After occlusion of the renal veins rats die quickly in progressive shock (within 4.5 h), but after ligating the renal hilum of both Kidneys they survive 27 h. To learn why renal vein occlusion is so rapidly lethal, and what substances are given off and by what method from the hemorrhagically infarcted kidneys, we studied eight groups of rats, each containing at least seven animals. The groups differed in the combination of hilar structures (renal veins, ureters, lymphatics) ligated. We compared: survival times, changes in blood pressure, blood volume, levels of plasma kinins, adenosine, and lactate, changes of blood pH, responses to Indomethacin, Trasylol®, and plasma expanders, tubular and capillary flow rates, histopathological changes in organs and cerebral blood flow and changes in the blood coagulation system. Our results suggest that the venous stasis, anoxia, and hemorrhagic necrosis caused by bilateral venous occlusion release into renal lymphatics toxic substances which reach the systemic circulation and induce irreversible shock. We have excluded prostaglandins and adenosine as the toxic substances inducing shock but could not rule out an action of the kallikrein-kinin-system. We postulate that the striking degenerative changes occurring in the arterioles of the brain after bilateral venous occlusion may mean these vessels are especially susceptible to high levels of lactic acid and that this may explain why these animals die so quickly. Our conclusions should help not only in understanding why high levels of lactate in shock portend a poor prognosis but also help in formulating appropriate therapy for circulatory failure of renal origin and for protracted hypotension after extensive tissue injury. © 1979 Springer-Verlag.
