Objective To analyze the histological underestimation of stereotactic core needle biopsy (SNCB).and tO attract clinicians' attention.Methods SNCB was performed in 146 patients with 179 lesions from September 2000 to June 2005.and 21 lesions were underestimated histologically.0f 21 nonpalpable breast lesions(NPBL).6 lesions were diagnosed as BI-RADS nl,12 8S BI-RADS Ⅳ,3 as BI-RADS V according to BI-RADS before biopsy.Mammography showed 16 lesions with calicification, 2 cases with masses,1 case with asymmetry density and 2 cases with stellate sign.Results Eleven lesions diagnosed as fibrocystic disease with atypical ductal hyperplasia by biopsy were proved to be ductal carcinoma in situ (DCIS)in 7 lesions and early infiltration in 4 lesions by pathology.3 lesions diagnosed as severe atypical hyperplasia by biopsy were finally proved to be 1 carcinoma in situ and early infiltration in 2 lesions by pathology.3 lesions diagnosed as DCIS by biopsy were invasive carcinoma.4 lesions diagnosed papillary lesions by biopsy and finally were 1 carcinoma in situ,1 early infiltration,1 infiltrating ductal carcinoma and l intraductal papillary adenocarcinoma.Conclusion The histological underestimation of SCNB Was related to the stereotactic location technology,lesion and doctor'S understanding,the radiologist should master the biopsy skills.

Objective To analyze the status quo and influencing factors of extubation due to complications of totally implantable access port in patients with liver cancer undergoing chemotherapy,to establish a risk prediction model,and to conduct internal validation of the model.Methods This study was a prospective nested case-control study.The patients with liver cancer undergoing chemotherapy for maintenance of totally implantable access port in a tertiary hospital in Shaanxi from October 2021 to September 2023 were selected as the investigation subjects.Patients with extubation due to complications were selected as an extubation due to complications group,and patients with planned extubation were randomly selected as a planned extubation group according to the matching number of 1∶10.Univariate analysis and Logistic regression analysis were used to explore the influencing factors of extubation due to complications.A visual nomogram risk prediction model was established,and the model was internally verified by receiver operating characteristic(ROC)curve,calibration curve and Hosmer-Lemeshow fit test.Results The incidence of extubation due to complications of totally implantable access port in patients with liver cancer undergoing chemotherapy was 7.0％.Infection(36.7％)and thrombosis(30.0％)were the main causes of extubation due to complications.BMI,TNM staging,diabetes,the number of catheter lumens in the access port and the chemotherapy times were the main influencing factors of extubation due to complications(P＜0.05).The area under ROC curve of the prediction model was 0.871;the best cut-off value was 0.106;the sensitivity was 0.800;the specificity was 0.820.The average absolute error between the actual and predicted values of the calibration curve was 0.011,and the calibration curve was close to the ideal curve.The Hosmer-Lemeshow goodness of fit test was x2=2.913(P=0.940).Conclusion The incidence of extubation due to complications of totally implantable access port in patients with liver cancer undergoing chemotherapy is low,and infection and thrombosis are the main reasons.Patients with a BMI≥ 24,TNM stage Ⅲ or Ⅳ,diabetes,double catheter lumens in the access port,and chemotherapy times＞5 were at higher risk of extubation due to complications.The risk prediction model developed in this study demonstrates good predictive accuracy,and it can serve as a valuable tool for healthcare professionals in early identification of patients at risk for extubation due to complications.

Escherichia coli was metabolically engineered to produce poly(glycolate-co-lactate-co-3-hydroxybutyrate) using glucose and xylose as carbon sources. The combinatorial biosynthetic route was constructed by the overexpression of a series of enzymes including D-tagatose 3-epimerase, L-fuculokinase, L-fuculose-phosphate aldolase, aldehyde dehydrogenase, propionyl-CoA transferase, β-ketothiolase, acetoacetyl-CoA reductase, and polyhydroxyalkanoate synthase. Overexpression of polyhydroxyalkanoate granule associated protein significantly improved biopolymer synthesis, and the recombinant strain reached 3.73 g/L cell dry weight with 38.72% (W/W) biopolymer content. A co-culture engineering strategy was developed to produce biopolymer from a mixture of glucose and xylose, achieving 4.01 g/L cell dry weight containing 21.54% (W/W) biopolymer. The results of this work offer an approach for simultaneously utilizing glucose and xylose and indicate the potential for future biopolymer production from lignocellulosic biomass.
3-Hydroxybutyric Acid ; Escherichia coli ; Glucose ; Glycolates ; Lactates ; Metabolic Engineering ; Polyesters ; Xylose