Impact of Pregnancy on Papilledema and Vision Loss in Idiopathic Intracranial Hypertension Patients: A Chart Review and Case Series of 13 Patients.

BACKGROUND: Studies suggest that weight gain is a prominent risk factor for recurrence of papilledema in idiopathic intracranial hypertension (IIH). Given this information, the significant weight gain that occurs during pregnancy, and the fact that pharmacologic therapy is many times discontinued, raises concerns for worsening edema and vision loss. To examine the impact of pregnancy weight gain on IIH, a retrospective chart review of patients with IIH and pregnancy was performed. Compared with previous studies, we 1) quantified findings with optical coherence tomography (OCT) and Humphrey visual field (HVF) data, 2) Included baseline data before pregnancy, 3) determined excess pregnancy weight gain using body mass index-adjusted weight gain goals, and 4) correlated worsening in IIH symptoms with changes in papilledema. METHODS: Charts were reviewed for patients with diagnoses of IIH who had at least 2 visits with neuro-ophthalmology during pregnancy. Thirteen patients met inclusion criteria. Data were compared from baseline visits before pregnancy, pregnancy visits, and postpregnancy visits. RESULTS: Comparisons of HVF mean deviation (MD), OCT retinal nerve fiber layer (RNFL), and Max OCT RNFL during pregnancy were not significant compared with baseline ( P = 0.51, 0.41, and 0.25). Three patients were found to have increased papilledema during pregnancy (Max Avg OCT RNFL of 152.5, 129, and 123.5 µm) of which 2 developed new reproducible mild visual field defects (HVF ∆MD -1.78 and -4.49). All patients showed more than the 6% weight gain, typically observed in recurrent IIH. Eleven patients gained more than their weight from initial diagnosis. Eight patients had excess pregnancy weight gain. Six patients discontinued pharmacologic therapy for IIH. CONCLUSIONS: Weight gain seems to carry a lower risk in IIH patients when associated with pregnancy. This is suggested by the high rate of stable or even decreased disc edema in patients despite medication discontinuation and excess pregnancy weight gain. We postulate these findings may be related to changes in weight distribution or endocrine changes during pregnancy.

Inhibition of APE1/Ref-1 for Neovascular Eye Diseases: From Biology to Therapy.

Proliferative diabetic retinopathy (PDR), neovascular age-related macular degeneration (nvAMD), retinopathy of prematurity (ROP) and other eye diseases are characterized by retinal and/or choroidal neovascularization, ultimately causing vision loss in millions of people worldwide. nvAMD and PDR are associated with aging and the number of those affected is expected to increase as the global median age and life expectancy continue to rise. With this increase in prevalence, the development of novel, orally bioavailable therapies for neovascular eye diseases that target multiple pathways is critical, since current anti-vascular endothelial growth factor (VEGF) treatments, delivered by intravitreal injection, are accompanied with tachyphylaxis, a high treatment burden and risk of complications. One potential target is apurinic/apyrimidinic endonuclease 1/reduction-oxidation factor 1 (APE1/Ref-1). The multifunctional protein APE1/Ref-1 may be targeted via inhibitors of its redox-regulating transcription factor activation activity to modulate angiogenesis, inflammation, oxidative stress response and cell cycle in neovascular eye disease; these inhibitors also have neuroprotective effects in other tissues. An APE1/Ref-1 small molecule inhibitor is already in clinical trials for cancer, PDR and diabetic macular edema. Efforts to develop further inhibitors are underway. APE1/Ref-1 is a novel candidate for therapeutically targeting neovascular eye diseases and alleviating the burden associated with anti-VEGF intravitreal injections.

Retinal Phenotyping of Ferrochelatase Mutant Mice Reveals Protoporphyrin Accumulation and Reduced Neovascular Response.

Purpose: Heme depletion, through inhibition of ferrochelatase (FECH), blocks retinal and choroidal neovascularization. Both pharmacologic FECH inhibition and a partial loss-of-function Fech mutation (Fechm1Pas) are associated with decreased neovascularization. However, the ocular physiology of Fechm1Pas mice under basal conditions has not been characterized. Here, we aimed to characterize the retinal phenotype of Fechm1Pas mice. Methods: We monitored retinal vasculature at postnatal day 17, 2 months, and 6 months in Fechm1Pas homozygotes, heterozygotes, and their wild-type littermates. We characterized Fech substrate protoporphyrin (PPIX) fluorescence in the eye (excitation = 403 nm, emission = 628 nm), retinal function by electroretinogram, visual acuity by optomotor reflex, and retinal morphology by optical coherence tomography and histology. We stained vasculature using isolectin B4 and fluorescein angiography. We determined endothelial sprouting of retinal and choroidal tissue ex vivo and bioenergetics of retinal punches using a Seahorse flux analyzer. Results: Fundi, retinal vasculature, venous width, and arterial tortuosity showed no aberrations. However, VEGF-induced retinal and choroidal sprouting was decreased in Fechm1Pas mutants. Homozygous Fechm1Pas mice had pronounced buildup of PPIX in the posterior eye with no damage to visual function, bioenergetics, and integrity of retinal layers. Conclusions: Even with a buildup of PPIX in the retinal vessels in Fechm1Pas homozygotes, the vasculature remains normal. Notably, stimulus-induced ex vivo angiogenesis was decreased in Fechm1Pas mutants, consistent with reduced pathologic angiogenesis seen previously in neovascular animal models. Our findings indicate that Fechm1Pas mice are a useful model for studying the effects of heme deficiency on neovascularization due to Fech blockade.