Publications by authors named "G Reilly"
Objective: Prolonged sedentary behaviour is associated with numerous negative health outcomes. Immersive virtual reality (IVR) offers opportunities for retired and non-working adults to take part in meaningful non-sedentary activities that may not be available to them in their natural environment. Using the behaviour change wheel and theoretical domains framework, an IVR intervention prototype was developed.
View Article and Find Full Text PDFAnalysis of cutting forces and microdamage during indentation cutting of bone.
J Mech Behav Biomed Mater
December 2024
Article Synopsis
- In surgery, wedge-shaped blades are used to cut bone, but there's little research on how blade shape affects cutting forces and resultant microdamage.
- The study tested compact bovine bone with various wedge blade geometries, identifying significant relationships between blade angle, edge radius, orientation, cutting force, and microdamage.
- Results indicated a direct correlation between the cutting force and the level of microdamage, enhancing our understanding of the biomechanics involved in surgical bone cutting.
The COVID-19-Curated and Open Analysis and Research Platform (CO-CONNECT) project worked with 22 organizations across the United Kingdom to build a federated platform, enabling researchers to instantaneously and dynamically query federated datasets to find relevant data for their study. Finding relevant data takes time and effort, reducing the efficiency of research. Although data controllers could understand the value of such a system, there were significant challenges and delays in setting up the platform in response to COVID-19.
View Article and Find Full Text PDFArticle Synopsis
- Combining emulsion templating with additive manufacturing creates porous scaffolds that support cell growth, though achieving a balance of micropores is challenging.
- Previous studies suggested using specific light absorbers and photoinitiators in resin for better printing resolution and internal structures.
- This study found that adding 0.08 wt% tartrazine improved cell adhesion and proliferation, demonstrating that high internal phase emulsion resins can effectively create complex bone-like structures for biomedical applications.
Article Synopsis
- The study focuses on creating new biomaterials, specifically degradable polymer microparticles, to improve treatments for skeletal defects.* -
- Researchers developed round polycaprolactone-based microspheres that support bone cell growth for 30 days and enable the deposition of a bone-like extracellular matrix.* -
- These microspheres show greater potential as bone graft substitutes due to enhanced cell survival and differentiation, which could lead to better outcomes in bone repair.*