Notes

Essential Velocity through Aging: Comprehension of the planet Masters Finals.
To investigate the intersection of race and economic context in treatment with hysterectomy among reproductive aged women with noncancerous gynecologic conditions.

We combined administrative billing records of inpatient and outpatient hysterectomy procedures (N=28301) occurring in North Carolina between 2011 and 2014 with census data to calculate county-level hysterectomy rates.

Spatial analysis techniques examined the distribution of black and white hysterectomy rates across counties, and county-level black and white rate differences were compared across economic contexts.

We restricted to those of premenopausal age identifying as non-Hispanic black or white, undergoing hysterectomy for nonemergent causes (N=28301 procedures).

County-level hysterectomy rates were spatially patterned (Moran's I, P<.05) and similarly so for black and white women (LISA, P<.005). The black-white difference in hysterectomy rates was the largest in the high economic tier counties (22/10000 person-years [PY], P<.05) and smallest in the mid and low economic tier counties (11/10000 PY, P>.05 and 10/10000 PY, P>.05, respectively).

Socioeconomic context is important to understand, particularly for black-white disparities in hysterectomy. Efforts should be made to understand the causes of higher rates of hysterectomy among blacks than whites, especially in counties in the highest economic tier.
Socioeconomic context is important to understand, particularly for black-white disparities in hysterectomy. Efforts should be made to understand the causes of higher rates of hysterectomy among blacks than whites, especially in counties in the highest economic tier.Mitophagy is one of the selective autophagy pathways that catabolizes dysfunctional or superfluous mitochondria. Under mitophagy-inducing conditions, mitochondria are labeled with specific molecular landmarks that recruit the autophagy machinery to the surface of mitochondria, enclosed into autophagosomes, and delivered to lysosomes (vacuoles in yeast) for degradation. As damaged mitochondria are the major sources of reactive oxygen species, mitophagy is critical for mitochondrial quality control and cellular health. Moreover, appropriate control of mitochondrial quantity via mitophagy is vital for the energy supply-demand balance in cells and whole organisms, cell differentiation, and developmental programs. read more Thus, it seems conceivable that defects in mitophagy could elicit pleiotropic pathologies such as excess inflammation, tissue injury, neurodegeneration, and aging. In this review, we will focus on the molecular basis and physiological relevance of mitophagy, and potential of mitophagy as a therapeutic target to overcome such disorders.Antibiotic resistant bacterial respiratory infections are a significant global health burden, and new therapeutic strategies are needed to control the problem. For bacterial respiratory infections, this need is emphasized by the rise in antibiotic resistance and a lean drug development pipeline. Bacteriophage (phage) therapy is a promising alternative to antibiotics. Phage are viruses that infect and kill bacteria. Because phage and antibiotics differ in their bactericidal mechanisms, phage are a treatment option for antibiotic-resistant bacteria. Here, we review the history of phage therapy and highlight recent preclinical and clinical case reports of its use for treating antibiotic-resistant respiratory infections. The ability of phage to replicate while killing the bacteria is both a benefit for treatment and a challenge for pharmacokinetic (PK) and pharmacodynamic (PD) studies. In this review, we will discuss how the phage lifecycle and associated bidirectional interactions between phage and bacteria can impact treatment. We will also highlight PK/PD considerations for designing studies of phage therapy to optimize the efficacy and feasibility of the approach.Father-infant and mother-infant (one-year-olds) adrenocortical attunement was explored during the Strange Situation Procedure (SSP) among 125 father-infant and 141 mother-infant dyads. Cortisol was assessed at baseline (T1), 20 (T2), and 40 minutes (T3) after the first parent-infant separation. Initial correlations indicated significant associations between father-infant and mother-infant cortisol at each time. Cortisol interdependence was further explored using Actor-Partner Interdependence Models. There was no evidence supporting cortisol interdependence based on within-time residual correlations between parent-infant cortisol, once stability and cross-lagged paths were controlled. Infant cortisol at T2 predicted T3 cortisol for fathers and mothers resulting in a series of follow-up exploratory analyses to examine mediating processes which revealed that infant distress during the SSP predicted infant T2 cortisol, which, in turn, predicted infant negativity during the 15-min mother-infant teaching task that followed the SSP. Among father-infant dyads, infant T2 cortisol predicted infant negativity during father-infant interaction, with infants expressing more negativity having less sensitive fathers. Findings provide little support of parent-infant adrenocortical attunement across either father-infant or mother-infant dyads during the SSP, but preliminary evidence indicates infant distress as a potential mediator. Future research may want to focus on affective and behavioral processes that underlie the concept of parent-infant adrenocortical attunement.
The ability of Cutibacterium acnes strains to form biofilms has been correlated with their virulence.

This study examined biofilm and skin microbiota in acne patients in order to understand their role in the development of acne lesions.

Thin sections of punch biopsy specimens of (i) uninflamed comedones, (ii) inflammatory lesions, and (iii) uninvolved adjacent skin of acne patients were examined. Epiflourescence and confocal laser scanning microscopy were used for biofilm detection, and pyrosequencing with taxonomic classification of 16s rRNA gene amplicons was used for microbiota analysis.

Of the 39 skin specimens from patients with mild-moderate acne (n=13) that were studied, nine (23%) contained biofilm. Among these specimens, biofilm was most frequently detected in comedones (55.6%) and less frequently in inflammatory papules (22.2%) and uninvolved skin (22.2%). Comedones demonstrated the highest mean alpha diversity of all the lesion subtypes. The relative abundance of Staphylococcus was significantly higher in comedones (11.
Website: https://www.selleckchem.com/products/Adriamycin.html