光光度法:验证和生态友好性评估
根据绿色和白色分析化学的基本原理,定制了新的单变量和化学计量学辅助紫外分光光度法,用于同时估算奥氮平(OLA)、氟西汀盐酸盐(FLU)及其有毒杂质4-(三氟甲基)苯酚(FMP)的三元混合物,无需事先分离。采用双波长比谱单变量法测定氟西汀存在时 OLA 和 FLU 的含量分别为(4-20)和(5-50)μg/ml。根据国际协调会议(ICH)的标准,对该技术进行了验证,并确定了显著的准确度(98-102%)和精密度(< 2%),定量限(LOQ)分别为 0.432 和 2.002 μg/ml。偏最小二乘法(PLS)和人工神经网络(ANN)是化学计量学方法,与单变量方法相比具有优势,并采用了拉丁超立方采样(LHS)的重大创新,可以生成可靠的验证集,从而保证这些模型的有效性和可持续性。使用的浓度范围分别为(2-20)、(2-20)和(5-50)微克/毫升;PLS 的 LOQ 分别为 0.602、0.508 和 1.429 微克/毫升,预测的均方根误差(RMSEPs)分别为 0.087、0.048、0.048 和 1.429 微克/毫升。OLA、FMP 和 FLU 的 LOQ 分别为 0.551、0.465 和 0.965 μg/ml,预测均方根误差分别为 0.056、0.047 和 0.087。所开发的方法产生了更绿色的国家环境方法指数(NEMI),其生态尺度评估(ESA)得分为 90,并在象限内产生了补充性绿色分析程序指数(复合 GAPI),其分析绿色度量(AGREE)得分为 0.8。红绿蓝 12 算法 (RGB 12) 得分为 88.9 分,优于其他已报道的方法,在实用性和环保方面得到了广泛认可。统计分析显示,所提出的技术与已发表的技术之间没有显著差异(P > 0.05)。纯粉末和药用胶囊均可通过这些方法进行分析。
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来源期刊
BMC Chemistry
BMC Chemistry Chemistry-General Chemistry
CiteScore
5.30
自引率
2.20%
发文量
92
审稿时长
27 weeks
期刊介绍: BMC Chemistry, formerly known as Chemistry Central Journal, is now part of the BMC series journals family. Chemistry Central Journal has served the chemistry community as a trusted open access resource for more than 10 years – and we are delighted to announce the next step on its journey. In January 2019 the journal has been renamed BMC Chemistry and now strengthens the BMC series footprint in the physical sciences by publishing quality articles and by pushing the boundaries of open chemistry.
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