设计并评价一种载盐酸多巴胺的纳米结构脂质载体用于经鼻递药治疗帕金森病。

Design and evaluations of a nanostructured lipid carrier loaded with dopamine hydrochloride for intranasal bypass drug delivery in Parkinson's disease.

机构信息

Head of Department of Pharmaceutics, Delhi Institute of Pharmaceutical Science And Research, Delhi Pharmaceutical Science And Research University, New Delhi, India.

University Institute of Pharma Sciences (UIPS), Chandigarh University NH-05, Chandigarh Ludhiana Highway, Mohali, India.

出版信息

J Microencapsul. 2023 Dec;40(8):599-612. doi: 10.1080/02652048.2023.2264386. Epub 2023 Nov 9.

DOI:10.1080/02652048.2023.2264386

PMID:37787159

Abstract

AIM

The goal of this study is to optimisation and evaluation of dopamine-loaded NLC (NLC-DOPA) for achieve dopamine concentrations into brain for treatment of Parkinson's disease which causes progressive neuronal death.

METHOD

NLC-DOPA prepared by homogenisation method using solid lipids (Cholesterol and Soya lecithin), liquid lipid (Oleic acid) and surfactant (Poloxamer- 188) as major excipients, optimised by central composite design using design expert-13 software. The optimised formulations were characterised by particle size, zeta potential, entrapment efficiency, SEM, TEM, FTIR, DSC, XRD, stability study and drug release. The histopathology of rat brain tissues and goat nasal tissues were performed. The (permeability and nasal ciliotoxicity study) and pharmacodynamics study were also accomplished to determine its efficacy and potency of NLC.

RESULT

The NLC-DOPA formulations were optimised in particle size and (EE)% with range from 85.53 ± 0.703 to 106.11 ± 0.822 nm and 82.17 ± 0.794 to 95.45 ± 0.891%, respectively. The optimised formulation F11 showing best goodness-fitted model kinetic, followed by Korsmeyer-Peppas equation and zero order kinetic. The SEM and TEM confirmed the spherical and smooth morphology of formulation. FTIR and DSC spectra were given compatibility of compound and XRD diffractograms confirmed the amorphous nature. An study was showed the high permeability coefficient (6.67*1 0 cm/min, which is twice, compare to pure drug) and there was no damage in nasal mucosa, confirmed by the ciliotoxicity study. study was shown significant effects of optimised NLC-DOPA on locomotor activity, force-swimming test and neurochemical assessment using rotenone induced Parkinson's model on Albino Wistar rats.

CONCLUSION

NLC-DOPA was prepared and optimised successfully with increased bioavailability of drug from the NLC into brain with reduce toxicity in effective treatment of Parkinson's disease.

摘要

目的

本研究的目的是优化并评价载多巴胺的 NLC（NLC-DOPA），以实现多巴胺浓度进入大脑，用于治疗帕金森病，该疾病可导致进行性神经元死亡。

方法

采用均质法制备 NLC-DOPA，以固体脂质（胆固醇和大豆卵磷脂）、液体脂质（油酸）和表面活性剂（泊洛沙姆 188）为主要辅料，采用设计专家 13 软件的中心复合设计进行优化。优化后的配方通过粒径、Zeta 电位、包封效率、SEM、TEM、FTIR、DSC、XRD、稳定性研究和药物释放进行表征。进行了大鼠脑组织和山羊鼻组织的组织病理学检查。还进行了（通透性和鼻纤毛毒性研究）和药效学研究，以确定 NLC 的疗效和效力。

结果

NLC-DOPA 制剂的粒径和（EE）%得到优化，范围分别为 85.53±0.703 至 106.11±0.822nm 和 82.17±0.794 至 95.45±0.891%。优化后的配方 F11 显示出最佳拟合模型动力学，其次是 Korsmeyer-Peppas 方程和零级动力学。SEM 和 TEM 证实了制剂的球形和光滑形态。FTIR 和 DSC 图谱表明化合物具有相容性，XRD 衍射图证实了无定形性质。研究表明，优化后的 NLC-DOPA 具有较高的渗透系数（6.67*10cm/min，是纯药物的两倍），且鼻黏膜无损伤，鼻纤毛毒性研究证实了这一点。研究表明，优化后的 NLC-DOPA 对旋转酮诱导的帕金森病模型的 Albino Wistar 大鼠的运动活动、力游泳试验和神经化学评估具有显著作用。

结论

成功制备并优化了 NLC-DOPA，提高了药物从 NLC 进入大脑的生物利用度，同时降低了毒性，有效治疗帕金森病。

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设计并评价一种载盐酸多巴胺的纳米结构脂质载体用于经鼻递药治疗帕金森病。

Design and evaluations of a nanostructured lipid carrier loaded with dopamine hydrochloride for intranasal bypass drug delivery in Parkinson's disease.

机构信息

出版信息

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METHOD

RESULT

CONCLUSION

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方法

结果

结论

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