https://www.selleckchem.com/products/alpha-naphthoflavone.html S100B levels were significantly higher in TBI group compared with those with musculoskeletal injury only (median, 113.2 pg/mL vs 18 pg/mL; P = 0.021). Area under the receiver operating characteristic curve for S100B in predicting SBI was 0.675; the optimum threshold for S100B to achieve the optimum sensitivity and specificity of SBI was at 86.9 pg/mL for SBI versus no injury group. CONCLUSIONS S100B levels in saliva were higher in children with TBI and may be predictive of SBI identified by presence of computed tomography abnormalities. Larger studies are needed to replicate our findings in using a noninvasive diagnostic measure for children with TBI and SBI.OBJECTIVES Children with intestinal failure (IF) and fever are frequently bacteremic, but risk factors for development of sepsis in this population are not well delineated. Our objective was to determine what clinical factors available on arrival to the emergency department (ED), including commonly used vital sign thresholds, predicted the subsequent development of severe sepsis in children with IF and fever. STUDY DESIGN This was a retrospective cohort study of children younger than 21 years with IF presenting to a tertiary care ED between 2010 and 2016 with fever who did not have hypotensive septic shock on arrival. The primary outcome was development of severe sepsis within 24 hours of ED arrival, as defined by consensus criteria. We identified predictors of severe sepsis using both univariate and multivariate models and calculated the test characteristics of 3 different sets of vital sign criteria in determining risk of severe sepsis. RESULTS In 26 (9.4%) of 278 encounters, the patient developed severe sepsis within 24 hours of arrival to the ED; 3 were excluded due to hypotensive shock on arrival. Predictors of severe sepsis included history of intestinal pseudo-obstruction (odds ratio, 8.2; 95% confidence interval, 2.3-30.2) and higher initial