\n\nMethods/Design: This prospective proof of concept study, currently being conducted in two London boroughs, (Southwark and Lambeth) aims to reduce the incidence
of both fires and falls in community-dwelling older adults. It comprises two concurrent 12-month interventions: the integration of 1) fall risk assessments into the Brigade’s Home Fire Safety Visit and 2) fire risk assessments into Falls services see more by inviting older clinic attendees to book a Visit. Our primary objective is to examine the feasibility and effectiveness of these interventions. Furthermore, we are evaluating their acceptability and value to key stakeholders and services users.\n\nDiscussion: If our approach proves feasible and the risk assessment is both effective and acceptable, we envisage advocating a partnership model of Acadesine working more broadly to fire and
rescue services and health services in Britain, such that effective integration of preventative services for older people becomes routine for an ageing population.”
“OBJECTIVE: To develop a quantitative means to measure lung inflammation using the murine models of chronic asthma and cystic fibrosis (CF).\n\nSTUDY DESIGN: Translational-based medicine often utilizes animal models to study new and innovative therapeutics. In asthma and CF, the animal models focus on airway inflammation and remodeling. The asthma model is based on hypersensitivity-induced airway disease, whereas the CF model focuses on the inflammatory response to infection with Pseudomonas aeruginosa. Qualitative measures of inflammation
and lung pathophysiology introduce significant variability and difficulty in interpreting interventional outcomes. The highly sensitive and reproducible quantitative computational program interfaced with Image Pro Microscopy to monitor changes in lung inflammation and lung pathophysiology. The software interfaces with image microscopy and automates the lung section review process.\n\nRESULTS: Results from this program recapitulated data obtained by selleck inhibitor manual point counting of inflammation, bronchoalveolar lavage differential, and histology. The data show a low coefficient of variation and high reproducibility between slides and sections.\n\nCONCLUSION: Utilization of this new microscopy program will enhance the quantitative means of establishing changes in lung structure and inflammation as a measure of therapeutic intervention with the ability of refining interpretation of in vivo models potentially short-circuiting translation into the clinical setting. (Anal Quant Cytol Histol 2011;33:245-252)”
“We describe four children with a devastating encephalopathy characterised by refractory focal seizures and variable liver dysfunction. We describe their electroencephalographic, radiologic, genetic and pathologic findings.