Objective: To investigate the efficacy of low dose and short-term oral rifaximin in patients with small intestinal bacterial overgrowth (SIBO) related irritable bowel syndrome (IBS). Methods: From June 2017 to June 2018, at the Department of Gastroenterology of Huashan Hospital, Fudan University in Shanghai, a total of 37 patients with SIBO related IBS were sequentially enrolled and divided into three groups: diarrhea type, constipation type and mixed type. All the patients received rifaximin 200 mg each time, three times per day for 14 days. The clinical efficacy before and after treatment were compared by the scores of irritable bowel syndrome symptom severity scale (IBS-SSS) and irritable bowel syndrome associated quality of life (IBS-QoL). The efficacy of rifaximin on SIBO clearance and SIBO related chronic low-grade inflammation was evaluated by lactulose breath test (LBT) and exhaled nitric oxide (eNO). T test and variance analysis were used for statistical analysis. Results: Among 39 patients with SIBO related IBS, 24 patients were diarrhea type, seven were constipation type and six were mixed type. Except one patient quitted the study because of chest tightness and palpitation, the IBS-SSS score of the left 36 patients before treatment was (250.83±55.10), and decreased to (151.11±33.96), and the difference was statistically significant (t=13.686, P<0.01). Before treatment the score of IBS-QoL was (28.03±16.16), and decreased to (14.39±9.31) after treatment, and the difference was statistically significant (t=6.867, P<0.01). There was no significant difference in IBS-SSS and IBS-QoL scores among the diarrhea type, constipation type and mixed type groups (all P>0.05). After treated by rifaximin, the negative conversion rate of SIBO was 52.8%(19/36). The negative conversion rate of hydrogen LBT was 54.5%(12/22) and among 11 methane LBT positive patients, six cases turned negative; and one of three patients with both positive hydrogen LBT and methane LBT turned negative. The negative conversion rate of eNO was 41.7%(15/36). Conclusions Low dose and short term rifaximin treatment can improve the severity of clinical symptoms and quality of life in SIBO-related IBS patients, and the efficacy is not related with the subtypes of IBS.

Objective:To analyze the trend relevant factors leading to death and their patterns over a 10-year period in inpatients with connective tissue diseases (CTDs).Methods:All clinical data about death in inpatients with CTDs were retrospectively reviewed between 2005 and 2014 at the Department of Rheumatology and Immunology in Xiangya Hospital of Central South University.Results:In the 10-year time period,the overall hospital mortality was 15.689‰.The disease itself accounted for 44.71% of the total causes of death,infection accounted for 42.94%,and comorbidities accounted for 12.35%.The constituent ratio of deaths and the average hospital mortality caused by the disease itself declined gradually year by year,and the constituent ratio of deaths caused by infection and comorbidities increased gradually year by year (P<0.05).In 2013-2014,infection was the leading cause of death,which accounted for 51.06%.The survival time for CTDs inpatients with interstitial lung disease (ILD) was shorter than that of CTDs inpatients without ILD,and even the risk of death was 1.722 times of the latter.The proportion of deaths caused by the disease itself was the highest in systemic sclerosis and systemic lupus erythematosus,that by infection was the highest in idiopathic inflammatory myopathy (IIM),and that by comorbidities was the highest in rheumatoid arthritis.Conclusion:The proportion of deaths and the hospital mortality in CTDs inpatients caused by the disease itself show a declining trend,while the proportion of deaths caused by infection and comorbidities increase.CTDs patients with ILD have shorter survival time and an increase in risk of death.

Pectus excavatum is a common congenital chest wall deformities in children, presented with abnormal collapse of anterior chest wall. Thoracoscopic Nuss procedure is the present widely utilized clinical approach. Due to implanting a steel bar into the substernal area, operative organ injuries, postoperative pain, bar malposition, incomplete correction as well as risks of bar removal may occur. With the advancement of digital precision medicine and the interdisciplinary research of various disciplines and fields, there are more and more clinical applications and translations of these emerging applications represented by computational biomechanical simulations, three-dimensional printing and the latest absorbable biomaterial. They bring new opportunities and prospects for solving problems in the clinical treatment of PE as well as the improvement and development of patient-specific Nuss procedure planning.

Objective To investigate the effects of non-Newtonian properties on hemodynamic characteristics of Fontan procedure in computational simulation. Methods A Fontan vascular model was reconstructed based on patient-specific medical images. The boundary conditions were set according to velocity profiles measured by real-time echocardiography. The Newtonian model and two non-Newtonian (Casson and Carreau) models were applied to analyze the hemodynamic parameters, including flow ratio (FR), energy loss (EL), wall shear stress (WSS) as well as non-Newtonian importance factor, so as to compare flow differences between the Newtonian model and non-Newtonian models. Results The rheological models had small effects on the FR. The EL of non-Newtonian models was higher than that of the Newtonian model, and the EL of Casson model was the highest. Flow recirculation and flow disturbance accompanied with low WSS were observed in inferior vena cava (IVC). At low inflow velocity, flow disturbance in IVC of Newtonian model was more obvious. The calculations of non-Newtonian importance factor suggested significant non-Newtonian viscosity in IVC. Conclusions Non-Newtonian viscosity is significant in IVC where low velocity and flow recirculation are observed. Non-Newtonian properties of the blood should be considered in patient-specific hemodynamic simulation of Fontan procedure.

Objective To investigate the effects of banding width on hemodynamic characteristics of pulmonary artery (PA) by constructing pulmonary artery banding (PAB) models with different widths. Methods Based on clinical practice, with the same banding position and degree, computer-aided design (CAD) was utilized to reconstruct three-dimensional PAB models with different banding widths (2, 3, 4, 5 mm). Hemodynamic characteristics of the models with different banding widths, including pressure, streamlines, energy loss, energy efficiency and blood flow distribution ratio, were compared and analyzed through computational fluid dynamics (CFD). Results The pressure of PA decreased significantly, while the change of banding width had no significant effects on the pressure drop level at banding position. With the increase of banding width, the energy loss decreased, and the energy efficiency showed an upward trend. The blood flow of the left PA raised, and the ratio of blood flow distribution between the left PA and right PA increased, with the maximum reaching up to 2.28 : 1. Conclusions The increase of banding width can reduce the energy loss of PA and improve the energy efficiency of blood flow, but it will lead to the imbalance of blood flow distributions between the left and right lungs. Both the balance of blood flow distribution and the energy loss should be considered in choice for banding width of PAB. The virtual design of PAB surgery based on CAD and CFD will assist individualized banding width selection in future.