Prior nonmelanoma skin cancer is associated with fewer fractures, more vitamin D sufficiency, greater bone mineral density and improved bone microarchitecture in older adults.

ABSTRACT

INTRODUCTION: Prior nonmelanoma skin cancer (NMSC), a biomarker of cumulative lifetime sun exposure, is associated with reduced fracture risk later in life. The mechanism is unknown. METHODS: Prospective cohort analysis of 1,099 community-dwelling adults aged 50-80 years with baseline and 10 year follow up assessments. Histopathologically-confirmed NMSC diagnosis was established by linkage with the Tasmanian Cancer Registry. Bone mineral density (BMD) and vertebral deformity were quantified by DXA, 25(OH)D by radioimmunoassay, bone microarchitecture by high resolution peripheral quantitative CT, melanin density by spectrophotometry and skin photosensitivity and clinical fracture by questionnaire. 25(OH)D <50 nmol/L was considered deficient. RESULTS: Participants with a NMSC reported prior to baseline were less likely to sustain an incident vertebral deformity over 10 years (RR=0.74, p=0.036). There were similar reductions for other fracture types but these did not reach significance. Prior NMSC was associated with baseline (RR=1.23, p=0.005) and 10 year longitudinal (RR=5.9, p=0.014) vitamin D sufficiency and greater total body BMD (ß=0.021g/cm2, p=0.034), but not falls risk or muscle strength. The relationship between prior NMSC and bone microarchitecture was age dependent (pinteraction<0.05). In the oldest age tertile, prior NMSC was associated with greater volumetric BMD (ß=57.8-62.6, p=0.002-0.01) and less porosity (ß= -4.6 - -5.2, p=0.002-0.009) at cortical, compact cortical and outer transitional zones. CONCLUSION: Prior NMSC was associated with fewer incident fractures in community-dwelling older adults. This protective association is most likely mediated by modifiable fracture risk factors associated with an outdoor lifestyle, including 25(OH)D, BMD and bone microarchitecture.