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Priory Street
Coventry CV1 5FB
United Kingdom
Tel: +44 (0)24 7765 7688
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The use of a blended diet as an alternative to prescribed formula feeds has provoked strong opinion in research and among professionals. The aims of the report will be to examine the evidence for best practice with regards to providing a blended diet via gastrostomy tube.
Dr Christopher Mee's project looking at the ability of the liver to fully regenerate after injury.
A lifestyle intervention designed by people with POTS, for people with POTS.
Professor Mark Wheatley and collaborators from Aston University, Dr John Simms and Professor David Poyner, have been awarded a grant of £177,497 from the BBSRC Follow-on Fund to develop new technology that will potentially revolutionise the drug discovery process.
This project carried out a longitudinal evaluation of the model of care delivered to children, young people and families with complex care needs by organisation WellChild.
We seek to apply cutting-edge advanced sampling molecular dynamics simulations to address the complex biological issue of how G protein-coupled receptors (GPCRs) transition between multiple active states.
This project focused on enhancing physical activity with aging people through recreational football activities.
Professor Mark Wheatley and collaborators have been awarded a grant from the BBSRC to investigate the G-protein-coupled receptor (GPCR) family of proteins.
This research considers ways we can deliberately “manipulate” our predictive brains by using various interventions to modify our beliefs/expectations about an important perceptual-motor skills.
The aim of this project was to test the concept of a higher throughput functional cardiac cell contractile assay under truly physiological conditions, advancing information on how the heart behaves functionally and enabling the testing of inotropic drugs in these conditions.
Coventry University were tasked with providing a longitudinal evaluation of the Teenage Cancer Trust's pilot scheme in the North West.
The main focus of CARD is to support allied health professionals working in the NHS undertake translational research, particularly in the field of nursing.
This project examined the effect of engaging in the BWF Shuttle Time programme, compared to traditional Physical Education, on children's current and future engagement in sport and physical activity and health.
Using Real-Time Cell Metabolic Analysis to establish how physiological and pathophysiological concentrations of FA impact mitochondrial function, capacity and substrate utilisation in human skeletal muscle cells.
The commercialisation of Professor Maddock's academic research started with a vision that there was a fundamental need within the Pharmaceutical Industry for the development of improved physiological relevant model to assess cardiac contractility.
This study sought to pilot an innovative intervention for pre-schoolers whereby movement is linked to storytelling in a fun and accessible manner.
This study aims to characterise the molecular mechanisms and functions of a novel APT, ABHD16A.
The aim of this study was to investigate whether sex differences exist with regard to 5 km cycling time trial performance and affective responses following the ingestion of 300 ml caffeinated coffee, a placebo (coffee flavoured solution) and a control (no fluid).
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.
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.
Priory Street
Coventry CV1 5FB
United Kingdom
Tel: +44 (0)24 7765 7688
