用于骨关节炎无创治疗的新型自组装凝胶核透明质体：体外优化、离体及体内渗透

Novel Self-assembled, Gel-core Hyaluosomes for Non-invasive Management of Osteoarthritis: In-vitro Optimization, Ex-vivo and In-vivo Permeation.

作者信息

El-Refaie Wessam M, Elnaggar Yosra S R, El-Massik Magda A, Abdallah Ossama Y

机构信息

Department of Pharmaceutics, Faculty of Pharmacy and Drug Manufacturing, Pharos University in Alexandria, Alexandria, Egypt.

出版信息

Pharm Res. 2015 Sep;32(9):2901-11. doi: 10.1007/s11095-015-1672-8. Epub 2015 Mar 17.

DOI:10.1007/s11095-015-1672-8

PMID:25777613

Abstract

PURPOSE

Hyaluronic acid (HA) is an imperative biomaterial with desirable rheological properties to alleviate symptoms of osteoarthritis. Nevertheless, scantly percutaeous permeation of this macromolecule handicaps its effective use for orthopedics and triggers intra-articular injection as the only surrogate. This study presents novel self-assembeld HA-based gel core elastic nanovesicles, (hyaluosomes; GC-HS), for non-invasive transdermal delivery of HA.

METHODS

GC-HS were prepared with 1% HA using simple film hydration technique. Their size, zeta potential, percentage entrapment efficiency (% EE), elasticity, and ex-vivo transdermal permeation were evaluated compared to conventional liposomes CL. Structure elucidation of the formed novel system was performed using light, polarizing and transmission electron microscopy. In-vivo permeation of GC-HS through knee joints of female Sprague Dawley rats was compared to CL and HA alone.

RESULTS

GC-HS showed nanosize (232.8 ± 7.2), high negative zeta potential (-45.1 ± 8.3) and higher elasticity (size alteration 5.43%) compared to CL. This novel system has self-penetration enhancing properties compared to CL and plain gel. GC-HS showed self-assembled properties and high physically stable for at least 6 months at 4°C. Ex-vivo permeation of HS was significantly higher than CL and plain HA gel alone. In-vivo study exhibited significant six folds increase in transdermal permeation of HA to knee joints from GC-HS compared to plain HA gel.

CONCLUSION

Novel GC-HS are promising nanogels for topical management of osteoarthritis surrogating the need for intra-articular injection.

摘要

目的

透明质酸（HA）是一种具有理想流变学特性的重要生物材料，可缓解骨关节炎症状。然而，这种大分子经皮渗透极少，限制了其在骨科的有效应用，并导致关节内注射成为唯一替代方法。本研究提出了基于透明质酸的新型自组装凝胶核心弹性纳米囊泡（透明质体；GC-HS），用于透明质酸的非侵入性透皮递送。

方法

采用简单的薄膜水化技术，用1%的透明质酸制备GC-HS。与传统脂质体CL相比，评估了它们的大小、zeta电位、包封率（%EE）、弹性和离体透皮渗透率。使用光学显微镜、偏光显微镜和透射电子显微镜对形成的新型系统进行结构解析。将GC-HS通过雌性Sprague Dawley大鼠膝关节的体内渗透率与CL和单独的透明质酸进行比较。

结果

与CL相比，GC-HS呈现纳米尺寸（232.8±7.2）、高负zeta电位（-45.1±8.3）和更高的弹性（尺寸变化5.43%）。与CL和平板凝胶相比，这种新型系统具有自渗透增强特性。GC-HS表现出自组装特性，在4°C下至少6个月内具有高度物理稳定性。HS的离体渗透率明显高于CL和单独的普通透明质酸凝胶。体内研究表明，与普通透明质酸凝胶相比，GC-HS中透明质酸向膝关节的透皮渗透率显著增加了六倍。

结论

新型GC-HS是有前景的纳米凝胶，可替代关节内注射用于骨关节炎的局部治疗。

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用于骨关节炎无创治疗的新型自组装凝胶核透明质体：体外优化、离体及体内渗透

Novel Self-assembled, Gel-core Hyaluosomes for Non-invasive Management of Osteoarthritis: In-vitro Optimization, Ex-vivo and In-vivo Permeation.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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