Perceptions of In-Home Usage Experience and Price: Results of Consumer Research on Nutritional Innovations for Improving Maternal and Child Nutrition in Ethiopia.

Despite progress in improving maternal and child nutrition, there are still high levels of stunting and anemia in Ethiopia, primarily caused by dietary diversity and low consumption of animal-sourced foods (ASFs). One promising solution is the utilization of egg powder, for it requires reduced transport and storage costs, has an extended shelf life, and versatile usage compared to whole eggs. A consumer research study conducted by Sight and Life (SAL) and the Ethiopian Public Health Institute (EPHI) aimed to explore opportunities for introducing powdered egg products targeting pregnant and lactating women (PLW) and children 6-60 months old in Ethiopia.

The effect of labour hopscotch framework on maternal and neonatal outcomes in pregnant women: A randomized controlled trial.

ClinicalTrials.gov IRCT20161106030750N2.

Synergy of Pyridinic-N and Co Single Atom Sites for Enhanced Oxygen Redox Reactions in High-Performance Zinc-Air Batteries.

Cobalt single-atom catalysts (SACs) have the potential to act as bi-functional electrocatalysts for the oxygen-redox reactions in metal-air batteries. However, achieving both high performance and stability in these SACs has been challenging. Here, a novel and facile synthesis method is used to create cobalt-doped-nitrogen-carbon structures (Co-N-C) containing cobalt-SACs by carbonizing a modified ZIF-11.

Argonaute2 modulates megakaryocyte development and sex-specific control of platelet protein expression and reactivity.

Platelets are enriched in miRNAs and harbor Ago2 as the principal RNA silencing Argonaute. However, roles in thrombopoiesis and platelet function remain poorly understood. We generated megakaryocyte/platelet-specific Ago2-deleted (Ago2 KO) mice and assessed proteomic and functional effects.

Eco-friendly and strong lignin-containing microfibrillated cellulose films for high-performance separators of aqueous zinc batteries.

Aqueous zinc-ion batteries have gained significant interest, offering several distinct advantages over conventional lithium-ion batteries owing to their compelling low cost, enhanced battery safety, and excellent environmental friendliness. Nevertheless, the unfortunate growth of zinc dendrites during cycling leads to poor electrochemical performance of zinc batteries, primarily attributed to the diminished wet mechanical properties and limited electrolyte uptake of existing commercial separators. Herein, a bio-based separator was developed from sustainable resources using natural polymers derived from wood pulp to replace fossil-based polyolefin separators.