载绿原酸乳小体和原乳小体:体外抗氧化和抗菌活性对伤口愈合的影响

Q3 Medicine Digital Chinese Medicine Pub Date : 2023-06-01 DOI:10.1016/j.dcmed.2023.07.007

Hemangi Ramesh Trivedi, Prashant Keshao Puranik

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引用次数: 0

摘要

目的开发和优化一种天然多酚绿原酸（CGA）的囊泡递送系统，以改善其理化性质和渗透性，从而增强其药理活性。方法采用薄膜水化和相分离凝聚的方法制备CGA niosomes（CGANs）和CGA proiosomes（CGAPNs），并对其粒径、形态、包封率、ζ电位、变形性、体外扩散性、离体渗透性和长期稳定性进行表征。通过体外抗氧化试验、抗菌试验和大鼠切除伤口愈合模型进一步评估了它们的有效性。结果优化的CGANs和CGAPNs显示出球形囊泡，粒径分别为490.1±43.0和280.0±22.0nm，多分散指数（PDI）值分别为0.526和0.173，稳定的ζ电位值分别为-29.3±6.4和-33.2±6.5mV。与普通CGA相比，CGANs和CGAPNs囊泡显示出更高的包封率（98.27%±0.46%和97.27%±0.25%）、良好的变形性（8.77±0.22和6.87±0.17）、更高的体外扩散率（97.96%±1.67%和91.00%±1.32%）和渗透系数值（67×10-3±1.72和52×10-3？.09），并具有长期稳定性。用CGAPNs>；CGAN。它们还对不同的革兰氏阳性和革兰氏阴性菌株表现出致命的杀菌活性，与普通CGA相比，最低抑制浓度（MIC）值较低（低8倍和16倍）。CGANPs（99.56%）>；CGAN（98.44%）与市售的（92.89%）和CGA（88.89%）水凝胶相比。结论这些结果显示了CGAN和CGAPNs在局部伤口愈合中的巨大应用潜力。这是CGA在羊膜体和前体局部给药系统中的首次研究。

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Chlorogenic acid loaded niosomes and proniosomes: in vitro antioxidant and antibacterial activities with efficacy in wound healing

Objective

To develop and optimize niosomal and proniosomal vesicular delivery systems for a naturally occurring polyphenol chlorogenic acid (CGA), so as to improve its physicochemical properties and permeability, which may enhance its pharmacological activity.

Methods

The formulated CGA niosomes (CGANs) and CGA proniosomes (CGAPNs) were primed by thin film hydration and phase separation coacervation methods, and were characterized with different attributes including particle size, morphology, entrapment efficiency, zeta potential, deformability, in vitro diffusion, ex vivo permeability, and long-term stability. Their efficiency was further evaluated with in vitro antioxidant assay, antibacterial assays, and excision wound healing model in rats.

Results

Optimized CGANs and CGAPNs showed spherical vesicles with particle size of 490.1 ± 43.0 and 280.0 ± 22.0 nm, polydispersity index (PDI) values of 0.526 and 0.173, and stable zeta potential values of - 29.3 ± 6.4 and - 33.2 ± 6.5 mV, respectively. The CGANs and CGAPNs vesicles showed higher entrapment (98.27% ± 0.46% & 97.27% ± 0.25%) with good deformability (8.77 ± 0.22 & 6.87 ± 0.17), higher in vitro diffusion (97.96% ± 1.67% & 91.00% ± 1.32%), and permeability coefficient values (67 × 10^-3 ± 1.72 & 52 × 10^-3 ± 1.09) with long-term stability in comparison with plain CGA. Enhanced 2-diphenyl-1-picrylhydrazyl (DPPH) radical scavenging and Fe^{2 +} chelation ability was obtained with CGAPNs > CGANs. They also demonstrated lethal bactericidal activity on different gram positive and gram negative strains with lower minimum inhibitory concentration (MIC) values (8 × and 16 × times less) as compared with plain CGA. Significant reduction (P < 0.05) in wound area with higher wound contraction percentages on day 9 was observed with CGANPs (99.56%) > CGANs (98.44%) in comparison with marketed (92.89%) and CGA (88.89%) hydrogel.

Conclusion

These results show great potential of CGANs and CGAPNs for topical wound healing application. This is the first study of CGA in niosomal and proniosomal topical delivery systems.

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