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Robert J A H Eendebak, Ilpo T Huhtaniemi, Stephen R Pye, Tomas Ahern, Terence W O’Neill, György Bartfai, Felipe F Casanueva, Mario Maggi, Gianni Forti, Robert D Alston, Aleksander Giwercman, Thang S Han, Krzysztof Kula, Michael E J Lean, Margus Punab, Neil Pendleton, Brian G Keevil, Dirk Vanderschueren, Martin K Rutter, Gindo Tampubolon, Royston Goodacre, Frederick C W Wu, and for the EMAS Group


The androgen receptor (AR) gene exon 1 CAG repeat length has been proposed to be a determinant of between-individual variations in androgen action in target tissues, which might regulate phenotypic differences of human ageing. However, findings on its phenotypic effects are inconclusive.


To assess whether the AR CAG repeat length is associated with longitudinal changes in endpoints that are influenced by testosterone (T) levels in middle-aged and elderly European men.


Multinational European observational prospective cohort study.


A total of 1887 men (mean ± s.d. age: 63 ± 11 years; median follow up: 4.3 years) from centres of eight European countries comprised the analysis sample after exclusion of those with diagnosed diseases of the hypothalamic–pituitary–testicular (HPT) axis.

Main outcome measures

Longitudinal associations between the AR CAG repeat and changes in androgen-sensitive endpoints (ASEs) and medical conditions were assessed using regression analysis adjusting for age and centre. The AR CAG repeat length was treated as both a continuous and a categorical (6–20; 21–23; 24–39 repeats) predictor. Additional analysis investigated whether results were independent of baseline T or oestradiol (E2) levels.


The AR CAG repeat, when used as a continuous or a categorical predictor, was not associated with longitudinal changes in ASEs or medical conditions after adjustments. These results were independent of T and E2 levels.


Within a 4-year time frame, variations in the AR CAG repeat do not contribute to the rate of phenotypic ageing, over and above, which might be associated with the age-related decline in T levels.