The geospatial relationship of pterygium and senile cataract with ambient solar ultraviolet in tropical Ecuador

Daniel R. Garźon-Chavez, Emmanuelle Quentin, Simone L. Harrison, Alfio V. Parisi, Harry J. Butler, Nathan J. Downs

Research output: Contribution to journalArticlepeer-review

11 Scopus citations

Abstract

Tropical Ecuador presents a unique climate in which we study the relationship between the ambient levels of solar ultraviolet radiation and eye disease in the absence of a latitudinal gradient. The national distribution of surface ultraviolet, taking into account MODIS and OMI satellite observation of aerosol, ozone, surface albedo, local elevation and cloud fractions measured during 2011, was compared with the national pterygium (WHO ICD H11) and senile cataract (WHO ICD H25) incidence projected from the 2010 National Institute of Statistics and Census (Ecuador). Public Health Ministry projections for age categories 0 to 39, 40 to 59 and 60+ years were compared to surface ultraviolet irradiance data in 1040 parishes. Correlations drawn between modelled surface ultraviolet and eye disease incidence show a significant increase in both pterygium and senile cataract in the highest ambient exposure regions of the Pacific coast and western lowlands with incidence rates of 34.39 and 16.17 per 100000 residents respectively. The lowest rates of incidence for pterygium (6.89 per 100000) and senile cataract (2.90 per 100000) were determined in high altitude sites and are attributed here to increased daily cloud fraction for parishes located in the Andean mountain range. The South American Andes experience the highest solar UV exposures on Earth and report frequent high incidence of keratinocyte cancer. Our results show the high Andes to be the location of the lowest eye disease incidence suggesting that both pterygium and senile cataract are the result of cumulative exposure to solar ultraviolet. These findings have clear implications for the agricultural workers and fishermen of the lowland districts of Ecuador, contrary to conventional understanding that greater risks are faced in locations of high altitude.

Original languageEnglish
Pages (from-to)1075-1083
Number of pages9
JournalPhotochemical and Photobiological Sciences
Volume17
Issue number8
DOIs
StatePublished - 2018

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