Insufficient dialysis is a difficult problem for patients undergoing hemodialysis, and causes cardiovascular complications and increases mortality. Increasing aerobic exercise and resistance exercise have been shown to be beneficial to physical fitness of patients undergoing hemodialysis, but a few studies have focused on combined exercise (combination of aerobic and resistance exercise training) and the interaction effect of combined exercise and intervention duration on hemodialysis efficiency. This study aimed to investigate the effects of 24-week combined exercise on hemodialysis efficiency, blood pressure, exercise capacity, and quality of life in patients undergoing hemodialysis.
Methods
In total, 47 eligible subjects were randomly allocated to exercise group and control group. The intervention group performed a 24-week, three times weekly, and moderate-intensity intradialytic combined exercise. Patients in the control group received usual care. The primary outcome was hemodialysis efficiency, which recorded every 4 weeks. Secondary outcomes included blood pressure, exercise capacity, and quality of life, measured at baseline and after 24 weeks of intervention.
Results
In intervention group, sp Kt/V significantly improved by 13.2%, and systolic blood pressure and diastolic blood pressure significantly decreased by 8.5 mmHg and 6.5 mmHg, respectively. The 6-min walking distance increased significantly by 43 m (9.8%), but there was no significant change in quality of life.
Conclusion
Combined exercise and intervention duration had an interaction effect on hemodialysis efficiency. Combined exercise improved blood pressure and physical fitness for patients undergoing hemodialysis, but did not affect quality of life. The extensive benefits of combined exercise provide evidence for the exercise development for patients undergoing hemodialysis.
The development of EGFR kinase inhibitors attracts much attention of research for treating of cancer in recent years. In this work, based on a dataset composed of 46 EGFR kinase inhibitors, the combination of three-dimensional quantitative structure–activity relationship (3D-QSAR), molecular docking was applied to reveal structural characteristics impacting the inhibitory activity of EGFR, and to provide a better understanding of the binding modes between inhibitors and EGFR kinase. 3D-QSAR models of pyrazoline derivatives were established to reveal how steric, electrostatic, hydrophobic, and H-bond acceptor interactions contribute to inhibitors’ bioactivities, which were unanimous in the docking results. Furthermore, based on the most active compound, several new molecules with high inhibitory activity were obtained. 相似文献
Both rotational acetabular osteotomy (RAO) and eccentric rotational acetabular osteotomy (ERAO) are effective procedures for young patients with developmental dysplasia of the hip. However, no comparative study of biomechanical changes has been reported following these two procedures. We therefore explored the stress changes on femoral head after RAO and ERAO under different load conditions.
Materials and methods
Twelve female cadaveric hips without deformity were divided into RAO group and ERAO group. Stress value on femoral head was measured preoperatively and postoperatively after the vertical force was loaded on the cadaveric spine from 0 to 500 N. Stress change value was then calculated base on the measurements.
Results
In the RAO group, preoperative stress increased when loading on spine became larger, but postoperative stress changed its increasing trend into decreasing when the load was greater than 200 N (turning point). Same phenomenon was found in the ERAO group (turning point was 300 N). However, the difference between preoperative and postoperative stress was not statistically significant in both RAO and ERAO groups. Stress change value from each procedure showed similar trends. With the load growth, stress change increased firstly and then decreased, but the difference between RAO and ERAO was not statistically significant.
Conclusions
Both RAO and ERAO could correct the abnormal biomechanical effect of dysplastic hip; moreover, they may have similar biomechanical effects on femoral head, obtaining the same clinical outcomes. Non-biomechanical factors (surgical trauma, technical complexity, etc.) also play important roles in procedure selection. 相似文献
Carbon fiber reinforced thermosetting polyimide (CF/TSPI) composites were interleaved with thermally stable thermoplastic polyimide (TPPI) fiber veils in order to improve the interlaminar fracture toughness without sacrificing the heat resistance. Both of the mode I and mode II interlaminar fracture toughness (GIC and GIIC) for the untoughened laminate and TPPI fiber veils interleaved laminates were characterized by the double cantilever beam (DCB) test and end notch flexure (ENF) test, respectively. It is found that the TPPI fiber veils interleaved laminates exhibit extremely increased fracture toughness than the untoughened one. Moreover, the areal density of TPPI greatly affected the fracture toughness of laminates. A maximum improvement up to 179% and 132% on GIC and GIIC is obtained for 15 gsm fiber veils interleaved laminate, which contributes to the existence of bicontinuous TPPI/TSPI structure in the interlayer according to the fractography analysis. The interlaminar fracture behavior at elevated temperatures for 15 gsm fiber veils interleaved laminate were also investigated. The results indicated that the introduction of thermally stable TPPI fiber veils could enhance the fracture toughness of CF/TSPI composites by exceeding 200% as compared to the untoughened one even as tested at 250 °C. 相似文献
The interaction mechanism between olaparib (OLA) and human serum albumin (HSA) has been investigated using experimental and computational techniques. An NMR relaxation approach based on the analysis of proton selective and non-selective spin–lattice relaxation rates at different temperatures can provide quantitative information about the affinity index and the thermodynamic equilibrium constant of the OLA–HSA system. The affinity index and the thermodynamic equilibrium constant decreased as temperature increased, indicating that the interactions between OLA and HSA could be weakened as temperature increased. Molecular docking and dynamics simulations revealed that OLA stably bound to subdomain II (site 1), and OLA could induce the conformational and micro-environmental changes in HSA. CD results suggested that α-helix content decreased after OLA was added, demonstrating that OLA affected the secondary structure of HSA.The interaction mechanism between olaparib (OLA) and human serum albumin (HSA) has been investigated using experimental and computational techniques.相似文献
