Intensive care medicine
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Intensive care medicine · Oct 1996
Randomized Controlled Trial Comparative Study Clinical Trial Retracted PublicationInfluence of different volume therapies on platelet function in the critically ill.
Both albumin and synthetic colloids such as hydroxyethyl starch (HES) solution are used to optimize hemodynamics in the critically ill. The influence of different long-term infusion regimes on platelet function was studied. ⋯ Alterations in hemostasis may occur for several reasons in the critically ill. Human albumin is the preferred first-line volume therapy in patients at risk for coagulation disorders. With respect to platelet function, volume replacement with (lower-priced) low-molecular-weight HES solutions can be recommended in this situation without any risk.
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Intensive care medicine · Jul 1996
Randomized Controlled Trial Clinical Trial Retracted PublicationDoes long-term continuous administration of pentoxifylline affect platelet function in the critically ill patient?
The methylxanthine derivative pentoxifylline (PTX) is one of those promising substances which are under current investigation to modify or limit inflammatory response. Anti-aggregation activity has also been described that may contribute to the beneficial effects of this substance. Long-term effects on platelet function have not been elucidated yet. ⋯ Continuous infusion of PTX for 5 days did not impair platelet function in critically ill patients. In both trauma and sepsis patients, the usual deterioration in platelet function was even attenuated, which may be due to the effects of PTX on cytokine release (e.g., reduction in tumor necrosis factor and interleukin-1), improvement in microcirculation, or additional fibrinolytic effects.
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Intensive care medicine · Apr 1996
Randomized Controlled Trial Comparative Study Clinical Trial Retracted PublicationThe effects of pentoxifylline on circulating adhesion molecules in critically ill patients with acute renal failure treated by continuous veno-venous hemofiltration.
Circulating adhesion molecules appear to be excellent markers of endothelial activation in critically ill patients. Pentoxifylline (PTX) may limit sequelae of inflammation and subsequent endothelial activation by various mechanisms. The influence of PTX on the plasma levels of soluble adhesion molecules in critically ill patients undergoing continuous veno-venous hemofiltration (CVVH) was studied. ⋯ Leukocyte/endothelial interactions play an important role in the inflammatory process. Circulating adhesion molecules may serve as markers of the extent of inflammation. Continuous i.v. administration of PTX was successful in blunting the increase of soluble adhesion molecules in critically ill patients undergoing CVVH. Whether these effects result from improved circulation at the microcirculatory level or from (direct or indirect) beneficial effects on endothelial cells warrants further controlled studies.
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Intensive care medicine · Feb 1996
Comparative Study Retracted PublicationCirculating adhesion molecules in the critically ill: a comparison between trauma and sepsis patients.
The time course of circulating adhesion molecules was monitored in traumatized and sepsis patients. ⋯ Endothelial damage may result in multiple-organ dysfunction syndrome. Adhesion molecules are considered to be a cornerstone in this process. Trauma patients showed lower plasma levels of circulating adhesion molecules than did sepsis patients indicating more pronounced (inflammatory related) endothelial activation or damage in sepsis. Therapeutic modulation of circulating adhesion molecules may be of benefit to the patients outcome and therefore warrants further study.
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Changes of endothelial-related coagulation was studied in intensive care patients. ⋯ Besides plasmatic and platelet-related coagulation, endothelium-associated coagulation appears to be also important for maintenance of hemostasis. TM plasma concentrations were elevated in all our critically ill patients, particularly when sepsis was evident. This appears to be most likely due to endothelial membrane damage with increased release of membrane-bound TM into the circulating blood in these patients. The importance of the elevated plasma levels of circulating soluble TM on hemostasis in these patients is an ongoing debate and warrants further studies.