A zuranolone nanocrystal formulation enables solubility-independent in vivo study of pentylenetetrazol-induced seizures in a rat model

RSC Pharmaceutics Pub Date : 2024-02-05 DOI:10.1039/D3PM00043E

Stanislav Chvíla, Hana Kubová, Pavel Mareš, Eva Kudová and František Štěpánek

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Abstract

Neuroactive steroids are a promising class of substances with many potential therapeutic applications, but their preclinical evaluation is challenging due to very low aqueous solubility. A common practice is to “solubilise” such drugs using water-miscible solvents, but this approach has drawbacks: the drug can precipitate uncontrollably after injection, the solvent can artificially increase membrane permeability, and such formulations are not directly transferrable to humans. It would be beneficial to use the same physical form of the drug during preclinical and clinical studies. This work reports an approach based on an aqueous suspension of phospholipid-coated nanocrystals of zuranolone, chosen as a representative of poorly soluble neuroactive steroid drugs. The wet stirred media milling method was used for creating a nanosuspension with a mean particle size of d_1,0 = 114 ± 39 nm, colloidally stable in PBS over 24 months at a concentration up to 100 mg mL⁻¹. The applicability of the nanosuspension was demonstrated in a study of pentylenetetrazol-induced seizures in developing rats as a model of human generalized tonic–clonic seizures. The incidence and severity of seizures were assessed for the zuranolone nanosuspension and compared to an established dosage as a cyclodextrin complex. The incidence of generalized seizures with or without the tonic phase was found to be lower in P12 rats receiving zuranolone in doses of 0.5 and 1 mg kg⁻¹ in the nanocrystal formulation than in those receiving the cyclodextrin solution. In contrast, both formulations significantly decreased seizure severity in P25 rats at a dose of 1 mg kg⁻¹. Crucially, the nanocrystal formulation enabled the creation of a concentration series independent of the thermodynamic solubility of the drug. A constant volume appropriate to the body size of the young rats could therefore be injected during the in vivo study.

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一种唑拉诺酮纳米晶体制剂可在大鼠模型中对戊四唑诱导的癫痫发作进行不依赖溶解度的体内研究

神经活性类固醇是一类前景广阔的物质，具有许多潜在的治疗用途，但由于其水溶性极低，对其进行临床前评估极具挑战性。一种常见的做法是使用水溶性溶剂 "溶解 "这类药物，但这种方法也有缺点：注射后药物会出现无法控制的沉淀，溶剂会人为增加膜渗透性，而且这种制剂不能直接用于人体。在临床前和临床研究中使用相同物理形式的药物将是有益的。这项研究报告了一种基于磷脂包裹的莪术酮纳米晶体水悬浮液的方法，莪术酮被选为溶解性较差的神经活性类固醇药物的代表。采用湿法搅拌介质研磨法制备的纳米悬浮液平均粒径为 d1,0 = 114 ± 39 nm，在 PBS 中胶体稳定 24 个月，浓度高达 100 mg mL-1。在一项关于戊四唑诱发发育中大鼠癫痫发作的研究中证明了纳米悬浮液的适用性，该研究将戊四唑作为人类全身强直阵挛发作的模型。评估了唑来诺龙纳米悬浮剂的癫痫发作发生率和严重程度，并与环糊精复合物的既定剂量进行了比较。结果发现，与服用环糊精溶液的大鼠相比，服用 0.5 和 1 mg kg-1 剂量纳米晶体制剂的 P12 大鼠全身性癫痫发作的发生率较低，无论是否出现强直期。相比之下，在剂量为 1 毫克/千克时，两种制剂都能显著降低 P25 大鼠癫痫发作的严重程度。最重要的是，纳米晶体制剂能够建立一个独立于药物热力学溶解度的浓度系列。因此，在进行体内研究时，可以根据幼鼠的体型注射恒定体积的药物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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RSC Pharmaceutics

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