The School Environment and Physical and Social-Emotional Well-Being: Implications for Students and School Employees.

Background: The school environment, consisting of the physical environment and social-emotional climate (SEC), plays a crucial role in both student and employee health; however, there is a lack of recent literature synthesizing school environment interventions in K-12 settings. We describe updated evidence about school environment interventions to support K-12 student and employee health in the United States.

Methods: A 2-phase search included a review of reviews (2010-2018), followed by a search for individual articles (2010-2020) that targeted school physical environment and/or SEC to address physical activity (PA) and/or nutrition.

The NIDDK High School Short-Term Research Experience for Underrepresented Persons.

Background: Increasing the pipeline of aspiring minority biomedical/health professionals is a crucial component to diversifying the health science workforce. The National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) created the High School Short-Term Research Experience for Underrepresented Persons (HS-STEP-UP) to provide introductory biomedical/biobehavioral research experiences to promising high school students, who are traditionally underrepresented in the biomedical/biobehavioral sciences. The program reaches out to African American and Lationo/Hispanic students, as well as Native American students and students from the United States Territories.

Phase transformation strengthening of high-temperature superalloys.

Decades of research has been focused on improving the high-temperature properties of nickel-based superalloys, an essential class of materials used in the hot section of jet turbine engines, allowing increased engine efficiency and reduced CO emissions. Here we introduce a new 'phase-transformation strengthening' mechanism that resists high-temperature creep deformation in nickel-based superalloys, where specific alloying elements inhibit the deleterious deformation mode of nanotwinning at temperatures above 700 °C. Ultra-high-resolution structure and composition analysis via scanning transmission electron microscopy, combined with density functional theory calculations, reveals that a superalloy with higher concentrations of the elements titanium, tantalum and niobium encourage a shear-induced solid-state transformation from the γ' to η phase along stacking faults in γ' precipitates, which would normally be the precursors of deformation twins.

Probing carbonate in bone forming minerals on the nanometre scale.

To devise new strategies to treat bone disease in an ageing society, a more detailed characterisation of the process by which bone mineralises is needed. In vitro studies have suggested that carbonated mineral might be a precursor for deposition of bone apatite. Increased carbonate content in bone may also have significant implications in altering the mechanical properties, for example in diseased bone.