Quantifying Effects of Lifestyle Changes on Progression to Advanced Age-Related Macular Degeneration in High Genetic Risk Individuals
Listed in
This article is not in any list yet, why not save it to one of your lists.Abstract
Purpose
We examined the extent to which adopting healthy lifestyle behaviors could offset high genetic risk for progression to advanced age-related macular degeneration (AMD), to address concerns of family members of affected patients.
Design
Prospective longitudinal study
Participants
Eyes with early or intermediate AMD at baseline were defined based on the Age-Related Eye Disease Study severity scale. High genetic risk was defined as the third tertile of a genetic risk score for progression, adjusted for age, race and sex.
Methods
Information on lifestyle behaviors was obtained from baseline risk and food frequency questionnaires. Risk-inducing and health-promoting lifestyle profiles were defined based on dichotomous categorizations of smoking, body-mass index (BMI), and dietary caloric intake, green leafy vegetables and fish, in never and ever smokers. Cox proportional hazard ratios (HRs), relative risks (RRs) and population attributable risks (PARs) were calculated, adjusting for inter-eye correlation, demographic factors, macular status and family history.
Main Outcome Measures
Progression to advanced AMD (AAMD) and subtypes geographic atrophy (GA) and neovascular (NV), confirmed at 2 consecutive visits over 5 years of follow-up.
Results
Among 898 high genetic risk eyes, 207 eyes progressed to AAMD (23%). Among never smokers, a high risk-inducing lifestyle profile conferred a 3-fold increased incidence of AAMD, compared to an ideal health-promoting lifestyle profile [HR = 3.3 (CI 1.8, 6.4), P <0.001]. In ever smokers, a risk-inducing profile was independently associated with a 5-fold increased incidence of AAMD [HR = 5.3 (CI 2.3,11.9), P <0.001]. Stronger effects of these lifestyle behaviors were seen for GA compared to NV. Estimated PARs suggested adopting an ideal health-promoting profile could prevent 56% of incident AAMD in never smokers and 60% in ever smokers.
Conclusion
Unhealthy behaviors increased incidence of AAMD by 3 to 5-fold among a highly genetically susceptible population, and 56-60% of AAMD incidence was attributed to the modifiable factors of smoking, high BMI, high caloric intake and low intake of foods rich in lutein-zeaxanthin and omega-3 fatty acids. These results underscore the importance of lifestyle interventions even in high genetic risk populations, such as relatives of affected patients, to reduce progression from early and intermediate AMD to advanced vision-threatening stages.
