Osteoporotic fractures are some of the major causes of morbidity and health care expenditure among the elderly. Identifying subjects at risk could be of major importance since several preventive treatments are now available. A large genetic component in the development of osteoporosis has been established. Previous studies concerning association of the common point mutation C677T in methylentetrahydrofolate reductase (MTHFR) and osteoporosis have revealed contradictory results. The aim of this study was to test the association between the MTHFR polymorphism, homocysteine, and fractures in a population-based sample of Danish twins aged 73+. In total, 689 subjects, with a mean age of 78 years, participated. Genotype and data of fractures are available from 687 subjects--144 with a previously diagnosed fracture. The genotype distribution is as follows: CC, CT, and TT genotypes, 317 (46.1%), 298 (43.3%), and 73 (10.6%), respectively. Using the proportional odds-ratio model adjusted for age, gender, and body mass Index, the odds-ratio of fracture was 1.5 per number of T alleles--meaning that fracture risk is 1.5 times higher in the CT group compared with the CC group and again 1.5 times higher in the TT group compared with the CT group. Homocysteine, smoking, and self-reported hormone use provided no significant contribution to fracture risk. Using biometrical modelling, the heritability of the liability to fractures was found to be approximately 0.10, when the effect of the MTHFR locus was included, and 0.07 when it was omitted. But both confidence intervals include zero and the estimates are therefore not significant. In conclusion, we here provide evidence for a significant impact of the MTHFR genotype on the occurrence of fractures in an elderly Danish population.