Vascular diseases and related complications still represent the main cause of death in diabetic patients. Neuropathy, nephropathy, retinopathy, and disturbed nutritive tissue perfusion may result from reduced capillary microcirculation. These disturbances are diabetes specific. Macroangiopathy does not differ structurally from atherosclerotic lesions of nondiabetic subjects, but leads to accelerated cerebral, coronary, and peripheral artery disease. Occurrence of life-terminating thrombotic events, which are superimposed on those vascular lesions are increased. Thus, morbidity and mortality of diabetics depend mainly on vascular complications. Normal blood flow is a prerequisite of adequate organ perfusion and results from vasomotion, plasma components, corpuscular blood elements, vascular architecture, and the undisturbed interaction of these components at the endothelial interface. Functional thromboresistance of the endothelial layer is reduced in the diabetic state. Increased intravascular thrombin generation, reduced fibrinolytic potential, and hyperactive platelets lead to a prethrombotic state. This thrombotic diathesis increases the permanent danger of acute flow interruption. Activated platelets operate by three mechanisms: (1) Microembolization of the capillaries; (2) local progression of preexisting vascular lesions by secretion of constrictive, mitogenic, and oxidative substances; (3) trigger of the prognosis-limiting arterial thrombotic event. We were able to show that the increased functional properties of diabetic platelets result from the primary release of larger platelets with enhanced thromboxane formation capacity and increased numbers of functional glycoprotein receptors GPIb and GPIIb/IIIa, which are synthesized in the megakaryocytes. The megakaryocyte-platelet system is turned on in diabetes mellitus. It could be demonstrated with the Duesseldorf III method of flow cytometric activation marker testing (CD62, CD63, thrombospondin) that predominantly large platelets circulate in an activated state in diabetes mellitus. From these considerations, antiplatelet therapy may be regarded as a useful adjunct to metabolic therapy
