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Controlling for age, sex, education, skin type, and genetic test result, interactive beliefs predicted sustained increases in perceptions of personal control, motivation to reduce sun exposure, use of multiple sun-protection methods, and reduction in objectively assessed tanning at the wrist one year following genetic counseling. Subtractive beliefs predicted increased personal control, motivation to manage risk, and sunscreen use, while deterministic beliefs were generally unrelated to outcomes.

Among people at highly elevated hereditary cancer risk, beliefs that unhealthful behaviors can amplify genetic risk seem to be especially motivating of behavioral risk-reduction efforts.

Among people at highly elevated hereditary cancer risk, beliefs that unhealthful behaviors can amplify genetic risk seem to be especially motivating of behavioral risk-reduction efforts.

Melanoma is the second most common cancer in young adults. Social media may be a means to conduct interventions to increase sun safety in young adults.

We conducted a randomized proof-of-concept pilot trial to evaluate the feasibility and acceptability of a dissonance-based social media intervention designed to promote sun safety in young adult tanners.

Young adult tanners (N = 66) were randomized into two 4-week interventions in which participants were incentivized to create content for a social media campaign on healthy skin or healthy lifestyle. Feasibility outcomes included retention, participation, acceptability, and contamination. We also examined the impact of participation on motivation to engage in the target health behaviors and outdoor tanning intentions.

Retention was 100%. Most Healthy Skin (88%) and Healthy Lifestyle participants (91%) created ≥1 post. Acceptability was high with 94% and 97% of participants in Healthy Skin and Healthy Lifestyle conditions, respectively, agreeing they would recommend the campaign to a friend. At 4 weeks, Healthy Skin participants reported greater declines in motivation to tan indoors (p = .0017) and outdoors (p = .0003), and greater increases in motivation to wear sunscreen (p = .0009) and protective clothing (p = .0342). Healthy Skin participants reported greater declines in intentions to tan outdoors in the next year (p = .0286).

A dissonance-based, social media sun safety intervention was feasible and acceptable. Future research should examine the efficacy and longer-term effects of this intervention in young adults at elevated risk for skin cancer.

Clinicaltrials.gov NCT03834974 https//clinicaltrials.gov/ct2/show/NCT03834974.

Clinicaltrials.gov NCT03834974 https//clinicaltrials.gov/ct2/show/NCT03834974.Three-dimensional (3D) hydrogel microspheres have attracted increasing attention as cell culture carriers. The system of hydrogel microspheres provides great advantages for cell growth owing to its high surface-to-volume ratio and biocompatible environment. However, an integrated system that includes microsphere generation, microsphere capture and in situ culture together has not been realized yet. Here we present a multifunctional microfluidic device to accomplish the overall process including cell-laden microsphere generation, online demulsification and dynamic-culture. The microfluidic device can produce massive monodispersed alginate microspheres and allows us to immobilize the alginate microspheres and record bacterial growth. Moreover, the microspheres provide a suitable environment through the mechanical properties of soft tissues, leading to high cell viability, proliferation, activity and biocompatibility. We believe that this versatile and biocompatible platform will provide a more reliable analysis tool for tissue engineering and cell therapy.Engineered nanoparticles for the encapsulation of bioactive agents hold promise to improve disease diagnosis, prevention and therapy. To advance this field and enable clinical translation, the rational design of nanoparticles with controlled functionalities and a robust understanding of nanoparticle-cell interactions in the complex biological milieu are of paramount importance. Herein, a simple platform obtained through the nanocomplexation of glycogen nanoparticles and albumin is introduced for the delivery of chemotherapeutics in complex multicellular 2D and 3D systems. We found that the dendrimer-like structure of aminated glycogen nanoparticles is key to controlling the multivalent coordination and phase separation of albumin molecules to form stable glycogen-albumin nanocomplexes. The pH-responsive glycogen scaffold conferred the nanocomplexes the ability to undergo partial endosomal escape in tumour, stromal and immune cells while albumin enabled nanocomplexes to cross endothelial cells and carry therapeutic agents. Limited interactions of nanocomplexes with T cells, B cells and natural killer cells derived from human blood were observed. The nanocomplexes can accommodate chemotherapeutic drugs and release them in multicellular 2D and 3D constructs. The drugs loaded on the nanocomplexes retained their cytotoxic activity, which is comparable with the activity of the free drugs. Cancer cells were found to be more sensitive to the drugs in the presence of stromal and immune cells. Penetration and cytotoxicity of the drug-loaded nanocomplexes in tumour mimicking tissues were validated using a 3D multicellular-collagen construct in a perfusion bioreactor. The results highlight a simple and potentially scalable strategy for engineering nanocomplexes made entirely of biological macromolecules with potential use for drug delivery.Bionanocomposite hydrogels were prepared from gelatin hydrogel and subsequent ionic crosslinking in the presence of a smectite with adsorbed cyanine dye (pseudoisocyanine). In addition to the improved mechanical properties achieved by the hybridization with the smectite, the composite hydrogel underwent a photoluminescence color change from red to blue upon stretching and recovered from blue to red upon relaxing. The novel luminescence mechanochromism was explained by the aggregation/de-aggregation of the cyanine dye adsorbed on the smectite by stretching/relaxing.Electrocatalytic oxidation is regarded as an effective technique for decomposing refractory organic compounds like perfluorooctanoic acid (PFOA). However, achieving highly efficient and long-life electrodes is still a great challenge. Herein, Ti/RuO2-IrO2@Pt anodes consisting of Pt4+ and Pt0 species were fabricated by combining modified microemulsion technology with a calcination process, in which Pt nanoparticles were highly dispersed and encapsulated in Ru-Ir composite oxides to form a strong metal-support interaction (SMSI) structure. The as-constructed SMSI layer on the Ti/RuO2-IrO2@Pt anode resulted in the improvement of the charge transfer capability and also increased the degradation (99.30%) and mineralization (91.32%) of PFOA during the electrochemical oxidation process. Notably, the service lifetime of Ti/RuO2-IrO2@Pt anodes was remarkably improved from 24 to 42.3 h compared to commercial Ti/RuO2-IrO2 anodes. Moreover, the possible degradation mechanism of PFOA was also speculated through the detection of short-chain perfluorocarboxylic acids and reactive radicals. These results not only revealed that the concept and methodology of SMSI could be an effective way for constructing highly efficient and stable electrocatalysts but also greatly advanced fundamental understanding.Obesity is a serious global health issue, and the societal interventions during the COVID-19 pandemic may have perturbed energy homeostasis, which affects the condition of obesity. Tea is a traditional beverage in Asia and has been shown to provide many beneficial health effects. Oolong tea is semifermented, with its chemical composition comprising features of green (unfermented) and black (fermented) tea. Although green tea has anti-obesity properties, studies on the anti-obesity ability of oolong tea are still scarce. In this study, we analyzed the chemical composition of oolong tea extract (OTE) and investigated the effects of OTE on high-fat diet-induced obese rats. OTE contained more (-)-epigallocatechin-3-gallate, (-)-epigallocatechin, and (-)-gallocatechin-3-gallate than theaflavins and theasinensins. Rats fed with a high-fat diet (HFD) and treated with 0.5% OTE exhibited significantly reduced body weight and visceral fat weight compared with the HFD-only group. OTE also decreased adipocyte size, lipogenesis-related protein sterol regulatory element-binding protein 1 (SREBP1) and fatty acid synthase (FASN) protein expression and increased thermogenesis-related protein peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC1α) and uncoupling protein 1 (UCP1) protein expression in epididymal adipose tissue compared with the HFD group. Moreover, the OTE groups had a significantly higher abundance of Candidatus arthromitus and Hydrogenoanaerobacterium and a lower abundance of Ruminococcus1, Oscillibacter, and Odoribacter compared with the HFD group. All these results show that OTE can alleviate weight gain by regulating lipid metabolism and modulating the distribution of the gut microbiota to decrease lipid accumulation in adipose tissue.Obesity continues to be a global public health challenge. Litchi chinensis seed is rich in bioactive ingredients with pharmacological effects, such as hypoglycemic activity and anti-oxidation. This study aimed to assess the potential anti-obesity effects of L. chinensis seed and the changes of gut microbiota and mycobiota compositions in obese zebrafish induced by a high-fat diet. see more The anti-obesity effects were supplemented and validated in high-fat diet-induced obese mice. In this study, various chemical components of L. chinensis seed water and ethanol extracts were detected using UHPLC-QE-MS, and both extracts showed strong in vitro antioxidant activities. Network pharmacology analysis showed the potential of the extracts to improve obesity. Litchi chinensis seed powder, water and ethanol extracts decreased the weight of obese zebrafish, improved lipid accumulation and lipid metabolism, regulated appetite, and inhibited cell apoptosis and inflammation of the liver and intestine. They showed similar effects in obese mice, and also reduced the weight of fat tissues, regulated insulin resistance and glucose metabolism, and improved the intestinal barrier. Additionally, L. chinensis seed modulated the compositions of gut microbiota and mycobiota in zebrafish, with the regulation of the proportion of bacteria that produce short-chain fatty acids or affect intestine health, including Cetobacterium, Trichococcus, Aeromonas, Staphylococcus, and Micrococcaceae, and the proportion of fungi that produce mycotoxins or have special metabolic capacities, including Penicillium, Candida, Rhodotorula, and Trichoderma. Spearman's correlation analysis revealed the potential link between zebrafish obesity parameters, gut bacteria and fungi. Overall, these findings indicated that L. chinensis seed effectively improved obesity.The potential impact of microplastics (MPs) on health has caused great concern, and a toxicology platform that realistically reproduces the system behaviour is urgently needed to further explore and validate MP-related health issues. Herein, we introduce an optically assisted thrombus platform to reveal the interaction of MPs with the vascular system. The risk of accumulation has also been evaluated using a mouse model, and the effect of MPs on the properties of the thrombus are validated via in vitro experiments. The microfluidic system is endothelialized, and the regional tissue injury-induced thrombosis is then realized through optical irradiation. Whole blood is perfused with MPs, and the invasion process visualized and recorded. The mouse model shows a cumulative risk in the blood with continuous exposure to MPs (P-value less then 0.0001). The on-chip results show that MP invasion leads to decreased binding of fibrin to platelets (P-value less then 0.0001), which is consistent with the results of the in vitro experiments, and shows a high risk of thrombus shedding in real blood flow compared with normal thrombus.

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