The model of cecal ligation and puncture (CLP) in rodents has been used extensively to investigate the clinical settings of sepsis and septic shock. This model produces a hyperdynamic, hypermetabolic state that can lead to a hypodynamic, hypometabolic stage, and eventual death. Blood cultures are positive for enteric organisms very early after CLP. The model has been widely used over the past 26 years and is highly versatile in adapting to a range of severity and testing objectives. It is inexpensive to prepare and technically straightforward. Aspects of sepsis research investigated using CLP include energetics, metabolism, resuscitation, antibiotic therapy, microbial factors, cardiovascular responses, immune function, mediator release, and cytokine expression patterns. The challenge of the small circulating blood volume in rodents can be overcome by using micromethods that enable analysis of small volumes, or alternatively, by using a large number of animals to obtain serial samples.
These results support the concept that the immune response of females differs from males, and that females are immunologically better positioned to meet the challenge of sepsis.
Because of its central role in metabolism and host defense mechanisms, the liver is thought to be a major organ responsible for the initiation of multiple organ failure during sepsis. It is, therefore, important to discuss whether hepatocellular dysfunction occurs during early sepsis and, if so, whether this occurs prior to hepatocellular damage as evidenced by elevation in serum enzyme levels. Because indocyanine green clearance has been demonstrated to be an early and extremely sensitive measure of active hepatocyte transport function, a technique for repeated measurement of hepatocellular function by in vivo indocyanine green clearance was developed in small animals, such as the rat. Studies have indicated that hepatocellular function is markedly depressed during early stages of polymicrobial sepsis despite the increased cardiac output and hepatic blood flow and decreased peripheral vascular resistance. The depression in hepatocellular function in early, hyperdynamic stages of sepsis does not appear to be due to any reduction in hepatic profusion but is associated with elevated levels of circulating proinflammatory cytokines such as tumor necrosis factor (TNF) and interleukin (IL)-6. Furthermore, administration of recombinant murine TNF-alpha at a dose that does not reduce cardiac output and hepatic perfusion produces hepatocellular dysfunction and increases plasma levels of IL-6. Thus upregulation of TNF and/or IL-6 may be responsible for producing hepatocellular dysfunction during early, hyperdynamic stages of sepsis.
ObjectiveTo determine whether female sex steroids have any salutary effects on the depressed cardiovascular and hepatocellular functions following trauma and hemorrhage in male animals.
Summary Background DataStudies indicate that gender difference exists in the immune and cardiovascular responses to trauma-hemorrhage, and that male sex steroids appear to be responsible for producing immune and organ dysfunction, but it remains unknown if female sex steroids produce any salutary effects on the depressed cellular and organ functions in males following trauma and hemorrhage.
MethodAdult male Sprague-Dawley rats underwent a midline laparotomy (i.e., trauma induction), and were bled to and maintained at a mean arterial pressure of 40 mmHg until 40% of the maximum bleed-out volume was returned in the form of Ringer's lactate (RL). Animals were then resuscitated with RL at 4 times the shed blood over 60 minutes. 17-Estradiol (50 g/kg) or an equal volume of vehicle was injected subcutaneously 15 minutes before the end of resuscitation. The maximal rate of ventricular pressure increase or decrease (ϮdP/dt max ), cardiac output, and hepatocellular function (i.e., maximal velocity and overall efficiency of in vivo indocyanine green clearance) were assessed at 24 hours after hemorrhage and resuscitation. Plasma levels of interleukin (IL)-6 were also measured.
ResultsLeft ventricular performance, cardiac output, and hepatocellular function decreased significantly at 24 hours after traumahemorrhage and resuscitation. Plasma levels of IL-6 were elevated. Administration of 17-estradiol significantly improved cardiac performance, cardiac output, and hepatocellular function, and attenuated the increase in plasma IL-6 levels.
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