Effective treatment of retinal neovascular leakage with fusogenic porous silicon nanoparticles delivering VEGF-siRNA.

Cavichini, Melina; Cheng, Lingyun; Fan, Ruhan; Freeman, William; Grondek, Joel; Heinke, Anna; Huffman, Kristyn; Lee, Ella; P Kalaw, Fritz; Sailor, Michael; Warter, Alexandra

Effective treatment of retinal neovascular leakage with fusogenic porous silicon nanoparticles delivering VEGF-siRNA.

Authors: Melina Cavichini
Lingyun Cheng
Ruhan Fan
William Freeman
Joel Grondek
Anna Heinke
Kristyn Huffman
Ella Lee
Fritz P Kalaw
Michael Sailor
Alexandra Warter
Publication date: 1 November 2022
Publisher: eScholarship, University of California

Abstract

Aim: To evaluate an intravitreally injected nanoparticle platform designed to deliver VEGF-A siRNA to inhibit retinal neovascular leakage as a new treatment for proliferative diabetic retinopathy and diabetic macular edema. Materials & methods: Fusogenic lipid-coated porous silicon nanoparticles loaded with VEGF-A siRNA, and pendant neovascular integrin-homing iRGD, were evaluated for efficacy by intravitreal injection in a rabbit model of retinal neovascularization. Results: For 12 weeks post-treatment, a reduction in vascular leakage was observed for treated diseased eyes versus control eyes (p = 0.0137), with a corresponding reduction in vitreous VEGF-A. Conclusion: Fusogenic lipid-coated porous silicon nanoparticles siRNA delivery provides persistent knockdown of VEGF-A and reduced leakage in a rabbit model of retinal neovascularization as a potential new intraocular therapeutic

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