PO-005 The Dietary Nutrition Adjustment Continuous 16 Weeks and the Nutrition Supplement Plan after Weighing of Women's Wrestlers

Objective This study develops the nutrition supplement plan after weighing, and research how to supply nutrition in this important time on the basis of the dietary nutrition adjustment in pre-competition. Formulate the nutrition supplement plan for women’s wrestlers by quantized, and evaluate this plan. Methods To prepare for the key players of the 13th National Games, a 16-week daily dietary adjustment was conducted according to the results of a nutrition survey on the slow-fall-weight control phase before the competition. Routine dietary adjustment was proved by changes in body composition and improvement of anaerobic capacity. The plan was developed, that includes weighing meals, liquid nutritional supplements and inorganic salts solutions after weighing, on the basis of the regulation on nutrition. Results The balance between the total daily dietary intake and its ratio can make the athlete achieve the ideal effect of weight control in the normal training. Comparing the indicators before and after 16 weeks, it was found that after the athlete's diet was basically balanced and reasonable the body weight decreased significantly, the fat-free body weight remained unchanged, the body fat percentage decreased significantly, and the anaerobic capacity increased significantly. After weighing during the competition nutritional supplement plan can be executed, and the total body water, urine protein, urine specific gravity can be restored to normal levels developed, that includes weighing meals, liquid nutritional supplements and inorganic salts solutions after weighing, on the basis of the regulation on nutrition. Conclusions This study through the understanding of the basic nutritional status of athletes before the game, according to the conditions of each athlete to give the corresponding dietary guidance, and use 16 weeks to supervise the implementation. Athletes' dietary structure and nutrient intake change significantly, and then the nutrition achieves balanced and reasonable. To investigate the nutritional situation this time, that combined with the characteristics of energy supply and nutritional, which for wrestling athletes, worked out the nutritional supplement plan after weighing by quantitative data. This plan can be performed well; the effect of supplement is improved obviously; and on discomfort appeared during the game by the athletes who performed it. This study is a preliminary exploration of the nutritional supplement plan for athletes during the important recovery phase of the game. Follow-up research will involve more projects in order to promote this special period to other weight-level projects eventually

Polypropylene Blend with Polyphenols through Dynamic Vulcanization: Mechanical, Rheological, Crystalline, Thermal, and UV Protective Property

International audienceTannin and lignin were blended with polypropylene (PP) through dynamic vulcanization technique. Their influence of mechanical property, crystallinity, thermal stability, as well as ultraviolet (UV) protection property on the PP matrix was investigated and compared with native tannin and lignin. According to our experimental results, tannin and lignin undergo dynamic vulcanization and were more compatible with the PP matrix. Besides, tannin and vulcanized tannin can perform as nucleating agents of PP because of their relatively small particle size. Moreover, vulcanized tannin/lignin have a better performance on the thermal stability of PP compared with native tannin/lignin, especially PP/vulcanized lignin blend. Furthermore, vulcanized tannin/lignin present better UV protective performance, concluded from fewer changes on surface morphology, carbonyl index, crystallinity, viscosity, and tensile property

Microbiota in monocultured Litopenaeus vannamei vs. polyculture with Trachinotus ovatus

The structures of the microbial community in the intestine, aquaculture water, and sediment of Litopenaeus vannamei, both in monoculture and mixed culture with Trachinotus ovatus, were analyzed by sequencing 16S rRNA amplicons. 1,120,500 valid reads were obtained from 21 samples, and 3,767 operational taxonomic units (OTUs) were classified. In the two culture modes, the abundance and diversity of bacterial in the sediment were significantly higher than in the L. vannamei intestine under the monoculture mode, in the water and intestines of L. vannamei and T. ovatus under the mix-culture mode (P 0.05). The dominant phyla in the sediment under two culture modes were Proteobacteria, Bacteroidetes, and Chloroflexi. The microbial community structure in the water and L. vannamei intestine were similar in both culture modes. The dominant phyla included Cyanobacteria, Proteobacteria, and Actinobacteria, with their abundances ranging from 80.88% to 97.10%. Proteobacteria was the dominant phylum in each group of samples, and the dominant genus in both culture modes was GpIIa. There was little difference in microbial community structures under the two culture modes; while the culture mode did not affect the core phyla/genera, there were differences in relative abundance. The experimental results provide a reference for the exploration of efficient and specific probiotic screening and microbial formulation techniques

Logistic regression analysis of clinical and computed tomography features of pulmonary abscesses and risk factors for pulmonary abscess-related empyema

OBJECTIVES: This study was conducted to investigate the risk factors for pulmonary abscess-related empyema by investigating the clinical characteristics and chest computed tomography imaging features of patients with pulmonary abscesses. METHODS: We retrospectively analyzed the chest computed tomography findings and clinical features of 101 cases of pulmonary abscess, including 25 cases with empyema (the experimental group) and 76 cases with no empyema (the control group). The potential risk factors for pulmonary abscess-related empyema were compared between the groups by using univariate and multivariate logistic regression analyses. RESULTS: The incidence of pulmonary abscess-related empyema was 24.8% (25/101). Univariate analysis showed that male gender, diabetes, pleuritic symptoms, white blood cells 410 109 /L, albumin level o25 g/L, and positive sputum cultures were potential clinical-related risk factors and that an abscess 45 cm in diameter and transpulmonary fissure abscesses were potential computed tomography imaging-related risk factors for pulmonary abscess-related empyema. Multivariate logistic regression analysis showed that transpulmonary fissure abscesses (odds ratio=9.102, p=0.003), diabetes (odds ratio=9.066, p=0.003), an abscess 45 cm in diameter (odds ratio=8.998, p=0.002), and pleuritic symptoms (odds ratio=5.395, p=0.015) were independent risk factors for pulmonary abscess-related empyema. CONCLUSIONS: Transpulmonary fissure abscesses, diabetes, giant pulmonary abscesses, and pleuritic symptoms increased the risk of empyema among patients with pulmonary abscesses

Nanoporous molybdenum carbide wires as an active electrocatalyst towards the oxygen reduction reaction

A non-precious metal electrocatalyst has been developed for the oxygen reduction reaction based on nanoporous molybdenum carbide (nano-Mo2C) wires through a facile calcination of sub-nanometer periodic organic–inorganic hybrid nanowires. The highly dispersed Mo2C wires were composed of 10–15 nm nanocrystals with a mesopore size of 3.3 nm. The properties of nano-Mo2C wires were characterized using scanning electron microscopy, transmission electron microscopy, X-ray diffraction and N2 adsorption/desorption porosimetry. The highly active surface area and enriched nanoporosity for nano-Mo2C wires are unique features that make them a high-performance electrocatalyst for oxygen reduction in an alkaline medium. The electrocatalysis and reaction kinetics results show that nano-Mo2C-based materials can be developed as new catalysts with high activity at low cost for electrochemical energy conversion applications

Metallic vanadium disulfide nanosheets as a platform material for multifunctional electrode applications

Nano-thick metallic transition metal dichalcogenides such as VS$_{2}$ are essential building blocks for constructing next-generation electronic and energy-storage applications, as well as for exploring unique physical issues associated with the dimensionality effect. However, such 2D layered materials have yet to be achieved through either mechanical exfoliation or bottom-up synthesis. Herein, we report a facile chemical vapor deposition route for direct production of crystalline VS$_{2}$ nanosheets with sub-10 nm thicknesses and domain sizes of tens of micrometers. The obtained nanosheets feature spontaneous superlattice periodicities and excellent electrical conductivities (~3$\times$10$^{3}$ S cm$^{-1}$), which has enabled a variety of applications such as contact electrodes for monolayer MoS$_{2}$ with contact resistances of ~1/4 to that of Ni/Au metals, and as supercapacitor electrodes in aqueous electrolytes showing specific capacitances as high as 8.6$\times$10$^{2}$ F g$^{-1}$. This work provides fresh insights into the delicate structure-property relationship and the broad application prospects of such metallic 2D materials.Comment: 23 pages, 5 figue

A nonlinear triboelectric nanogenerator with a broadened bandwidth for effective harvesting of vibration energy

A narrow resonance bandwidth of an energy harvesters limits its response to the wide frequency spectrum in ambient environments. This work proposes an addition of a nonlinear restoring force applied to a triboelectric nanogenerator (TENG) to tune and broaden the resonance bandwidth. This restoring force is applied by permanent magnets at both sides of the slider and two external magnets. The noncontact strategy is adopted between the slider and the grating electrodes to avoid the wear of electrodes and energy loss caused by friction. The results show that compared with the linear system, the nonlinear noncontact TENG (NN-TENG) can increase the peak current from 6.3 μA to 7.89 μA, with an increment of about 25%, increase the peak power from 650 μW to 977 μW, increasing by about 50%, and increase the bandwidth from 0.5 Hz to 7.75 Hz, increasing by about1400%. This work may enable a new strategy to boost the bandwidth and output power of TENG through nonlinear oscillators