Disorders affecting the neurological and musculoskeletal systems represent international health priorities. A significant impediment to progress in trials of new therapies is the absence of responsive, objective, and valid outcome measures sensitive to early disease changes. A key finding in individuals with neuromuscular and musculoskeletal disorders is the compositional changes to muscles, evinced by the expression of fatty infiltrates.
View Article and Find Full Text PDFBackground: Dermatological surgery contributes to the large environmental impact of healthcare, but to date there are no data on the current sustainability practices, attitudes, or behaviours of UK and Republic of Ireland health professionals involved in skin surgery.
Objectives: We sought to evaluate this using a national sustainability questionnaire, organised by the British Society for Dermatological Surgery.
Methods: Over 12-weeks, a 17-item online questionnaire was distributed nationally to healthcare professionals involved in skin surgery.
Hypoxic microenvironments induce widespread metabolic changes that have been shown to be critical in regulating innate and adaptive immune responses. Hypoxia-induced changes include the generation of extracellular adenosine followed by subsequent signaling through adenosine receptors on immune cells. This evolutionarily conserved "hypoxia-adenosinergic" pathway of hypoxia → extracellular adenosine → adenosine receptor signaling has been shown to be critical in limiting and redirecting T cell responses including in tumor microenvironments and the gut mucosa.
View Article and Find Full Text PDFThis two-part review addresses the pressing need for environmental sustainability in dermatological surgery, driven by the NHS's commitment to net-zero emissions. Part 2 of this review extends the discussion of sustainability in dermatological surgery by focusing on system-wide changes in service delivery and identifying future opportunities for reducing environmental impact. Building on the strategies outlined in Part 1, which explored low-carbon alternatives and operational resource optimisation, Part 2 advocates for a comprehensive shift in the skin surgery service.
View Article and Find Full Text PDFClin Exp Dermatol
October 2024
This two-part review addresses the pressing need for environmental sustainability in dermatological surgery, driven by the NHS's commitment to net-zero emissions. Part 1 focuses on strategies to reduce the carbon intensity of dermatological procedures by adopting low-carbon alternatives and optimising operational resource usage. Key strategies for a system-wide reduction in environmental impact include using leveraging local suppliers to reduce transport emissions, streamlining care models, promoting efficient waste management, and using mindful prescribing practices.
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