Transchaefer2306

To investigate the effect of chlorhexidine (CHX)-loaded carboxyl-terminated poly (amido amine) dendrimer (CHX-PAMAM-COOH) on matrix metalloproteinase (MMP) activities and remineralization in human dentin, CHX-PAMAM-COOH was prepared and characterized by Fourier-transform infrared spectroscopy. The inhibitory effects of CHX, PAMAM-COOH, and CHX-PAMAM-COOH on soluble recombinant human matrix metalloproteinase (rhMMP-2) and dentin-bound endogenous MMP activity were measured using an MMP Activity Assay Kit. In situ zymography was performed to evaluate the gelatinase activity in dentin pretreated with CHX, PAMAM-COOH, and CHX-PAMAM-COOH. The remineralization of etched dentin pretreated with CHX, PAMAM-COOH, and CHX-PAMAM-COOH was evaluated by field emission-scanning electron microscopy (SEM) and energy disperse spectroscopy (EDS) after incubation in artificial saliva for 14 days. The results of the rhMMP-2 activity assay showed that the MMP-2 activity in the CHX-PAMAM-COOH group and the CHX group decreased significantly to 5.58 ± 0.85% (P less then 0.05) and 4.86 ± 1.12% (P less then 0.05), respectively, but that in the PAMAM-COOH group increased significantly to 213.38 ± 0.11% (P less then 0.05). The results of total MMP activity and in situ zymography showed a significant reduction in endogenous gelatinase activity in dentin in the CHX-PAMAM-COOH group and the CHX group. The SEM and EDS results showed that rod-like crystals were formed on the etched dentin surface in the PAMAM-COOH group and the CHX-PAMAM-COOH group, and their Ca/P ratios were 1.73 and 1.71, respectively. In conclusion, CHX-PAMAM-COOH can inhibit dentin-bound endogenous MMPs and induce remineralization in etched dentin simultaneously. However, it is important to note that the catalytic role of PAMAM dendrimers may have an undesired excitatory effect on MMP activity, which cannot be ignored if PAMAM dendrimers were used alone in the oral environment.Bicuspid aortic valve is a congenital cardiac anomaly and common etiology of aortic stenosis. Given the positive outcomes of transcatheter aortic valve replacement (TAVR) in low-risk patients, TAVR will become more prevalent in the future in the treatment of severe bicuspid valve stenosis. However, asymmetrical bicuspid valve anatomy and calcification can prevent the circular and complete expansion of transcatheter aortic valves (TAVs). In previous studies, examining the impact of elliptical TAV deployment on leaflet stress distribution, asymmetric expansion of balloon-expandable intra-annular devices was studied up to an ellipticity index (long/short TAV diameter) of 1.4. However, such a high degree of eccentricity has not been observed in clinical studies with balloon-expandable devices. High degrees of stent eccentricity have been observed in self-expanding TAVs, such as CoreValve. However, CoreValve is a supra-annular device, and it was not clear if eccentric and incomplete stent deployment at the annulus would alter leaflet stress and strain distributions. This study aimed to assess the effects of eccentric and incomplete stent deployment of CoreValves in bicuspid aortic valves and compare the results to that of SAPIEN 3. Leaflet stress distribution and leaflet kinematics of 26-mm CoreValve and 26-mm SAPIEN 3 devices in bicuspid valves were obtained in a range that was observed in previous clinical studies. The results indicated that elliptical and incomplete stent deployment of TAVs increase leaflet stress and impair leaflet kinematics. The changes were more pronounced in CoreValve than SAPIEN 3. Increased leaflet stress can reduce long-term valve durability, and impaired leaflet kinematics can potentially increase blood stasis on the TAV leaflets. The study provides complementary insights into the mechanics of TAVs in bicuspid aortic valves.Cardiac patch therapies promise to restore heart function and lower the risk of heart failure after heart attack. Fiber-matrix engineered tissue scaffolds have gained significant attention due to their tunable micro-structures, providing nonlinear mechanical properties similar to native anisotropic heart tissues. TNO155 mw Mechanical properties of engineered scaffolds directly affect the stress fields generated inside and around the tissue scaffolds and have significant impact on the tissue functionality. Currently, biomedical cardiac patches are designed through experimentation and there exists a need for an accurate model that will allow micro-structural design optimization and analysis of effectiveness of the implanted patches. We have developed a three-dimensional large strain continuum model that can predict nonlinear, anisotropic mechanical response of engineered tissue scaffolds that have two orientation families of fibers inside a bulk hydrogel matrix. We have validated the predictive capability of our continuum model for the fiber-matrix composite using selected experiments and a suite of detailed finite element analysis that incorporated the micro-structural details of the composites. Comparing the continuum model predictions (1 element) against the representative volume micro-structural geometry finite element simulations (with greater than 4,00,000 elements), we show that the proposed model can accurately predict nonlinear mechanical behavior of highly anisotropic tissue scaffolds in both the longitudinal and transverse directions, as a function of the critical design parameters inter-fiber angle and fiber spacing. We show that the model can also capture native heart tissue's anisotropic large strain mechanical response. We implemented our model in the finite element software Abaqus by writing a user material subroutine UANISOHYPER and demonstrated its predictive abilities by conducting a full three-dimensional analysis of engineered tissue patch application on an infarcted heart.The energetic valorisation of wastes through gasification is a promising solution with a better environmental impact in terms of pollutant emissions compared with incineration, landfilling, and heat and power generation from fossil fuels. However, techno-economic studies are imperative to define the viability of these technologies and to optimise heat and power consumptions and costs. This work intended to develop a techno-economic analysis for a small-scale gasification plant processing mixtures of solid recovered fuels and sewage sludge, assuming a capacity of 883 kg/h and two different sale scenarios (A) production of electric energy, and (B) production of hydrogen. Gasification tests and mass and energy flow analyses were carried out for the economic assessment. The results showed that both scenarios presented viability for implementation. Although scenario A was more attractive in the short-term period due to the lower payback period (9 year) and higher internal rate of return (IRR, 7.5%), the other option was more favourable at the end of plant's life once the net present value was greater (1,801,700 €). Based on the results of a sensitivity analysis, a conclusion could be drawn that the economic indicators payback period and IRR were most influenced by capital expenditures applied in the plant.We investigated the association between cellular immunity and age-related hearing loss (ARHL) development using three CD4+ T cell fractions, namely, naturally occurring regulatory T cells (Treg), interleukin 1 receptor type 2-expressing T cells (I1R2), and non-Treg non-I1R2 (nTnI) cells, which comprised Treg and I1R2-deleted CD4+ T cells. Inoculation of the nTnI fraction into a ARHL murine model, not only prevented the development of ARHL and the degeneration of spiral ganglion neurons, but also suppressed serum nitric oxide, a source of oxidative stress. Further investigations on CD4+ T cell fractions could provide novel insights into the prevention of aging, including presbycusis.

Previous research has indicated that mindfulness can be beneficial both intrapersonally and interpersonally. Although mindfulness has been shown to improve an individual's health, much less is known about whether these health benefits extend to the individual's spouse.

The present study aims to establish a crossover model to expound how and why mindfulness might be associated with both the individual's and the spouse's general health.

In total, 319 married couples in Mainland China participated in a two-wave survey study with a 3-month interval. The hypotheses were tested by Structural Equation Modeling.

As expected, mindfulness was positively correlated with personal general health through decreases in perceived social undermining. However, mindfulness had an asymmetrical crossover effect on spouses' general health. Whereas wives' mindfulness had significant benefits for husbands' general health, husbands' mindfulness was not a significant protective factor of wives' general health. The benefits of wives' mindfulness on husbands' general health were mediated by the direct crossover of lower perceived social undermining from wives to husbands.

This study is the first to investigate the relationship between mindfulness and general health at the couple level. Our findings help clarify the benefits of mindfulness on couples' health management from a systemic perspective and provide further support for the crossover theory.

This study is the first to investigate the relationship between mindfulness and general health at the couple level. Our findings help clarify the benefits of mindfulness on couples' health management from a systemic perspective and provide further support for the crossover theory.'Plant blindness' stops people from recognizing the important role that plants play in society, and is acute when it comes to seeing how plants support health. The social sciences are beginning to explore how plants are imbricated in sociopolitical processes, including ones that produce health. This paper theorizes people-plant relations and the agency of plants in the production of health, drawing on data from a multispecies ethnography conducted in Toronto's largest social housing community during the 2018 growing season. The paper applies a posthumanist lens to find that food-producing plants in the area exert their agency and are health-supporting actors when collaborating with residents to advocate for community gardens and influence neighbourhood design. By arguing that plants are actual agents of change in sociopolitical processes, the article deepens an understanding of the health-supporting role of plants and provides empirical evidence for a view of health as a process, as opposed to a status, that is produced through relationships. The paper suggests that the term 'relational health' be used to describe a conception of health that recognizes that health is produced through interconnections and interdependencies, including between people and plants. The article contributes to discourses exploring the human health relationship to nature, including One Health.

High rates of co-morbidity have been reported in patients with diabetes mellitus with depression (DD). Danggui Buxue Decoction (DBD), a Traditional Chinese Medicine formula composed of Angelica and Astragalus, has been historically used for the treatment of diabetes.

This study aimed to investigated whether DBD and its main active component, ferulic acid (FA) from Angelica, could ameliorate depression-like behavior in DD and the underlying mechanisms.

Goto-Kakizaki (GK) rats were administered DBD (4 or 8 g/kg) by oral gavage during a 4-week period of chronic unpredictable mild stress. After 4 weeks, blood glucose, glycated serum protein, serum insulin, oral glucose tolerance and depression-like behavior were examined, along with brain-derived neurotrophic factor (BDNF)-related signaling pathway proteins and the ultrastructure of hippocampal tissues. UPLC-QTOF-MS was adopted to detect the absorption of FA in the serum and hippocampus. Rat primary hippocampal cells were cultured in a DD model. Protein and mRNA levels of genes involved in BDNF-related signaling and neuroplasticity were analyzed.