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  • Title: Induction of tissue injury and altered cardiovascular performance by platelet-activating factor: relevance to multiple systems organ failure.
    Author: Lefer AM.
    Journal: Crit Care Clin; 1989 Apr; 5(2):331-52. PubMed ID: 2650821.
    Abstract:
    PAF is a phospholipid formed from the action of phospholipase A2 upon cellular membranes in response to immunologic or hypoxic stimuli. PAF does not exist in its active form as a storage product within cells, but is synthesized rapidly after phospholipase A2 activation. A potent lipid released by multiple cell types in mammalian systems, the emerging perspective is that PAF is a major endogenous mediator influencing the pathogenesis and outcome of ischemia and conditions of circulatory shock. These effects appear to be especially relevant to the syndrome of MSOF during critical illness. All of the major criteria for validation of a shock factor have been fulfilled for PAF. First, PAF has been measured in biological fluid of animals during shock states, although this is not an easy task since PAF is formed in minute amounts and is rapidly metabolized. Nevertheless, combinations of high pressure liquid chromatography (HPLC) and bioassay methods employing washed rabbit platelets have been successfully utilized in this regard. Second, synthetic PAF has been injected into cell suspensions, isolated tissues, and live animals, where it produces most of the effects attributed to endogenous PAF released by immunologic or hypoxic stimuli. These studies have shown that PAF exerts a variety of pathophysiologic actions, including (1) cardiodepression (that is, a negative inotropic effect), (2) reductions in systemic blood pressure, (3) leakage of fluid from the microvasculature, (4) bronchoconstriction, and (5) platelet aggregation. All of these actions of PAF can initiate or exacerbate shock and ischemic injury in multiple organ systems. Third, specific PAF receptor antagonists have been found to markedly attenuate the severity of endotoxic, anaphylactic, hemorrhagic, and traumatic shock, as well as acute myocardial ischemia. In all these conditions, a variety of PAF receptor antagonists (including PAF analogues and structurally dissimilar substances) have improved survival and have retarded pathophysiologic processes believed to be important in causing tissue injury. These processes include lysosomal membrane damage and proteolysis. Moreover PAF receptor antagonists attenuate the release of secondary toxic factors in shock, such as myocardial depressant factor. Thus, administration of specific PAF receptor antagonists early in the course of circulatory shock and organ ischemia may prove to be useful therapeutic agents in a variety of life-threatening disorders. In addition to having direct actions, PAF appears to function as a pivotal agent in a chain of mediators producing tissue injury. Recent evidence suggests that tumor necrosis factors (i.e., cachectin) stim
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