Longitudinal Study of DNA Methylation and Epigenetic Clocks Prior to and Following Test-Confirmed COVID-19 and mRNA Vaccination.

The host epigenetic landscape rapidly changes during SARS-CoV-2 infection, and evidence suggest that severe COVID-19 is associated with durable scars to the epigenome. Specifically, aberrant DNA methylation changes in immune cells and alterations to epigenetic clocks in blood relate to severe COVID-19. However, a longitudinal assessment of DNA methylation states and epigenetic clocks in blood from healthy individuals prior to and following test-confirmed non-hospitalized COVID-19 has not been performed.

Clustering Analysis of the Multi-Microbial Consortium by Species Against Vaginal Dysbiosis Among Ecuadorian Women.

The vaginal microbiota plays vital protection in women. This probiotic activity is caused not only by individual species but also by its multi-microbial interaction. However, the probiotic activity promoted by multi-microbial consortia is still unknown.

Fabrication of X-ray Gratings for Interferometric Imaging by Conformal Seedless Gold Electroplating.

We present a method to produce small pitch gratings for X-ray interferometric imaging applications, allowing the phase sensitivity to be increased and/or the length of the laboratory setup to be minimized. The method is based on fabrication of high aspect ratio silicon microstructures using deep reactive ion etching (Bosch technique) of dense grating arrays and followed by conformal electroplating of Au. We demonstrated that low resistivity Si substrates (<0.

Can grating interferometry-based mammography discriminate benign from malignant microcalcifications in fresh biopsy samples?

Purpose: In addition to absorption imaging, grating interferometry-based mammography (GIM) is capable of detecting differential-phase and scattering signals. In particular, the scattering signal can enable a quantifiable characterization of breast lesions. The purpose of this study was to determine if suspicious microcalcifications associated with benign or malignant lesions can be discriminated based on their absorption and scattering properties.

Highly responsive and rapid hydrogen peroxide-triggered degradation of polycaprolactone nanoparticles.

We synthesized an oxidation-responsive polycaprolactone (O-PCL) bearing pendant arylboronic esters as H2O2-responsive motifs. H2O2 induces fast depolymerization of O-PCL within days. Nanoparticles formulated from O-PCL disintegrate and release payload in response to concentrations of H2O2 (50 μM) that are relevant to human disease.