Mutations in insulin/IGF-1 signaling pathway have been shown to lead to increased longevity in various invertebrate models. Therefore, the effect of the haplo-insufficiency of the IGF-1 receptor (Igf1r(+/-)) on longevity/aging was evaluated in C57Bl/6 mice using rigorous criteria where lifespan and end-of-life pathology were measured under optimal husbandry conditions using large sample sizes. Igf1r(+/-) mice exhibited reductions in IGF-1 receptor levels and the activation of Akt by IGF-1, with no compensatory increases in serum IGF-1 or tissue IGF-1 mRNA levels, indicating that the Igf1r(+/-) mice show reduced IGF-1 signaling. Aged male, but not female Igf1r(+/-) mice were glucose intolerant, and both genders developed insulin resistance as they aged. Female, but not male Igf1r(+/-) mice survived longer than wild type mice after lethal paraquat and diquat exposure, and female Igf1r(+/-) mice also exhibited less diquat-induced liver damage. However, no significant difference between the lifespans of the male Igf1r(+/-) and wild type mice was observed; and the mean lifespan of the Igf1r(+/-) females was increased only slightly (less than 5%) compared to wild type mice. A comprehensive pathological analysis showed no significant difference in end-of-life pathological lesions between the Igf1r(+/-) and wild type mice. These data show that the Igf1r(+/-) mouse is not a model of increased longevity and delayed aging as predicted by invertebrate models with mutations in the insulin/IGF-1 signaling pathway.