Effects of calcitonin on animal and in vitro models of skeletal metabolism.

During the 40 years since its discovery, calcitonin (CT) has been regarded primarily as an inhibitor of bone resorption and its therapeutic applications have been based on this property. A significant body of literature also indicates additional anabolic effects in animal and in vitro models. In a variety of bone loss histomorphometric models in the rat, CT, especially the salmon species, prevents or retards bone loss. In other species, similar results have been obtained, except in the beagle given human CT, in which a recent study reported increased bone resorption and bone loss. Consonant with the histomorphometric effects in several different species, bone mass (density) measured by a variety of methods increases, reversing the bone loss induced by the model. In related studies of mechanical properties, bone strength is increased by CT except in the beagle study which utilized human CT. In other species, experimentally induced fractures show either accelerated healing or heal normally, and there is no effect of CT to impair healing. Finally, studies of bone formation/mineralization strongly suggest an anabolic effect on cartilage formation, bone matrix synthetic activity, and bone growth. These animal effects are reflected by recent fracture prevention studies in humans. If its anabolic effects are ultimately found to be separable and additive to CT's basic action to inhibit bone resorption, new approaches to osteoporosis prevention, and possibly other treatment situations such as cartilage regeneration, may evolve using novel CT-like molecules.