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用于肺部纳米医学的辛伐他汀DPPC/DPPG肺表面活性剂模拟纳米颗粒/微粒的干粉吸入气雾剂的设计与全面表征

Design and comprehensive characterization of dry powder inhalation aerosols of simvastatin DPPC/DPPG lung surfactant-mimic nanoparticles/microparticles for pulmonary nanomedicine.

作者信息

Encinas-Basurto David, Acosta Maria F, Eedara Basanth Babu, Fineman Jeffrey R, Black Stephen M, Mansour Heidi M

机构信息

Skaggs Pharmaceutical Sciences Center, College of Pharmacy, The University of Arizona AZ USA.

Biopolymers-CTAOA, Research Center for Food and Development (CIAD, A.C.) Hermosillo Mexico.

出版信息

RSC Adv. 2024 Sep 16;14(40):29413-29427. doi: 10.1039/d4ra04947k. eCollection 2024 Sep 12.

DOI:10.1039/d4ra04947k
PMID:39285876
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11404307/
Abstract

The Rho Kinase (ROCK) pathway is recognized to be involved in changes that lead to remodeling in pulmonary hypertension (PH), particularly cellular processes including signaling, contraction, migration, proliferation, differentiation, and apoptosis. Simvastatin (Sim) has a potent anti-proliferative and pro-apoptotic effect on vasculature smooth muscle cells through the inhibition of the synthesis of isoprenoids intermediates which are essential for the post-translational isoprenylation of Rho, Rac, and Ras family GTPases. Sim targets the underlying mechanism in vascular remodeling. Using bionanomaterials and particle engineering design, this innovative study reports on the advanced inhalable dry powders composed of sim with synthetic phospholipid bionanomaterials, DPPC/DPPG, as a lung surfactant-mimic. These were successfully designed and produced as co-spray dried (Co-SD) nanoparticles and microparticles for nanomedicine delivery as dry powder inhalers (DPIs). Different techniques were used to comprehensively characterize the physicochemical properties of the resulting Co-SD particles. The Next Generation ImpactorTM (NGI™) was used with three different FDA-approved human DPI devices with varying shear stress which were the HandiHaler®, Neohaler®, Aerolizer® DPI devices for aerosol dispersion performance. The formulation-device interactions were examined and correlated. Using human lung cells from different lung regions, cell viability and transepithelial electrical resistance (TEER) at the air-liquid interface showed biocompatibility of the formulations as a function of dose.

摘要

Rho激酶(ROCK)信号通路被认为参与了导致肺动脉高压(PH)重塑的变化过程,特别是包括信号传导、收缩、迁移、增殖、分化和凋亡在内的细胞过程。辛伐他汀(Sim)通过抑制类异戊二烯中间体的合成,对血管平滑肌细胞具有强大的抗增殖和促凋亡作用,而类异戊二烯中间体是Rho、Rac和Ras家族GTP酶翻译后异戊二烯化所必需的。Sim针对血管重塑的潜在机制。本创新性研究利用生物纳米材料和颗粒工程设计,报道了由辛伐他汀与合成磷脂生物纳米材料DPPC/DPPG组成的先进可吸入干粉,作为肺表面活性剂模拟物。这些干粉成功设计并制成共喷雾干燥(Co-SD)纳米颗粒和微粒,用于作为干粉吸入器(DPI)的纳米药物递送。采用不同技术全面表征所得Co-SD颗粒的物理化学性质。使用下一代撞击器(NGI™)与三种不同的经FDA批准的具有不同剪切应力的人用DPI装置,即HandiHaler®、Neohaler®、Aerolizer® DPI装置,来评估气溶胶分散性能。研究并关联了制剂与装置之间的相互作用。使用来自不同肺区域的人肺细胞,气液界面处的细胞活力和跨上皮电阻(TEER)显示制剂的生物相容性与剂量有关。

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