Abstract
The incidence of non-Hodgkin's lymphoma (NHL) has increased substantially in many countries over recent decades. The aetiology of this cancer is poorly understood, and this rise is largely unexplained. The incidence of NHL is known to increase markedly following immune suppression. In the light of evidence that exposure to ultraviolet radiation (UVR) may cause systemic immune suppression, part of the recent increase in NHL incidence may reflect population-based increases in UVR exposure. That such exposure increases have occurred is inferred from the widespread increases in skin cancer incidence in fair-skinned populations, especially malignant melanoma (MM), over recent decades. Epidemiological evidence presented here in support of the proposed UVR-NHL relationship includes the following: in Caucasian populations there is a moderate positive correlation between ambient UVR level, by latitude, and NHL incidence; there is also a positive correlation between time trends in MM incidence and NHL; there is some evidence that migration across latitude gradients induces concordant shifts in risks of NHL and MM. Data from two historical cancer patient registers show that, in individuals, these two cancers concurred a little more often than expected. These findings support recent suggestions that UVR-induced impairment of immune functioning contributes to the aetiology of NHL.
Highlights
No more than half of the 150% increase in non-Hodgkin's lymphoma (NHL) incidence in the USA during 1950-85 can be explained by known or possible risk factors (Devesa and Fears, 1992)
Since latitude is a proxy indicator of actual ambient ultraviolet radiation (UVR) level, we converted latitude to estimated UV-B exposure, using data compiled by Diffey and Elwood (1994)
In case either MM or NHL were susceptible to detection bias in the follow-up of cancer patients, we examined both NHL and MM as second primary cancers in persons with colon cancer as the primary cancer
Summary
As an initial basic investigation, the cross-sectional relationship between latitude and cancer incidence rates was examined. The data for the registries are shown in ascending latitudinal rank in northern and southern hemispheres. In the northern hemisphere there is a small and uneven inverse latitudinal gradient for NHL in each sex. The gradient for MM in the northern hemisphere (including within the USA) is stronger than for NHL, it too is quite uneven. Depending on Australasian data, there is a discrepancy between the latitudinal gradients for the two cancers. The inverse gradient for MM is clearcut but none is apparent for NHL
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