Hematopoiesis and aging III: Anemia and a blunted erythropoietic response to hemorrhage in aged mice

Abstract

Whether the hematocrit normally declines in the aged or whether such a decline represents inapparent disease in addition to aging is a matter of dispute. Female B₆D₂f₁ mice were studied at ages 3, 13, or 27-28 months, and there was no difference in hematocrit between the younger groups. The hematocrit of 45 aged mice was slightly lower than that of 66 younger mice; mean 43 % vs 49% (p < 0.001). However, rather unexpectedly, the total red cell mass was not decreased in the aged; rather, the plasma volume was expanded. Survival of mature red blood cells did not differ significantly between young and aged mice. Mice were bled 0.4 ml from the orbital sinus for 4 days, reducing the hematocrit of all groups to a nadir of 20-25%. Recovery of hematocrit began more slowly in aged than in young mice. That this reflected a difference in erythropoiesis rather than a difference in plasma volume equilibration was suggested by studies with ⁵⁹Fe. ⁵⁹Fe was given following the second bleed, and 1 day later RBC ⁵⁹Fe was more than twice as high in young mice than in groups of aged mice. Aged mice that did not appear healthy had been excluded. Aged mice were divided into a group with significant amounts of gray hair and/or patches of hair loss and two groups with normal-appearing hair; the latter was subdivided into those weighing less (25-26 g) or more (30-34 g) than most aged mice. Neither hair condition nor weight influenced hematocrit or response to bleeding. These results suggest, but do not prove, that a mild “dilutional” anemia and a blunted erythropoietic response to hemorrhage may be an expected part of the murine aging process.