Objective To explore the more secure and available methods in replacing traeheostomy tube.Methods Sixty patients with incision of trachea were divided into group A(29 eases)and group B (31 cases)randomly.The new method was used in group A with putting a catheter into the old tracheostomy tube before taking it out,and placing the new tracheostomy tube under the guide of catheter.While the traditional method was used in group B.The heart rate,SpO2,manipulation time,perioperative haemorrhage, and the condition of entering the false passage were recorded.Results The heart rate,SpO2 were no significant difference before and after manipulation in group A,but the heart rate increased and SpO2 decreased in group B(P<0.01 or<0.05).The manipulation time was(50.5±4.2) s in group A,and (84.9±5.3) s in group B(P<0.05).The perioperative haemorrhage >3 ml and the condition of entering the false passage in group A(2 Cases,o cage)were less than those in group B(15 cases.5 cases)(P<0.01 or<0.05).Conclusion The new method in replacing tracheostomy tube which use an input catheter is more security and more availability.

This paper is to provide a basis for the establishment of an early diagnostic system for hypoxic-ischemic encephalopathy (HIE) by performing segmentation and feature extraction of lesions on the MR images of neonatal babies with HIE. The segmentation on MR images of HIE based on the genetic algorithm (GA) combined with a pulse-coupled neural network (PCNN) were carried out. There were better segmentation results by using PCNN segmentation based on GA than PCNN segmentation with fixed parameters. The data suggested that a PCNN based on GA could provide effective assistance for diagnosis and research.
Algorithms ; Female ; Humans ; Hypoxia-Ischemia, Brain ; diagnosis ; physiopathology ; Image Processing, Computer-Assisted ; Infant, Newborn ; Magnetic Resonance Imaging ; methods ; Male ; Neural Networks (Computer)

Objective To investigate the diagnostic value of three-dimensional power Doppler ultrasound(3D-PDUS)in fetal growth restriction(FGR).Methods A total of 120 pregnant women in the third trimester who were given birth in Wenzhou People's Hospital from September 2021 to December 2023 were selected as study objects,50 pregnant women with FGR confirmed by clinical and ultrasound were included in case group,and 70 pregnant women with normal fetal development were included in control group.The renal volume and renal blood flow parameters of the fetuses in two groups were compared.The pregnancy outcomes and perinatal conditions of two groups were compared.Receiver operating characteristic(ROC)curve was plotted to calculate the area under the curve(AUC),and the diagnostic efficacy of various blood flow parameters for FGR was evaluated.Results The renal volume/gestational week,renal vascularization index,vascularization flow index and renal artery peak systolic velocity of the fetuses in case group were significantly lower than those in control group,while renal artery peak systolic velocity/end diastolic velocity,pulsation index and resistance index were significantly higher than those in control group(P＜0.05).There was no significant difference in renal flow index between two groups(P＞0.05).ROC curve results showed that the diagnostic efficacy of renal volume/gestational week and renal artery peak systolic velocity were higher,while the diagnostic efficacy of combined application was the highest,with an AUC of 0.89.The rate of low birth weight infants in case group was significantly higher than that in control group,and neonatal Apgar score was significantly lower than that in control group(P＜0.01).Conclusion 3D-PDUS quantitative analysis parameters evaluated renal volume and blood perfusion could predict FGR,which is conducive to early diagnosis of FGR and guide clinical intervention,and effectively reduce adverse pregnancy outcomes.

The dysregulation of transcription factors is widely associated with tumorigenesis. As the most well-defined transcription factor in multiple types of cancer, c-Myc can transform cells by transactivating various downstream genes. Given that there is no effective way to directly inhibit c-Myc, c-Myc targeting strategies hold great potential for cancer therapy. In this study, we found that WSB1, which has a highly positive correlation with c-Myc in 10 cancer cell lines and clinical samples, is a direct target gene of c-Myc, and can positively regulate c-Myc expression, which forms a feedforward circuit promoting cancer development. RNA sequencing results from Bel-7402 cells confirmed that WSB1 promoted c-Myc expression through the β-catenin pathway. Mechanistically, WSB1 affected β-catenin destruction complex-PPP2CA assembly and E3 ubiquitin ligase adaptor β-TRCP recruitment, which inhibited the ubiquitination of β-catenin and transactivated c-Myc. Of interest, the effect of WSB1 on c-Myc was independent of its E3 ligase activity. Moreover, overexpressing WSB1 in the Bel-7402 xenograft model could further strengthen the tumor-driven effect of c-Myc overexpression. Thus, our findings revealed a novel mechanism involved in tumorigenesis in which the WSB1/c-Myc feedforward circuit played an essential role, highlighting a potential c-Myc intervention strategy in cancer treatment.