Oral squamous cell carcinoma detection by salivary biomarkers in a Serbian population

Early detection of oral squamous cell cancer (OSCC) is the key to improve the low 5-year survival rate. Using proteomic and genomic technologies we have previously discovered and validated salivary OSCC markers in American patients. The question arises whether these biomarkers are discriminatory in cohorts of different ethnic background. Six transcriptome (DUSP1, IL8, IL1B, OAZ1, SAT1, and S100P) and three proteome (IL1B, IL8, and M2BP) biomarkers were tested on 18 early and 17 late stage OSCC patients and 51 healthy controls with quantitative PCR and ELISA. Four transcriptome (IL8, IL1B, SAT1, and S100P) and all proteome biomarkers were significantly elevated (p lt 0.05) in OSCC patients. The combination of markers yielded an AUC of 0.86, 0.85 and 0.88 for OSCC total, T1-T2, and T3-T4, respectively. The sensitivity/specificity for OSCC total was 0.89/0.78, for T1-T2 0.67/0.96, and for T3-T4 0.82/0.84. In conclusion, seven of the nine salivary biomarkers (three proteins and four mRNAs) were validated and performed strongest in late stage cancer. Patient-based salivary diagnostics is a highly promising approach for OSCC detection. This study shows that previously discovered and validated salivary OSCC biomarkers are discriminatory and reproducible in a different ethnic cohort. These findings support the feasibility to implement multi-center, multi-ethnicity clinical trials towards the pivotal validation of salivary biomarkers for OSCC detection

Impact of the lower third molar and injury mechanism on the risk of mandibular angle and condylar fractures

BackgroundPrevious studies have shown the influence of the mandibular third molar on mandibular angle and condylar fractures, but have not comparatively analyzed the impact of the injury mechanism on these fractures. The purpose of this study was to evaluate the influence of the lower third molar (M3) and injury-related factors (fracture etiology and site of impact of the traumatic force) on the risk of mandibular angle and condylar fractures. Material and methodsThe study included 615 patients who sustained a mandibular fracture in a 13-year period (from January 2000 to December 2013). The independent variables were presence, position and the root number of the M3, fracture etiology, and site of impact of the force. The outcome variables were mandibular angle and condylar fractures. Other variables included in the study were patients' gender and age. The data were analyzed using the chi-square test. Univariate and multivariate binary logistic regression analyses were used to evaluate the relationship between angle and condylar fractures and to show potential determinants. ResultsAngle fractures were significantly influenced by the M3, site of impact, and age, but the main predictors were the eruption status and vertical position of the M3 (classified by Pell and Gregory) and site of impact of the force. Condylar fractures were significantly influenced by the M3 and site of impact of the force, but only the last showed as a predictor. ConclusionsFactors related to the M3 showed more significant influence on angle fractures than on condylar fractures