Articles: splanchnic-circulation-physiology.
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Am. J. Gastroenterol. · Sep 1996
ReviewSplanchnic ischemia and gut mucosal injury in sepsis and the multiple organ dysfunction syndrome.
The incidence of multiple organ failure syndrome (MOFS) has increased dramatically in most intensive care units (ICU) in the United States and is now the leading cause of death after sepsis, trauma, and burns (1). Despite advances in resuscitation, availability of potent antibiotics, and modern techniques of organ support (2), the survival of critically ill patients with MOFS has not significantly improved since the syndrome was first described over 2 decades ago (3). In the ICU, the monitoring and management of critically ill patients with MOFS has relied, in large part, on readily available measurements of global hemodynamics and oxygen transport. ⋯ The role of gastric tonometry in the monitoring of splanchnic oxygenation and its utility in critically ill patients is then analyzed. In addition, the effects and clinical implications of commonly used vasoactive agents on intestinal oxygenation are discussed. Finally, novel therapeutic strategies based on the "gut-origin hypothesis" of MOFS are reviewed.
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Journal of critical care · Sep 1994
ReviewSplanchnic tonometry: a review of physiology, methodology, and clinical applications.
The objective of this article is to review splanchnic tonometry. The English literature, involving both animal and human studies, was used for review, with emphasis on papers on physiological and methodological principles and clinical applications. Tonometry involves the measurement of intraluminal PCO2 as a measure of mucosal PCO2 in the gastrointestinal tract via a catheter in, for instance, stomach or sigmoid colon, and the calculation, with help of the blood bicarbonate content and the Henderson-Hasselbalch equation, of the mucosal pH (pHi). ⋯ Tonometry may be a useful monitoring technique to guide treatment and to improve survival. Splanchnic tonometry is a relatively simple, noninvasive, and thereby promising technique to monitor the critically ill. However, some aspects need further evaluation before the technique can be advocated for routine use.
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To provide an overview of the splanchnic hemodynamic response to circulatory shock. ⋯ While angiotensin II has been viewed primarily as the mediator responsible for the increased total vascular resistance seen during (and after) cardiopulmonary bypass, it may also cause the disproportionate decrease in mesenteric perfusion, as measured in human subjects by intraluminal gastric tonometry and galactose clearance by the liver, as well as the consequent development of the multiple organ failure syndrome seen in 1% to 5% of patients after cardiac surgery.