PURPOSE: KH902, a recombinant fusion protein, is designed for treatment of neovascular age-related macular degeneration. The study is to investigate the prevention efficacy of KH902 on experimental choroidal neovascularization (CNV) in a monkey model. MATERIALS AND METHODS: Binding assay and endothelial cell proliferation assay were used to evaluate activity and bioactivity of KH902 in vitro while an initial comparison of bioactivity was made between KH902 and Ranizumab (Lucentis). Ocular and systemic levels of KH902 were analyzed by enzyme-linked immunosorbent assay (ELISA) method after single intravitreal administration to evaluate its availability to ocular fundus. In vivo pharmacological study, CNV was induced by laser in monkeys and KH902 prevention efficacy on CNV was evaluated by incidence of CNV and several ophthalmic examinations. RESULTS: KH902 is a unique fusion protein with high affinity to VEGF and good availability to target tissue, beneficial to good bioactivity in vivo. In vivo pharmacological study, the incidence of CNV formation was largely reduced in KH902 treatment groups. Furthermore, the leakage of CNV in control group which crossed over to KH902 treatment 40 days after laser was much less than that before KH902 treatment. CONCLUSION: KH902 was effective to prevent the formation of experimental CNV and also to treat pre-existed CNV without evidence of toxicity. This study suggests that KH902 has promise as a local anti-angiogenic treatment of CNV-related diseases.
PURPOSE: KH902, a recombinant fusion protein, is designed for treatment of neovascular age-related macular degeneration. The study is to investigate the prevention efficacy of KH902 on experimental choroidal neovascularization (CNV) in a monkey model. MATERIALS AND METHODS: Binding assay and endothelial cell proliferation assay were used to evaluate activity and bioactivity of KH902 in vitro while an initial comparison of bioactivity was made between KH902 and Ranizumab (Lucentis). Ocular and systemic levels of KH902 were analyzed by enzyme-linked immunosorbent assay (ELISA) method after single intravitreal administration to evaluate its availability to ocular fundus. In vivo pharmacological study, CNV was induced by laser in monkeys and KH902 prevention efficacy on CNV was evaluated by incidence of CNV and several ophthalmic examinations. RESULTS: KH902 is a unique fusion protein with high affinity to VEGF and good availability to target tissue, beneficial to good bioactivity in vivo. In vivo pharmacological study, the incidence of CNV formation was largely reduced in KH902 treatment groups. Furthermore, the leakage of CNV in control group which crossed over to KH902 treatment 40 days after laser was much less than that before KH902 treatment. CONCLUSION: KH902 was effective to prevent the formation of experimental CNV and also to treat pre-existed CNV without evidence of toxicity. This study suggests that KH902 has promise as a local anti-angiogenic treatment of CNV-related diseases.
Authors: H M Leibowitz; D E Krueger; L R Maunder; R C Milton; M M Kini; H A Kahn; R J Nickerson; J Pool; T L Colton; J P Ganley; J I Loewenstein; T R Dawber Journal: Surv Ophthalmol Date: 1980 May-Jun Impact factor: 6.048
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Authors: Jocelyn Holash; Sam Davis; Nick Papadopoulos; Susan D Croll; Lillian Ho; Michelle Russell; Patricia Boland; Ray Leidich; Donna Hylton; Elena Burova; Ella Ioffe; Tammy Huang; Czeslaw Radziejewski; Kevin Bailey; James P Fandl; Tom Daly; Stanley J Wiegand; George D Yancopoulos; John S Rudge Journal: Proc Natl Acad Sci U S A Date: 2002-08-12 Impact factor: 11.205
Authors: David S Friedman; Benita J O'Colmain; Beatriz Muñoz; Sandra C Tomany; Cathy McCarty; Paulus T V M de Jong; Barbara Nemesure; Paul Mitchell; John Kempen Journal: Arch Ophthalmol Date: 2004-04
Authors: Neil M Bressler; Susan B Bressler; Nathan G Congdon; Frederick L Ferris; David S Friedman; Ronald Klein; Anne S Lindblad; Roy C Milton; Johanna M Seddon Journal: Arch Ophthalmol Date: 2003-11
Authors: Mohammad Ali Sadiq; Muhammad Sohail Halim; Muhammad Hassan; Neil Onghanseng; Irmak Karaca; Aniruddha Agarwal; Rubbia Afridi; Yasir J Sepah; Diana V Do; Quan Dong Nguyen Journal: Int J Retina Vitreous Date: 2020-07-08