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This project is a pilot of a teacher training intervention to deliver student-centred motor learning pedagogical approaches and improve primary school children’s motor competence and motivation in physical education
This work project aims to place value on the importance of physical activity in policy solutions in the medium - long term, as well as develop and validate short-term interventions in delivering health and economic outcomes to individuals and the Midlands economy.
The aim of the project is to develop a framework and valid tools that support the delivery of physical activity pathways across England. Physical activity pathways support people with/at risk of health conditions to become more active.
This study aims to characterise the molecular mechanisms and functions of a novel APT, ABHD16A.
The aim of the project is to assess heart rate variability using novel disposable ECG leads in healthy subjects, and to assess the agreement between heart rate variability measures obtained using disposable and reusable electrocardiography leads.
The goal of the project is to identify and subsequently characterise the dsRNA dimension of the animal gut microflora (both the differential presence of antisense bound to mRNA and phage dsRNAs containing novel genetic information in response to AB pressure). Identification of novel functional dsRNAs (asRNA bound to its target and phage dsRNAs involved in AR) will mark a paradigm shift in our understanding of the development of AR and future approaches to treating infections.
The large G protein coupled receptor (GPCR) family is a highly interesting target for drug design because a large proportion of current drugs bind to its members, and because the family offers much potential to exploit new targets.
Contractome-AI’s combination of novel assay and computational methods improves early detection of heart contractility issues, helping avoid expensive downstream problems.
The aim of the project is to develop a sustainable and environmentally friendly method to recover precious metals from electronic waste that will create a closed-loop system to recycle metals back into the supply chain as required in a sustainable circular economy.
Applications to Bioleaching technology to extract precious metals from Waste Electrical and Electronic Equipment (WEEE), whilst preserving the environment and preventing health-related issues worldwide.