Lausenfournier8423

Our review will summarize the multifaceted relationship between antioxidants and carcinogenesis, and it will help to create new directions in antioxidant-based chemotherapy.

The major salivary glands can be stimulated by chewing gum to increase saliva flow and decrease xerostomia. The aim of this study was to investigate the effect of chewing gum on dry mouth, interdialytic weight gain, and intradialytic symptoms in hemodialysis (HD) patients.

This prospective randomized controlled single-blind study was conducted with patients who had been treated for at least 6 months with sessions 3 days a week for 4 hours at two HD units. Patients were randomly allocated to chewing gum group or the control group. In the chewing gum group, gum was chewed for 10 minutes six times a day, and when the patients felt mouth dryness or were thirsty. In the nonchewing gum group, gum was not chewed. The patients were followed-up for 3 months. A total of three saliva samples were taken before starting treatment at the first, 12th, and 36th HD session. Data were collected with the "Visual Analogue Scale (VAS)," "Hemodialysis Patients Fluid Control Scale," "Dialysis Symptom Index," and "Hospital Anxiety and Depression Scale" at baseline, week 4, week 8, and week 12.

The study was completed with a total of 44 patients consisting of 22 patients in the each group. The second and third month VAS values (xerostomia) of the patients in the chewing gum groups were statistically significantly lower than those in the control group (P = 0.014, P < 0.001, respectively). The third month salivary flow rate in the chewing gum group was higher than the values in the control group patients (P < 0.001).

It is anticipated that this study will raise nurses' awareness of dry mouth and encourage future studies on interventions to increase the salivary flow rate to prevent or treat dry mouth.

It is anticipated that this study will raise nurses' awareness of dry mouth and encourage future studies on interventions to increase the salivary flow rate to prevent or treat dry mouth.This study investigates the effect of the addition of plant-derived extracts (control, garlic extract or a combination of carvacrol, thymol, cinnamic aldehyde and eugenol oils extracts) to pig feedstuff and the reduction in salt content (NaCl or a mixture 6040 sodium chloridepotassium lactate) on some physicochemical characteristics and consumer acceptability of dry-fermented sausages. Six different batches were formulated. The pH, color, lipid oxidation, and microbial counts were measured, and a consumer home test was performed. Both the use of a plant-derived extract and salt type affected the dry-fermented sausage characteristics. The low-salt batches presented a lower pH and higher microbial counts than the control. The salt reduction affected the color but only in the oil batches, resulting in higher L* and lower a* values. The oil batches presented the highest TBAR values (>1 mg/kg), suggesting that antioxidant compounds present into the meat were not bioavailable on the sausages or were missed during the curing process. The use of plant-derived extracts affected to consumer acceptability, whereas salt replacement did not. Oil batches scored lower than the other. From the current results, the oil extract would not be a recommended additive in pig feedstuff, especially when a low-salt strategy will be employed.Microbial ecology research is currently driven by the continuously decreasing cost of DNA sequencing and the improving accuracy of data analysis methods. #link# One such analysis method is phylogenetic placement, which establishes the phylogenetic identity of the anonymous environmental sequences in a sample by means of a given phylogenetic reference tree. However, assessing the diversity of a sample remains challenging, as traditional methods do not scale well with the increasing data volumes and/or do not leverage the phylogenetic placement information. Here, we present scrapp, a highly parallel and scalable tool that uses a molecular species delimitation algorithm to quantify the diversity distribution over the reference phylogeny for a given phylogenetic placement of the sample. scrapp employs a novel approach to cluster phylogenetic placements, called placement space clustering, to efficiently perform dimensionality reduction, so as to scale on large data volumes. Furthermore, it uses the phylogeny-aware molecular species delimitation method mPTP to quantify diversity. We evaluated scrapp using both, simulated and empirical data sets. We use simulated data to verify our approach. Tests on an empirical data set show that scrapp-derived metrics can classify samples by their diversity-correlated features equally well or better than existing, commonly used approaches. scrapp is available at https//github.com/pbdas/scrapp.

Multi-species biofilms formed by fungi and bacteria are clinically common and confer the commensal micro-organisms with protection against antimicrobial therapies. Previously, ML 210 was reported to show antimicrobial efficacy to eliminate bacterial and fungal biofilms. In this study, the combination of berberine and amphotericin B, an antifungal agent, was evaluated against dual-species Candida albicans/Staphylococcus aureus biofilms.

Combinatorial treatment by berberine and amphotericin B significantly reduced the biomass and viability of residing species in biofilms. Moreover, morphological examination revealed hyphal filamentation of C. albicans and coadhesion between C. albicans/S. aureus were considerably impaired by the treatment. These effects coincided with the reduced expression of cell surface components and quorum-sensing-related genes in both C. albicans and S. aureus. Additionally, in C. albicans, the core transcription factors for controlling biofilm formation together with a crucial component of dual-species biofilms were also downregulated.

These results demonstrated synergistic effects of berberine and amphotericin B against C. albicans/S. aureus dual-species biofilms.

This study confirms the potential of berberine and amphotericin B for treating the C. albicans/S. aureus biofilms related infections and reveals molecular basis for the efficacy of combinatorial treatment.

This study confirms the potential of berberine and amphotericin B for treating the C. albicans/S. aureus biofilms related infections and reveals molecular basis for the efficacy of combinatorial treatment.