Age Related Macular Degeneration Clinical Trial
Official title:
Effect of Aflibercept on Human Corneal Endothelial Cells in Neovascular Age-Related Macular Degeneration: A Pilot Study
Aflibercept is the most recently developed VEGF inhibitor with a recombinant fusion protein
consisting of human VEGF receptor extracellular domains from receptors 1 and 2 (VEGFR1 and
VEGFR2) fused to the Fc domain of human IgG. Although both ranibizumab and bevacizumab have
been shown not to have harmful effects on corneal endothelium, the effect of intravitreal
aflibercept on human corneal endothelium has not been reported so far. Considering the
functional importance of the corneal endothelium, particularly in aged population, the
present study was designed to evaluate the in vivo toxicity of aflibercept on human corneal
endothelial cells in patients with neovascular AMD.
This study showed that intravitreal injection of clinically effective doses of aflibercept
for four times on average during the 6-month period do not induce any harmful effect on human
corneal endothelium evaluated by specular microscopy. Further prospective, large-scale,
prolonged studies are needed to confirm that intravitreal aflibercept can be used safely
without any corneal toxicity to treat neovascular AMD.
Intravitreal injections of vascular endothelial growth factor (VEGF) inhibitors have being
increasingly used in the treatment of neovascular age-related macular degeneration (AMD) in
ophthalmic practice.1-4 The most commonly used VEGF inhibitors are bevacizumab (Avastin®,
Genentech, San Francisco, California, USA), ranibizumab (Lucentis®, Genentech, San Francisco,
California, USA) and aflibercept (Eylea®, Regeneron Pharmaceuticals Inc., Tarrytown, New
York, USA) among which aflibercept and ranibizumab were approved by the Food and Drug
Administration (FDA) for this indication.
Aflibercept is the most recently developed VEGF inhibitor with a recombinant fusion protein
consisting of human VEGF receptor extracellular domains from receptors 1 and 2 (VEGFR1 and
VEGFR2) fused to the Fc domain of human IgG. This protein contains all human amino acid
sequences, which minimizes the potential for immunogenicity in patients. The prolonged
intravitreal half-life of aflibercept compared with ranibizumab can translate to a lower
treatment load in terms of injections, monitoring, and medical visits. Several in vitro
studies have shown that aflibercept, at the concentration usually used for treating retinal
disorders had no toxicity to the ocular cells. However, although both ranibizumab and
bevacizumab have been shown not to have harmful effects on corneal endothelium the effect of
intravitreal aflibercept on human corneal endothelium has not been reported so far.
Considering the functional importance of the corneal endothelium, particularly in aged
population, the present study was designed to evaluate the in vivo toxicity of aflibercept on
human corneal endothelial cells in patients with neovascular AMD.
Thirty-four eyes of 34 consecutive patients with neovascular AMD (19 male, 15 female; mean
age 66.4±3.4 years; age range 57-76 years) were recruited for this observational prospective
study. The study protocol was approved by the ethics committee and adhered to the tenets of
the Declaration of Helsinki. All participants signed the informed consent before any
study-related procedure.
All participants received one monthly intravitreal injection of aflibercept for three
consecutive months, and later treatments were applied as needed. The follow-up period was six
months.
The procedure for the intravitreal aflibercept injection was performed using standard aseptic
techniques. After providing local anesthesia with proparacaine hydrochloride eye drops
(Alcaine, Alcon Laboratories Inc, Fort Worth, Texas, USA), the eyelids and the inferior
conjunctival fornix were sterilized with 5% povidone iodine. Aflibercept (2.0 mg, 0.05 ml)
was injected through the pars plana (4 mm behind the limbus) using a 27-gauge needle.
Noncontact specular microscopy (Tomey EM-3000 Specular Microscope, Tomey Corp, Japan) was
performed on the central cornea before the first intravitreal aflibercept injection and 1, 3,
6 months after the injection. A blinded observer (S.D.) obtained the corneal endothelial
images. The specular microscope automatically evaluated the endothelial cell density (ECD),
the coefficient of variation of the cell size (CoV), an objective measure of polymegathism,
and the percentage of the hexagonal cells (Hex%), an index of pleomorphism. Specular
microscopy also provided optical pachymetry measurements. The acute toxic of aflibercept on
endothelium was evaluated by the the presence of corneal edema and anterior chamber reaction,
and intraocular pressure on the first day after the injection. The nontreated eyes served as
the control group.
Intravitreal injection of aflibercept did not have any negative effect in human corneal
endothelial cells.The signs of acute toxic effect of aflibercept on endothelium, which are
corneal edema, anterior chamber reaction, or high intraocular pressure, were not recorded in
any of the eyes on the first day after the injection.
Aflibercept is a recently approved anti-VEGF offering a new therapy for treatment of
neovascular AMD. It is a fusion protein of VEGF receptors 1 and 2. It has higher affinity to
VEGF compared with ranibizumab or bevacizumab which indicates longer duration of action for
aflibercept. In experimental and clinical trials, the efficacy of aflibercept in treatment of
AMD has been shown to be comparable to that of ranibizumab and bevacizumab. In studies
comparing aflibercept with bevacizumab or ranibizumab, aflibercept had fewer negative effects
on retinal cell lines such as change in cell morphology, apoptosis or permanent decrease in
cell viability, cell density or proliferation. Aflibercept has greater binding affinity for
VEGF than ranibizumab and bevacizumab and requires less-frequent intravitreal injection than
ranibizumab and bevacizumab. The vitreous half-life of aflibercept is shorter than
bevacizumab, but longer than ranibizumab. In retina pigment epithelium and retina cultures
prepared from pigs' eyes, aflibercept completely inhibited VEGF for six hours at a minimal
concentration, and displayed a prolonged VEGF inhibition compared to bevacizumab and
ranibizumab. However, this advantage of aflibercept raises concerns about possible side
effects of long-term usage.
The corneal endothelium is a barrier to fluid flow from the aqueous humor to the stroma. It
is responsible for maintaining corneal transparency by regulating stromal hydration. The
endothelial cell density decreases with age, and further damage to corneal endothelium by
disease, trauma or drugs, may lead to its loss of function, which cause corneal edema,
decreased corneal clarity, and loss of visual acuity. Therefore, keeping corneal endothelium
healthy has a vital importance particularly for aged patients. Intravitreal injection causes
significant concentration of VEGF inhibitors get into contact with human corneal endothelial
cells. Previous studies indicated that VEGF and its receptors are expressed in the corneal
endothelium and epithelium, and VEGF inhibitors can be detected in aqueous humour after
intravitreal injection, both of which showing that VEGF inhibitors have potential to be
cytotoxic to human corneal endothelial cells.The effect of the intravitreal injection of
ranibizumab or bevacizumab on corneal endothelium has been studied before. Perez-Rico et al.
reported that intravitreal injections of ranibizumab did not have significant effect on
endothelial cell density, CoV, and Hex% at seven days or six months after the injection. The
repeated intravitreal injections of ranibizumab over six months did not also cause
substantial changes in the corneal endothelium. Chiang et al. evaluated human corneal
thickness change and corneal endothelial cell density up to six months after intravitreal
injection of 2.5 mg bevacizumab and found that intravitreal bevacizumab has no harmful
effects on the corneal endothelium. In vitro studies also showed that bevacizumab is not
toxic to corneal cells of human origin. Furthermore, although intracameral injection of
ranibizumab caused deterioration in endothelial cell morphology in rabbit cornea,
intracameral injection of bevacizumab did not affect endothelial cell viability or morphology
in the rabbit or human cornea. Bevacizumab did not induce apoptosis or necrosis in human
corneal endothelial and fibroblast cells in vitro. In a recent study, it was reported that
monthly intravitreal bevacizumab or ranibizumab injections for three consecutive months does
not affect corneal morphology and has no harmful effects on the endothelium in patients with
diabetic macular edema. The findings of this present study also agree with these studies
showing that neither ranibizumab nor bevacizumab has negative effect on corneal endothelial
cells. The investigators found that the CCT, ECD, CoV, and Hex% did not change over six
months after intravitreal injection of aflibercept in either eyes. Furthermore, the CCT, ECD,
CoV, and Hex% did not show statistically significant difference between the eye treated with
intravitreal aflibercept and contralateral untreated eye before and during 6-month follow-up
after intravitreal injection.
The main limitation of the study was the limited sample size, which precludes us reaching a
definitive conclusion on the effect of intravitreal aflibercept on human corneal endothelium.
Nevertheless, this pilot study provides first evidence that intravitreal aflibercept
injections do not have negative effect on human corneal endothelium.
In conclusion, intravitreal injection of clinicaly effective doses of aflibercept for four
times on average during the 6-month period do not induce any harmful effect on human corneal
endothelium evaluated by specular microscopy. Further prospective, large-scale, prolonged
studies are needed to confirm that intravitreal aflibercept can be used safely without any
corneal toxicity to treat neovascular AMD.
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