These results demonstrate that increased ProCT exacerbates mortality in experimental sepsis, whereas neutralization of ProCT increases survival. Thus, ProCT, in addition to being an important marker of severity of systemic inflammation and mortality, is an integral part of the inflammatory process and directly affects the outcome.
High serum levels of the calcitonin (CT) prohormone, procalcitonin (pro-CT), and its component peptides occur in systemic inflammation and sepsis. Using two different assays, we undertook a prospective study to determine the utility of serum precalcitonin peptides (pre-CT) as markers in this condition. Twenty-nine patients meeting criteria for the systemic inflammatory response syndrome were studied daily in two intensive care units. Sera were collected, and APACHE II scores were determined until recovery or death. All patients had markedly elevated serum pre-CT. Prognostically, peak values were the most important. The highest values portended mortality, and a lower level could be ascertained below which all patients survived. Peak pre-CT levels were significantly higher in patients with infection documented by blood cultures than in those patients with no documented infection from any source (P < 0.05). Mature CT remained normal or only moderately elevated. Compared with the serum pre-CT levels, receiver operating characteristic curve analysis revealed that the APACHE II scores, although more cumbersome, were better overall predictors of mortality. Thus, pre-CT is an important serum marker for systemic inflammatory response syndrome and is predictive of outcome. It also provides data concerning the presence of severe infection and may prove to be clinically useful for proactive patient care.
Background: Increased serum levels of procalcitonin (ProCT) and its component peptides have been reported in humans with sepsis. Using a hamster model of bacterial peritonitis, we investigated whether serum ProCT levels are elevated and correlate with mortality and hypocalcemia.Results: Incremental increases in doses of bacteria resulted in proportional increases in 72 h mortality rates (0, 20, 70, and 100%) as well as increases in serum total immunoreactive calcitonin (iCT) levels at 12 h (250, 380, 1960, and 4020 pg/ml, respectively, vs control levels of 21 pg/ml). Gel filtration studies revealed that ProCT was the predominant (>90%) molecular form of serum iCT secreted. In the metabolic experiments, total iCT peaked at 12 h concurrent with the maximal decrease in serum calcium.
Conclusions:In this animal model, hyper-procalcitoninemia was an early systemic marker of sepsis which correlated closely with mortality and had an inverse correlation with serum calcium levels.
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