Objective To summarize the research progress of MRI in the assessment of rectal cancer before surgery. Methods Literatures about the recent studies on the research progress of MRI in the assessment of rectal cancer before surgery were reviewed according to the results searched from Pubmed, CNKI, and WanFang database. Results Preoperative staging, circumferential resection margin, and extramural vascular invasion were closely related to the prognosis of rectal cancer patients, MRI could provide a good assessment of preoperative staging, circumferential resection margin, and extramural vascular invasion for rectal cancer patients, but it still had some deficiencies which needed further studies. Conclusion Application of MRI in the assessment of preoperative staging, circumferential resection margin, and extramural vascular invasion before surgery, is conducive to the development of the most appropriate treatment options for patients with rectal cancer.
ObjectiveTo explore the variation tendency of hospital infection and the antibacterial usage between 2011 and 2012,analyze the factors for hospitalization infection,and instruct on taking effective intervention measures,in order to reduce the rate of hospital infection,and thus to provide a scientific basis for the prevention and control of hospital infection. MethodsAll patients hospitalized in our hospital from 00:00 to 24:00 between September 21,2011 and August 16,2012 were investigated.By using the method of combined clinical investigation and case study,we asked the patients to fill the case questionnaires standardly,and analyzed the hospital infection cases on the survey day. ResultsA total of 1165 hospitalized patients were investigated from the year 2011 to 2012,and the actual check rate was 100%.A total of 46 cases of hospital infection occurred in 39 patients.The prevalence rate of hospital infection was 3.88% in 2011 and 2.80% in 2012.High rate hospital infections occurred in the Department of Neurosurgery which was 27.27% and Cardiothoracic surgery which was 16.67% in 2011.In 2012,the departments included ICU which was 28.57% and Internal Cardiovascular Medicine which was 9.09%.The main infection sites were respiratory tract,followed by urinary tract and superficial incisions.The usage rates of antibiotics were 63.07% and 40.56% respectively in the two years.There were significant difference in antibiotic use rate between the two years (P<0.01). ConclusionThe focus of future work is to strengthen the management of respiratory tract,urinary tract and surgical site infections,and to use antimicrobial drugs reasonably,in order to reduce hospital infection effectively.
Lung cancer has a high morbidity and mortality, and invasion is one of the major factors that cause recurrence and death in lung cancer patients. Tumor-associated macrophages (TAMs) are cells that have the potential to secrete cytokines, growth hormones, inflammatory substrates, and protein hydrolases, which are associated with the growth, invasion and metastasis of tumors. In this article, we will explore the various chemicals that are manufactured to promote the invasion of lung cancer, as well as the numerous clinical therapeutic features that TAMs possess in the treatment of lung cancer. In addition, we look at the possibility that TAMs might be beneficial in the treatment of lung cancer. We have an innovative investigation of the huge variety of complex substances generated by TAMs, with the goal of determining whether or not the molecules under investigation have the potential to serve as new therapeutic targets. Throughout the whole of the presentation, a significant focus is placed on doing in-depth research to ascertain whether TAMs have the capability to reinforce as viable carriers for unique and creative medications. This not only provides novel concepts for the creation of new targeted therapies but also leads to the development of brand-new, cutting-edge methods for the manufacture of individualized medicines and drug carriers.
ObjectiveTo summary the application and effectiveness of the posterior radial collateral artery (PRCA) compound flap in reconstruction of soft tissue defect after tongue cancer excision. MethodsBetween August 2011 and October 2011, 5 patients with squamous cell carcinoma underwent tongue defects reconstruction with compound flap with extended lateral arm free flap (ELAFF) and triceps muscle flap (TMF) after ablation in one-stage. All patients were male with an average age of 59 years (range, 43-71 years). The disease duration was 25-60 days (mean, 42 days). After extended resection, 3 cases had 1/3 tongue and mouth floor defect, and 2 cases had 1/2 tongue and mouth floor defect. The size of ELAFF ranged from 7 cm × 5 cm to 9 cm × 5 cm, and the size of TMF ranged from 3 cm × 3 cm to 4 cm × 4 cm. The donor sites were directly sutured. ResultsAll compound flaps survived. The wounds at donor sites and recipient sites healed primarily. The patients were followed up 6 months. After operation, the tongue had good appearance and motion; the patients had clear voice and no dysphagia. No recurrence was observed during follow-up. Local numbness appeared at the donor sites, but the function of the elbows was normal. ConclusionThe application of the compound flap of ELAFF and TMF based on PRCA perforator is a better option to reconstruct tongue defects for its reliable blood supply, appropriate thickness, easy operative procedures, and less complication.
The objective of this study was to determine the visco-hyperelastic constitutive law of brain tissue under dynamic impacts. A method combined by finite element simulations and optimization algorithm was employed for the determination of material variables. Firstly, finite element simulations of brain tissue dynamic uniaxial tension, with a maximum stretch rate of 1.3 and strain rates of 30 s–1 and 90 s–1, were developed referring to experimental data. Then, fitting errors between the engineering stress-strain curves predicted by simulations and experimental average curves were assigned as objective functions, and the multi-objective genetic algorithm was employed for the optimation solution. The results demonstrate that the brain tissue finite element models assigned with the novel obtained visco-hyperelastic material law could predict the brain tissue’s dynamic mechanical characteristic well at different loading rates. Meanwhile, the novel material law could also be applied in the human head finite element models for the improvement of the biofidelity under dynamic impact loadings.