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Latanoprost has recently been used to treat alopecia as it causes an increase in the capillary density of patients. This work presents for the first time the development of polymeric nanocapsules containing latanoprost for the topical treatment of alopecia. Poly-ε-caprolactone nanocapsules loading latanoprost were developed by nanoprecipitation of the polymer on the surface of drug oily nanodroplets. The method encapsulated 93.9 ± 0.4% of the drug into nanocapsules of 197.8 (± 1.2) nm (PdI = 0.15 ± 0.01). The nanosystem presented a zeta potential equal to - 30.1 ± 1.8 mV and was stable for at least 90 days when stored at 6°C. The colloidal aqueous dispersion was non-irritating, according to the in vitro HET-CAM test. The nanocapsules improved latanoprost accumulation into the hair follicles when topically applied on porcine skin, delivering 30% more drug to these skin structures relative to the control solution (P less then 0.05). Also, with a simple manual massage, latanoprost accumulation was increased by twofold (P less then 0.05). In conclusion, in addition to being a stable and safe formulation, nanocapsules enhanced latanoprost accumulation into the hair follicles, being a nanosystem with high potential for use as a topical formulation for the treatment of androgenic alopecia.The main intent of this treatise was to encapsulate tamoxifen citrate (TMXC) into polymeric micellar delivery system and evaluate the influence of TMXC-loaded micelles as a promising carrier on the in vitro cytotoxicity and cellular uptake of TMXC in treatment of breast cancer. Different formulae of polymeric micelles loaded with TMXC using mixtures of different Pluronic polymers were fabricated by thin-film hydration method and evaluated for morphology, drug entrapment efficiency, particle size, surface charge, in vitro liberation of TMXC, uptake by cancer cell lines, and cytotoxic effect against breast cancer cell lines such as MCF-7. The optimal TMXC-loaded micelles exhibited nano-sized particles and entrapped about 89.09 ± 4.2% of TMXC. In vitro liberation study revealed an extended TMXC escape of about 70.23 ± 5.9% over a period of 36 h. The optimized TMXC-loaded micelles formula showed enhanced cellular uptake of TMXC by 2.28 folds and showed a significant cytotoxic effect with MCF-7 breast cancer cells compared to TMXC solution. The obtained yield proposed that Pluronic micelles could be a promising potential delivery system for anticancer moieties.During the last decade, tiger mosquitoes have rapidly colonized a large number of European countries, increasing the risk of infection with mosquito-borne diseases (MBDs), and constituting an emerging health threat in the region. The objectives of the present study were to prospectively investigate changes in Self-protective Behaviors, beliefs and attitudes regarding MBDs in Mediterranean France, and to assess the influence of social and cognitive time-varying covariates on behaviors. Data were collected using the same computer-assisted telephone survey in 2012, 2013 and 2014 among respondents residing in French Mediterranean regions. Weighted estimates in multivariate analysis were computed using the generalized estimating equation technique, with Self-protective Behaviors as a repeated outcome. Perceived exposure to tiger mosquitoes and knowledge about MBDs increased significantly between 2012 and 2014. Most respondents suffered from mosquito bites over the same period, but only 4 in 10 adopted Self-protective Behaviors. These behaviors were mostly related to the frequency of mosquito bites, perceived exposure to tiger mosquitoes, and to higher perceived vulnerability to MBDs. In conclusion, French Mediterranean residents are increasingly knowledgeable about MBDs and the proximity of tiger mosquitoes. However, self-protection was predominantly related to the frequency of mosquito bites and higher perceived vulnerability. These results suggest that Self-protective Behaviors are being shaped more in new risk areas by environmental cues to which people are exposed than by other common personal determinants of health behaviors.
Fatalism is defined by feelings of pessimism, hopelessness, and powerlessness regarding cancer outcomes. Early researchers reported associations between race and cancer fatalism. Yet current evidence suggests that social determinants of health are better predictors of cancer fatalism than race. Therefore, the aim of this study was to examine the association between age, race, education, and cancer fatalism.
Three hundred ninety (n = 390) women who attended a screening mammogram at the Joanne Knight Breast Health Center at Siteman Cancer Center at Washington University School of Medicine (St. Louis, MO) completed the Powe Fatalism Inventory (PFI), a 15-item self-report instrument used to operationalize cancer fatalism. We used Pearson's correlation, independent samples t-tests, one-way ANOVA with post hoc tests, and linear regression to analyze the relationships between PFI total scores and age, race, and education.
There were no differences between the mean PFI scores for Non-Hispanic Whites (1.89, SD 0eed for cancer fatalism interventions are those with lower educational levels.
In this study, cancer fatalism did not differ between Non-Hispanic White and African American women attending a screening mammogram. However, lower educational levels were associated with higher cancer fatalism. The previously observed associations between race and cancer fatalism may be explained by racial disparities in social determinants of health, such as education. Importantly, study findings indicate that the people with the greatest need for cancer fatalism interventions are those with lower educational levels.Cortical folding-the process of forming the characteristic gyri (hills) and sulci (valleys) of the cortex-is a highly dynamic process that results from the interaction between gene expression, cellular mechanisms, and mechanical forces. Like many other cells, neurons are sensitive to their mechanical environment. BAY 1000394 CDK inhibitor Because of this, cortical growth may not happen uniformly throughout gyri and sulci after the onset of cortical folding, which is accompanied by patterns of tension and compression in the surrounding tissue. Here, as an extension of our previous work, we introduce a biomechanically coupled growth model to investigate the importance of interaction between biological growth and mechanical cues during brain development. Our earlier simulations of cortical growth consisted of a homogeneous growing cortex attached to an elastic subcortex. Here, we let the evolution of cortical growth depend on a geometrical quantity-the mean curvature of the cortex-to achieve preferential growth in either gyri or sulci. As opposed to the popular pre-patterning hypothesis, our model treats inhomogeneous cortical growth as the result of folding rather than the cause.
