ABSTRACT
Objective To explore the diagnostic value of energy spectrum CT quantitative parameters combined with serum thy-roid stimulating hormone receptor-messenger ribonucleic acid(TSHR-mRNA)for papillary thyroid microcarcinoma(PTMC).Methods A total of 105 patients with thyroid micronodules confirmed by surgery and pathology were collected,61 of whom were PTMC(PTMC group),and 44 patients with micronodular goiter(MNG)(MNG group).Energy spectrum CT quantitative parameters and serum TSHR-mRNA expression were compared between the two groups.The diagnostic value of energy spectrum CT quantitative parame-ters alone and combined with serum TSHR-mRNA for PTMC was analyzed by receiver operating characteristic(ROC)curve.Results The iodine concentration and slope of energy spectrum CT quantitative parameters between PTMC group and MNG group were signifi-cantly different in plain scan,arterial and venous phases(P<0.05).The mean serum TSHR-mRNA expression in the PTMC group was higher than that in MNG group(P<0.05).The area under the curve(AUC)for diagnosing PTMC using quantitative parame-ters of energy spectrum CT combined with serum TSHR-mRNA was 0.913,and the accuracy,sensitivity,and negative predictive value of diagnosing PTMC were significantly higher than those of quantitative parameters of energy spectrum CT or serum TSHR-mRNA(P<0.05).Conclusion Both energy spectrum CT quantitative parameters and serum TSHR-mRNA can be used to diagnose PTMC alone,and the combination of both is more accurately.
ABSTRACT
Objective To investigate the diagnostic value of digital tomosynthesis in Schatzker classification of tibial plateau fractures.Methods A total of 43 patients with tibial plateau fractures who had underwent injured knee joints coronal tomosynthesis examinations and as well as digital radiography (DR) examinations including anteroposterior and lateral positions before the surgery were selected from January to June 2015.The imaging evaluation was performed by two diagnostic radiologists independently.Each radiologist consecutively performed Schatzker classification of the DR and tomosynthesis images of the knees of each patient.The consistent Schatzker classification results were finally given,while the inconsistent classification results were discussed.Recording the reading results of two methods and comparing the classification results of two methods with the subsequent intra-operative classification results,evaluating their consistency.Results Twenty-eight patients were included with 14 males and 14 females.The age ranged from 25 to 76 years old with an average of 48.5 years.Fifteen patients were excluded due to combined injuries and the low quality of imaging.Schatzker classification of tibial plateau fractures was performed with DR images,19 cases of fracture classification results were consistent with intra-operative classification,and 9 cases were inconsistent.Twenty-six cases of fracture classification results were consistent with intra-operative classification based on tomosynthesis images but 2 cases with inconsistent results.Intra-operative findings for each fracture were used as the gold standard for classification.The accuracy of the Schatzker classification for tibial plateau fractures were 68% and 93% in the two imaging techniques with significant difference (x2=5.143,P=0.016),respectively.The classification results of two imaging methods in 2 patients were both inconsistent with intra-operative classification.The fracture severity of 6 patients was underestimated when using DR images for interpretation,while 1 patient had a missed diagnosis of the lateral tibial plateau collapsed fracture.The consistency between the classification results of DR images as well as classification results of tomosynthesis images and intra-operative typing were moderately and highly consistent,respectively (Kappa coefficient were 0.604 and 0.908,respectively).Conclusion Schatzker classification of tibial plateau fractures was performed with DR images,the lateral tibial plateau collapsed fracture and the lateral plateau splitting fracture could be easily missed or misdiagnosed.However,tomosynthesis imaging could provide a higher accuracy.
ABSTRACT
As the complexity of samples and experimental processes, the repeatability of mass spectrometry experiments is still not satisfactory, the results of peptide identification and quantification show high randomicity), the probability of peptide being detected by mass spectrometry in proteome research, especially in quantitative proteomic study, has received much attention. Therefore, a lot of experimental researches have been done, as well as a number of computational prediction methods have been developed. In this article, we summarized the important factors impacting the peptide detectability, investigated the existing prediction methods) and reviewed their applications in experimental study.