SYNTHESIS OF UREA AND MAGNETITE-BASED CHITIN AS ADSORBENTS FOR THE REMOVAL OF AMLODIPINE BESYLATE

International Journal of Pharmacy and Pharmaceutical Sciences Pub Date : 2023-09-01 DOI:10.22159/ijpps.2023v15i9.48685

Cesar Londono, Kelly Barrera, John Rojas

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Abstract

Objective: Development of urea and magnetite-based chitin adsorbents for the removal of amlodipine besylate. Methods: Amlodipine is a calcium channel blocker widely used to treat hypertension and angina. However, it is important to treat the residues before disposal so they do not pollute the effluent water sources. The amlodipine sorption property of chitin-based subtract (CBS) was improved by treatment with magnetite and urea, followed by pyrolysis at 500 °C. The FT-IR characterization, elemental composition, pore properties, and sorption isotherms were also assessed. Results: The sorption capacity of amlodipine increased from 4.6 to 9.3 mg/g for the urea and magnetite-treated products, respectively. Further, modified chitin products showed a pore volume (micro and mesopore composition), pore percentage, and roughness of 0.01 cm3g-1, 0.02 cm3g-1, 32% and 68%, and 1.2, respectively. The CBS and derivatives did not present Langmurian behavior, indicating a characteristic heterogeneous surface and the presence of energetically distinct sorption sites. The sorption equilibrium was achieved within 5 min, resulting in a net physical sorption. Conclusion: The insertion of nitrogen and iron moieties on the surface of chitin improved the adsorption capacity of amlodipine.

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合成尿素和磁铁矿基几丁质作为吸附剂去除苯磺酸氨氯地平

目的:制备脲基和磁铁矿基几丁质吸附剂去除苯磺酸氨氯地平。方法:氨氯地平是一种钙通道阻滞剂，广泛用于治疗高血压和心绞痛。然而，重要的是在处置前对残留物进行处理，以免污染流出水源。采用磁铁矿和尿素处理甲壳素基减法(CBS)，并在500℃下热解，提高了其氨氯地平吸附性能。FT-IR表征，元素组成，孔隙性质和吸附等温线也进行了评估。结果:氨氯地平对尿素和磁铁矿处理后产物的吸附量分别从4.6 mg/g提高到9.3 mg/g。改性甲壳素产品的孔隙体积(微孔和中孔组成)为0.01 cm3g-1，孔隙率为32%，孔隙率为68%，粗糙度为1.2。CBS及其衍生物不表现出Langmurian行为，表明其具有特征性的非均相表面和能量上不同的吸附位点的存在。吸附平衡在5分钟内达到，导致净物理吸附。结论:氮和铁基团在甲壳素表面的插入提高了氨氯地平的吸附能力。

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International Journal of Pharmacy and Pharmaceutical Sciences

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