VASCULAR RESPONSE TO BONE INJURY: NOS-MEDIATED VASODILATION AND INCREASED BLOOD FLOW RATE FOLLOWING STRESS FRACTURE IN RATS

Summary StatementBone stress fracture triggers a rapid increase in blood flow in association with mast cell production of inducible nitric oxide synthase (iNOS). NOS inhibition blocks the increase in blood flow and reduces woven bone formation needed for stress fracture healing.IntroductionVascular-bone interactions are critical in skeletal development and fracture healing. We recently showed that angiogenesis is required for stress fracture healing. However, the changes in vascularity that occur in the first 72 hours after stress fracture can not be explained by angiogenesis. Here, we evaulated early changes in blood flow and vasodilation after either damaging (stress fracture) or non-damaging mechanical loading in rats.MethodsThe right forelimbs of adult rats were subjected to cyclic axial compression in vivo. We used two established protocols: damaging loading that creates a stress fracture and leads to woven bone formation (WBF loading), or non-damaging loading that stimulates lamellar bone formation ...