Feasibility of the preparation of cochleate suspensions from naturally derived phosphatidylserines.

IF 2.7 Q3 ENGINEERING, BIOMEDICAL Frontiers in medical technology Pub Date : 2023-09-06 eCollection Date: 2023-01-01 DOI:10.3389/fmedt.2023.1241368
Søren Kristensen, Khadeija Hassan, Nadia Skarnager Andersen, Frank Steiniger, Judith Kuntsche
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Abstract

Introduction: Cochleates are cylindrical particles composed of dehydrated phospholipid bilayers. They are typically prepared by addition of calcium ions to vesicles composed of negatively charged phospholipids such as phosphatidylserines (PS). Due to their high physical and chemical stability, they provide an interesting alternative over other lipid-based drug formulations for example to improve oral bioavailability or to obtain a parenteral sustained-release formulation.

Methods: In the present study, the feasibility to prepare cochleate suspensions from soy lecithin-derived phosphatidylserines (SPS) was investigated and compared to the "gold standard" dioleoyl-phosphatidylserine (DOPS) cochleates. The SPS lipids covered a large range of purities between 53 and >96% and computer-controlled mixing was evaluated for the preparation of the cochleate suspensions. Electron microscopic investigations were combined with small-angle x-ray diffraction (SAXD) and Laurdan generalized polarization (GP) analysis to characterize particle structure and lipid organization.

Results: Despite some differences in particle morphology, cochleate suspensions with similar internal lipid structure as DOPS cochleates could be prepared from SPS with high headgroup purity (≥96%). Suspensions prepared from SPS with lower purity still revealed a remarkably high degree of lipid dehydration and well-organized lamellar structure. However, the particle shape was less defined, and the typical cochleate cylinders could only be detected in suspensions prepared with higher amount of calcium ions. Finally, the study proves the feasibility to prepare suspensions of cochleates or cochleate-like particles directly from a calcium salt of soy-PS by dialysis.

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从天然来源的磷脂酰丝氨酸制备胭脂虫悬浮液的可行性。
简介:耳蜗是由脱水磷脂双层组成的圆柱形颗粒。它们通常是通过向由带负电荷的磷脂(如磷脂酰丝氨酸(PS))组成的囊泡中添加钙离子来制备的。由于它们具有高的物理和化学稳定性,与其他基于脂质的药物制剂相比,它们提供了一种有趣的替代品,例如提高口服生物利用度或获得胃肠外缓释制剂。方法:本研究以大豆卵磷脂衍生的磷脂酰丝氨酸(SPS)为原料制备胭脂虫悬浮液的可行性,并与“金标准”的二油酰磷脂酰基丝氨酸(DOPS)胭脂虫进行比较。SPS脂质的纯度范围很大,在53%和>96%之间,并且评估了计算机控制的混合用于制备胭脂虫悬浮液。电子显微镜研究结合小角度x射线衍射(SAXD)和Laurdan广义极化(GP)分析来表征颗粒结构和脂质组织。结果:尽管在颗粒形态上存在一些差异,但SPS可以制备出与DOPS耳蜗具有相似内部脂质结构的耳蜗悬浮液,且具有高的头基纯度(≥96%)。由较低纯度的SPS制备的悬浮液仍然显示出非常高的脂质脱水程度和良好的组织片状结构。然而,颗粒形状不太明确,典型的胭脂虫圆柱体只能在用较高量的钙离子制备的悬浮液中检测到。最后,该研究证明了通过透析直接从大豆PS的钙盐制备胭脂虫悬浮液或胭脂虫样颗粒的可行性。
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CiteScore
3.70
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0.00%
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审稿时长
13 weeks
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