The mediating effect of perceived social support between family resilience and meaning in life in breast cancer patients.

PURPOSE: The beneficial effects of family resilience and meaning in life on patients are established, but limited is known for the effect of perceived social support. We aim to investigate the impact of family resilience on the meaning of life among Chinese patients with breast cancer (BC) and to further detect whether perceived social support mediated this association. METHODS: From February to June 2022, we conducted this cross-sectional study with 276 women who were diagnosed with BC in a tertial hospital in Guangdong province, China. The Chinese version of Meaning in Life Scale (C-MiLS) was used to measure the meaning in life. The Chinese version of the family resilience assessment scale (C-FRAS) and the perceived social support scale (PSSS) were adopted to obtain the family resilience and perceived social support, respectively. The mediating effect of perceived spousal support was estimated using the bootstrapped confidence interval (CI) via IBM SPSS AMOS 22.0. RESULTS: The mean scores were 60.79 ± 11.63 for meaning in life, 82.08 ± 11.48 for family resilience, and 62.72 ± 12.19 for perceived social support, respectively. Our results indicated the positive correlations of meaning in life with family resilience (ß = 0.822, P < 0.05) and perceived social support (ß = 0.886, P < 0.05). The perceived social support exerted the mediating effect in the relationship between family resilience and meaning in life (ß = 0.368 [95%CI, 0.274, 0.450], P < 0.001), accounting for 54.6% of the variance in meaning in life. CONCLUSIONS: Our findings highlight that family resilience and perceived social support should be enhanced for BC patients to improve their meaning in life. In particular, the association between family resilience and meaning in life was positively mediated by perceived social support. Thus, interventions for improving family resilience and perceived social support might be useful in easing psychological distress and improving meaning in life in individuals with BC.

Risk factors for surgical site infection in patients with gastric cancer: A meta-analysis.

Surgical Site Infection (SSI) is one of the common postoperative complications after gastric cancer surgery. Previous studies have explored the risk factors (such as age, diabetes, anaemia and ASA score) for SSI in patients with gastric cancer. However, there are large differences in the research results, and the correlation coefficients of different research results are quite different. We aim to investigate the risk factors of surgical site infection in patients with gastric cancer. We queried four English databases (PubMed, Embase, Web of Science and the Cochrane Library) and four Chinese databases (China National Knowledge Infrastructure, Chinese Biological Medicine Database, Wanfang Database and Chinese Scientific Journal Database (VIP Database)) to identify published literature related to risk factors for surgical site infection in patients with gastric cancer. Rev Man 5.4 and Stata 15.0 were used in this meta-analysis. A total of 15 articles (n = 6206) were included in this analysis. The following risk factors were found to be significantly associated with surgical site infection in gastric cancer: male (OR = 1.28, 95% CI [1.06, 1.55]), age >60 (OR = 2.75, 95% CI [1.65, 4.57]), smoking (OR = 1.99, 95% CI [1.46, 2.73]), diabetes (OR = 2.03, 95% CI [1.59, 2.61]), anaemia (OR = 4.72, 95% CI [1.66, 13.40]), preoperative obstruction (OR = 3.07, 95% CI [1.80, 5.23]), TNM ≥ III (OR = 2.05, 95% CI [1.56, 2.70]), hypoproteinemia (OR = 3.05, 95% CI [2.08, 4.49]), operation time ≥3 h (OR = 8.33, 95% CI [3.81, 18.20]), laparotomy (OR = 2.18, 95% CI [1.61, 2.94]) and blood transfusion (OR = 1.44, 95% CI [1.01, 2.06]). This meta-analysis showed that male, age >60, smoking, diabetes, anaemia, preoperative obstruction, TNM ≥ III, hypoproteinemia, operation time ≥3 h, open surgery and blood transfusion were the risk factors for SSI in patients with gastric cancer.

A dual conducting network corbelled hydrated vanadium pentoxide cathode for high-rate aqueous zinc-ion batteries.

Aqueous zinc-ion batteries (ZIBs) are widely recognized for their excellent safety and high theoretical capacity but are hindered by the scarcity of cathode materials with high-rate performance and stability. Herein, a dual conducting network corbelled hydrated vanadium pentoxide that involves structural water as a pillar to enlarge the layer spacing of vanadium pentoxide and ensure cycling stability was reported. Along with the proton co-insertion, the hydrated vanadium pentoxide delivers nearly theoretical specific capacities of 524.6 mA h g-1 at 0.3 A g-1 and 258.7 mA h g-1 at 10 A g-1, which was largely due to non-faradaic contribution, and retains 196.8 mA h g-1 at 4.8 A g-1 after 1100 cycles. Notably, a high energy density of 409.3 W h kg-1 at 0.3 A g-1 and a power density of 6666.4 W kg-1 at 10 A g-1 have also been achieved. The design strategy offers a potential path to develop high-rate ZIBs.

Efficacy of Auricular Acupressure in Prevention and Treatment of Chemotherapy-Induced Nausea and Vomiting in Patients with Cancer: A Systematic Review and Meta-Analysis.

BACKGROUND: More than 40% of patients with cancer have reported that chemotherapy-induced nausea and vomiting (CINV) remained the most debilitating side effects of treatment even in the era of new antiemetics. OBJECTIVE: The purpose of this review was to systematically evaluate the clinical effect of auricular acupressure (AA) in prevention and treatment of chemotherapy-induced nausea and vomiting. METHODS: The following databases were searched: PubMed, Cochrane Library, EMBASE, the Web of Science, Chinese Biological Medicine (CBM), Chinese National Knowledge Infrastructure (CNKI), Wanfang, and VIP (from database inception to April 2020). Eligible randomized controlled trials of auricular acupressure in treating CINV were collected, including crossover randomized design study. The meta-analysis was carried out by RevMan software (5.3). RESULTS: Totally 19 RCTs with 1449 patients met the inclusion criteria. Compared with control groups, the relief efficiency of overall CINV was enhanced by AA combined with antiemetics (RR = 1.31, CI 1.22 to 1.41, p ≤ 0.001). Although the therapeutic effect on acute nausea and vomiting was not obvious, AA still played an important role in reducing delayed nausea and vomiting (delayed nausea frequency: RR = 0.68, CI -1.01 to -1.35, p ≤ 0.001; delayed vomiting frequency: RR = 0.91, CI -1.22 to -0.61, p ≤ 0.001). The likelihood of adverse reactions related to antiemetics was reduced by AA combined with antiemetics (RR = 0.62, CI 0.53 to 0.74, p ≤ 0.001). Statistically significant association was found between AA and incidence of constipation, diarrhea, and tiredness, while there was no statistically significant association between AA and abdominal distension or headache. CONCLUSION: Auricular acupressure supplementation benefited delayed chemotherapy-induced nausea and vomiting as well as constipation, diarrhea, and tiredness. AA alone or AA supplementation has little effect on acute nausea and acute vomiting. There is no conclusion on whether AA alone is superior to antiemetics in the management of delayed CINV. Further studies are needed to confirm the efficacy of auricular acupressure alone in delayed CINV and anticipatory CINV. The results of this review provided the basis for further research with more rigorous study designs, adequate sample sizes, and standardized implementation to confirm the efficacy of auricular acupressure.

Revealing the Superiority of Fast Ion Conductor in Composite Electrolyte for Dendrite-Free Lithium-Metal Batteries.

Composite electrolytes composed of a nanoceramic and polymer have been widely studied because of their high ionic conductivity, good Li-ion transference number, and excellent machinability, whereas the intrinsic reason for the improvement of performance is ambiguous. Herein, we have designed a functional polymer skeleton with different types of nanofiller to reveal the superiority of fast ion conductors in composite electrolyte. Three types of ceramics with different dielectric constants and Li-ion transfer ability were selected to prepare composite electrolytes, the composition, structure, and electrochemical performances of which were systematically investigated. It was found that the addition of fast ion conductive ceramics could provide a high Li-ion transference ability and decreased diffusion barrier because the additional pathways existed in the ceramic, which are revealed by experiment and density functional theory calculations. Benefiting from the superiority of fast ion conductor, Li-metal batteries with this advanced composite electrolyte exhibit an impressive cycling stability and enable a dendrite-free Li surface after cycling. Our work enriches the understanding of the function of fast ion conductors in composite electrolyte and guides the design for other high-performance composite electrolytes in rechargeable solid batteries.

Preparation of a porous graphite felt electrode for advance vanadium redox flow batteries.

Rapid mass transfer and great electrochemical activity have become the critical points for designing electrodes in vanadium redox flow batteries (VRFBs). In this research, we show a porous graphite felt (GF@P) electrode to improve the electrochemical properties of VRFBs. The generation of pores on graphite felt electrodes is based on etching effects of iron to carbon. The voltage and energy efficiencies of VRFB based on the GF@P electrode can reach 72.6% and 70.7% at a current density of 200 mA cm-2, respectively, which are 8.3% and 7.9% better than that of untreated GF@U (graphite felt). Further, the VRFBs based on GF@P electrodes possess supreme stability after over 500 charge-discharge cycles at 200 mA cm-2. The high-efficiency approach reported in this study offers a new strategy for designing high-performance electrode materials applied in VRFBs.

Unveiling the Role of Heteroatom Gradient-Distributed Carbon Fibers for Vanadium Redox Flow Batteries with Long Service Life.

The fundamental understanding of electrocatalytic reaction process is anticipated to guide electrode upgradation and acquirement of high-performance vanadium redox flow batteries (VRFBs). Herein, a carbon fiber prototype system with a heteroatom gradient distribution has been developed with enlarged interlayer spacing and a high graphitization that improve the electronic conductivity and accelerate the electrocatalytic reaction, and the mechanism by which gradient-distributed heteroatoms enhance vanadium redox reactions was elucidated with the assistance of density functional theory calculations. All these contributions endow the obtained electrode prominent redox reversibility and durability with only 1.7% decay in energy efficiency over 1000 cycles at 150 mA cm-2 in the VRFBs. Our work sheds light on the significance of elaborated electrode design and impels the in-depth investigation of VRFBs with long service life.

Hierarchical Carbon Micro/Nanonetwork with Superior Electrocatalysis for High-Rate and Endurable Vanadium Redox Flow Batteries.

Vanadium redox flow batteries (VRFBs) are receiving increasing interest in energy storage fields because of their safety and versatility. However, the electrocatalytic activity of the electrode is a pivotal factor that still restricts the power and cycling capabilities of VRFBs. Here, a hierarchical carbon micro/nanonetwork (HCN) electrode codoped with nitrogen and phosphorus is prepared for application in VRFBs by cross-linking polymerization of aniline and physic acid, and subsequent pyrolysis on graphite felt. Due to the hierarchical electron pathways and abundant heteroatom active sites, the HCN exhibits superior electrocatalysis toward the vanadium redox couples and imparts the VRFBs with an outstanding energy efficiency and extraordinary stability after 2000 cycles at 250 mA cm-2 and a discharge capacity of 10.5 mA h mL-1 at an extra-large current density of 400 mA cm-2. Such a micro/nanostructure design will force the advancement of durable and high-power VRFBs and other electrochemical energy storage devices.

Designing High-Performance Composite Electrodes for Vanadium Redox Flow Batteries: Experimental and Computational Investigation.

Highly catalytic electrodes play a vital role in exploiting the capability of vanadium redox flow batteries (VRFBs), but they suffer from a tedious synthesis process and ambiguous interaction mechanisms for catalytic sites. Herein, a facile urea pyrolysis process was applied to prepare graphitic carbon nitride-modified graphite felt (GF@CN), and by the virtue of a density functional theory-assisted calculation, the electron-rich pyridinic nitrogen atom of CN granules is demonstrated as the adsorption center for redox species and plays the key role in improving the performance of VRFBs, with 800 cycles and an energy efficiency of 75% at 150 mA cm-2. Such experimental and computational collaborative investigations guide a realizable and cost-effective solution for other high-power flow batteries.

Adsorption Neutralization Model and Floc Growth Kinetics Properties of Aluminum Coagulants Based on Sips and Boltzmann Equations.

Single-molecule aluminum salt AlCl3, medium polymerized polyaluminum chloride (PAC), and high polymerized polyaluminum chloride (HPAC) were prepared in a laboratory. The characteristics and coagulation properties of these prepared aluminum salts were investigated. The Langmuir, Freundlich, and Sips adsorption isotherms were first used to describe the adsorption neutralization process in coagulation, and the Boltzmann equation was used to fit the reaction kinetics of floc growth in flocculation. It was novel to find that the experimental data fitted well with the Sips and Boltzmann equation, and the significance of parameters in the equations was discussed simultaneously. Through the Sips equation, the adsorption neutralization reaction was proved to be spontaneous and the adsorption neutralization capacity was HPAC > PAC > AlCl3. Sips equation also indicated that the zeta potential of water samples would reach a limit with the increase of coagulant dosage, and the equilibrium zeta potential values were 30.25, 30.23, and 27.25 mV for AlCl3, PAC, and HPAC, respectively. The lower equilibrium zeta potential value of HPAC might be the reason why the water sample was not easy to achieve restabilization at a high coagulant dosage. Through the Boltzmann equation modeling, the maximum average floc size formed by AlCl3, PAC, and HPAC were 196.0, 188.0, and 203.6 µm, respectively, and the halfway time of reactions were 31.23, 17.08, and 9.55 min, respectively. The HPAC showed the strongest floc formation ability and the fastest floc growth rate in the flocculation process, which might be caused by the stronger adsorption and bridging functions of Alb and Alc contained in HPAC.

[Effect of Bupleurum polysaccharides on splenocytes from lupus like mouse re-challenged with Campylobacter jejuni-S(131) in vitro].

Mice were immunized with Campylobacter jejuni-S(131) (CJ-S(131)) to establish the lupus-like model. Splenocytes from lupus like mice were challenged with CJ-S(131) to induce inflammatory response in vitro. Bupleurum smithii var. parvifolium polysaccharides (BPs) was added in the inflammatory model to observe its underlying mechanisms of action on lupus. BALB/c mice were randomly divided into three groups including normal control group, adjuvant control group and lupus-like model. Mice were immunized on Day 0 and 14 with CJ-S(131) to establish lupus-like syndrome, and sacrificed on Day 19. Splenocytes from each group were collected and divided into blank control group, BPs added group (BPs 5, 10, 20, 40 µg·m L(-1)), CJ-S(131) stimulated group, and CJ-S(131) plus BPs group. The levels of total IgG, anti-ds DNA antibody, interferon-γ, interleukin-10 (IL-10) and IL-17 were quantified by ELISA. The proliferation of splenocytes was determined in the MTT assay. BPs significantly suppressed the high levels of total IgG, anti-ds DNA antibody, IFN-γ and IL-10 stimulated by CJ-S131 and had no significant effects on increased IL-17 secretion and splenocytes proliferation. The results suggest that re-stimulation of splenocytes with CJ-S(131) could establish an inflammatory model in vitro. The effect of BPs on lupus might is related to its inhibition of the production of autoantibodies and associated cytokines.

Therapeutic Effects of Bupleurum Polysaccharides in Streptozotocin Induced Diabetic Mice.

Diabetes mellitus is related to low-grade chronic inflammation and oxidative stress. Bupleurum Polysaccharides (BPs), isolated from Bupleurum smithii var. parvifolium has anti-inflammatory and anti-oxidative properties. However, little is known about its therapeutic effects on diabetes. In this experiment, the effects of BPs on alleviation of diabetes and the underlying mechanisms were investigated. Diabetic mice model was established via successive intraperitoneal injections of streptozotocin (100 mg/kg body weight) for two days. Mice with blood glucose levels higher than 16.8mmol/L were selected for experiments. The diabetic mice were orally administered with BPs (30 and 60 mg/kg) once a day for 35 days. BPs not only significantly decreased levels of blood glucose, but also increased those of serum insulin and liver glycogen in diabetic mice compared to model mice. Additionally, BPs adminstration improved the insulin expression and suppressed the apoptosis in pancreas of the diabetic mice. Histopathological observations further demonstrated that BPs protected the pancreas and liver from oxidative and inflammatory damages. These results suggest that BPs protect pancreatic ß cells and liver hepatocytes and ameliorate diabetes, which is associated with its anti-oxidative and anti-inflammatory properties.

Synthesis of poly(acrylic acid) coated-Fe3O4 superparamagnetic nano-composites and their fast removal of dye from aqueous solution.

Poly(acrylic acid) (PAA) coated-Fe3O4 superparamagnetic nano-composites were synthesized through a solvothermal technique by using cheap and environmental friendly iron salts and PAA. Each nano-composite was composed of many small primary nanocrystals. The as-synthesized products were characterized by X-ray diffraction (XRD), field emission scanning electron microscopy (FE-SEM), high resolution transmission electron microscopy (HRTEM), vibrating sample magnetometer (VSM), Fourier transform infrared spectroscopy (FTIR), thermogravimetric-differential scanning calorimetry (TG-DSC) analysis and nitrogen adsorption-desorption measurements. These nano-composites showed rapid adsorption rate and super removal capacity of cation organic dye methylene blue (MB). Moreover, the MB desorption could be easily performed using methanol and acetic acid mixed solution. The reused performance of the nano-composites was also studied.

Study of the biological effectiveness of a nanosilver-epidermal growth factor sustained-release carrier.

The aim of the present study was to elucidate the biological effectiveness and character of a nanosilver-epidermal growth factor (EGF) sustained-release carrier. This was synthesized using the self-assembly method and then characterized by transmission electron microscopy and UV spectrophotometry. The biological activity of the sustained release carrier was determined through cytological, bacteriological and wound-healing experiments. The results showed that the nanosilver-EGF sustained-release carrier was well dispersed with uniform particle size and that it had good antibacterial properties similar to those of nanosilver. The nanosilver-EGF sustained-release carrier is superior to EGFs in effectively promoting cell division and proliferation. The results of the wound-healing experiments provide evidence of its curative effects.

Fast and considerable adsorption of methylene blue dye onto graphene oxide.

The quite efficient adsorption of methylene blue dye from an aqueous solution by graphene oxide was studied. The favorable electrostatic attraction is the main interaction between methylene blue and graphene oxide. As graphene oxide has the special nanostructural properties and negatively charged surface, the positively charged methylene blue molecules can be easily adsorbed on it. In the aqueous solution of methylene blue at 293 K, the adsorption data could be fitted by the Langmuir equation with a maximum adsorption amount of 1.939 mg/mg and a Langmuir adsorption equilibrium constant of 18.486 mL/mg. The adsorption amount increased with the increase of the solution pH (3-11), was not affected significantly by KCl under the examined condition and the adsorption process was exothermic in nature. The fast and considerable adsorption of graphene oxide could be regarded as a potential adsorbent for cationic dye removal in wastewater treatment process.