Dietary, environmental, and genetic risk factors of Extensive Macular Atrophy with Pseudodrusen, a severe bilateral macular atrophy of middle-aged patients

Aymeric Douillard,Christian Hamel,Cécile Delcourt,Saddek Mohand Saïd,Béatrice Bocquet,François Devin,Valérie Gissot,Catherine Creuzot‐Garcher ,Rocio Blanco Garavito,Eric H Souied ,Sabine Defoort‐Dhellemmes ,Sarah Perez-Roustit,Isabelle Drumare,Claude Baudoin ,Annie Lacroux,Vasiliki Kalatzis,Nour Al Dain Marzouka ,Carl Arndt,M Quaranta ,P Gastaud ,S Arsène ,Hassiba Oubraham,Benjamin Wolff,Bernard Puech,Thibault Mura,Olivia Zambrowski,Martine Mauget‐Faÿsse ,Xavier Zanlonghi,Dominique Deplanque,S Milazzo ,José‐Alain Sahel ,Isabelle Audo,Marie‐Christine Picot ,Salomon Y Cohen ,Elsa Jozefowicz,Isabelle Meunier

doi:10.1038/s41598-018-25003-9

Abstract

EMAP (Extensive Macular Atrophy with Pseudodrusen) is a maculopathy we recently described that shares pseudodrusen and geographic atrophy with Age-related Macular Disease (AMD). EMAP differs from AMD by an earlier age of onset (50-55 years) and a characteristic natural history comprising a night blindness followed by a severe visual loss. In a prospective case-control study, ten referral centers included 115 EMAP (70 women, 45 men) patients and 345 matched controls to appraise dietary, environmental, and genetic risk factors. The incidence of EMAP (mean 2.95/1.106) was lower in Provence-Côte d’Azur with a Mediterranean diet (1.9/1.106), and higher in regions with intensive farming or industrialized activities (5 to 20/1.106). EMAP patients reported toxic exposure during professional activities (OR 2.29). The frequencies of common AMD complement factor risk alleles were comparable in EMAP. By contrast, only one EMAP patient had a rare AMD variant. This study suggests that EMAP could be a neurodegenerative disorder caused by lifelong toxic exposure and that it is associated with a chronic inflammation and abnormal complement pathway regulation. This leads to diffuse subretinal deposits with rod dysfunction and cone apoptosis around the age of 50 with characteristic extensive macular atrophy and paving stones in the far peripheral retina.

Highlights

Pseudodrusen (PSD) and macular atrophy are encountered in age-related macular degeneration (AMD, Fig. 2), the most frequent macular disease occurring after the age of 60 years in high-incomes countries
In Extended Macular Atrophy with Pseudodrusen (EMAP), PSD are noted throughout the macular area and the whole peripheral retina, whereas in AMD, they are mainly restricted to the macular zone
AMD genetic factors were analyzed in a subset of EMAP patients and compared with a national dataset

Summary

Introduction

This study suggests that EMAP could be a neurodegenerative disorder caused by lifelong toxic exposure and that it is associated with a chronic inflammation and abnormal complement pathway regulation This leads to diffuse subretinal deposits with rod dysfunction and cone apoptosis around the age of 50 with characteristic extensive macular atrophy and paving stones in the far peripheral retina. Systemic AMD risk factors such as blood pressure, body mass index, high-density lipoprotein (HDL) and cholesterol, were not detected[9]. This first study excluded a role for medications with toxic retinal effects. We focus on dietary, environmental, and genetic risk factors associated with EMAP, as well as geographic distribution of cases

Methods

Results

Conclusion