Solid-State NMR Characterization of Mefloquine Resinate Complexes Designed for Taste-Masking Pediatric Formulations

Pharmaceuticals Pub Date : 2024-07-02 DOI:10.3390/ph17070870
L. Borré, Eduardo G. R. Sousa, R. S. San Gil, Mateus M. Baptista, Alexandre A. Leitão, J. M. A. R. de Almeida, Olivia Carr, Osvaldo N. Oliveira, Flávio M. Shimizu, Thiago F. Guimarães
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Abstract

Mefloquine (MQ) is an antimalarial medication prescribed to treat or malaria prevention.. When taken by children, vomiting usually occurs, and new doses of medication frequently need to be taken. So, developing pediatric medicines using taste-masked antimalarial drug complexes is mandatory for the success of mefloquine administration. The hypothesis that binding mefloquine to an ion-exchange resin (R) could circumvent the drug’s bitter taste problem was proposed, and solid-state 13C cross-polarization magic angle spinning (CPMAS) NMR was able to follow MQ–R mixtures through chemical shift and relaxation measurements. The nature of MQ–R complex formation could then be determined. Impedimetric electronic tongue equipment also verified the resinate taste-masking efficiency in vitro. Variations in chemical shifts and structure dynamics measured by proton relaxation properties (e.g., T1ρH) were used as probes to follow the extension of mixing and specific interactions that would be present in MQ–R. A significant decrease in T1ρH values was observed for MQ carbons in MQ–R complexes, compared to the ones in MQ (from 100–200 ms in MQ to 20–50 ms in an MQ–R complex). The results evidenced that the cationic resin interacts strongly with mefloquine molecules in the formulation of a 1:1 ratio complex. Thus, 13C CPMAS NMR allowed the confirmation of the presence of a binding between mefloquine and polacrilin in the MQ–R formulation studied.
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用于掩味儿科制剂的甲氟喹树脂酸复合物的固态核磁共振表征
甲氟喹(MQ)是一种抗疟药物,用于治疗或预防疟疾。儿童服用后通常会出现呕吐,而且经常需要服用新剂量的药物。因此,开发使用掩味抗疟药物复合物的儿科药物是成功服用甲氟喹的必要条件。研究人员提出了将甲氟喹与离子交换树脂(R)结合可避免药物苦味问题的假设,并通过化学位移和弛豫测量对固态 13C 交叉偏振魔角旋光(CPMAS)核磁共振进行了跟踪 MQ-R 混合物。这样就可以确定 MQ-R 复合物形成的性质。电子舌测仪也验证了树脂酸盐的体外掩味效率。通过质子弛豫特性(如 T1ρH)测量的化学位移和结构动态变化被用作探针,以跟踪 MQ-R 中可能存在的混合扩展和特定相互作用。与 MQ 中的碳相比,MQ-R 复合物中 MQ 碳的 T1ρH 值明显下降(从 MQ 中的 100-200 毫秒下降到 MQ-R 复合物中的 20-50 毫秒)。结果表明,在 1:1 比例的复合物配方中,阳离子树脂与甲氟喹分子的相互作用很强。因此,通过 13C CPMAS NMR 可以确认在所研究的 MQ-R 复合物配方中存在甲氟喹和 polacrilin 之间的结合。
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