Sosa Grau (nightlip80)

Promoting and supporting Indigenous health includes ensuring health services reflect local concepts of health. There is, therefore, a need to better understand context-specific Indigenous understandings of health in order to design culturally appropriate health services. To this end, this study characterized two Shawi communities' understandings of what it means to be healthy. Using a community-based participatory research approach, 40 semi-structured interviews and a series of informal interviews were conducted and analysed thematically, using a constant comparative method. The Shawi definition of health extended beyond individual physical welfare and focused on emotional, collective, and environmental wellbeing. The primary factors underlying Shawi perceptions of health and wellbeing included providing for the family, ensuring the welfare of others, maintaining positive social relationships, preserving traditional values and practices, and living harmoniously with the natural environment. Conversely, Shawi classified illnesses according to their cause or treatment. These included illnesses caused by sorcery, those caused by spirits of the forest, and 'new diseases,' that first appeared in the communities when they were contacted by the Western civilization, for which no traditional remedies existed. Consequently, according to Shawi, sociocultural, environmental, and climatic changes are posing imminent health threats. This study highlights the differences between biomedical and Indigenous Shawi health understandings, and therefore emphasizes the importance of acknowledging and embracing Shawi culture and beliefs within the formal healthcare system. The biological consequences of absorbed radiation doses are ill-defined for radiopharmaceuticals, unlike for external beam radiotherapy (EBRT). A reliable assay that assesses the biological consequences of any radionuclide is much needed. Here, we evaluated the cell-free plasmid DNA assay to determine the relative biological effects of radionuclides such as Auger electron-emitting [ Ga]GaCl or [ In]InCl compared to EBRT. Supercoiled pBR322 plasmid DNA (1.25 or 5 ng/μL) was incubated with 0.5 or 1 MBq [ Ga]GaCl or [ In]InCl for up to 73 h or was exposed to EBRT ( Cs; 5 Gy/min; 0-40 Gy). The induction of relaxed and linear plasmid DNA, representing single and double strand breaks, respectively, was assessed by gel electrophoresis. Chelated forms of Ga were also investigated using DOTA and THP. Topological conversion rates for supercoiled-to-relaxed (k ) or relaxed-to-linear (k ) DNA were obtained by fitting a kinetic model. DNA damage increased both with EBRT dose and incubation time NA assay for a rapid determination of the relative biological effects of radionuclides compared to external beam radiotherapy. It is envisaged this approach will enable the systematic assessment of imaging and therapeutic radionuclides, including Auger electron-emitters, to further inform radiopharmaceutical design and application. This study aimed to develop and validate a nomogram to recognize in-hospital cardiac arrest (CA) in patients with acute coronary syndrome (ACS). This multicenter case-control study reviewed 164 ACS patients who had in-hospital CA and randomly selected 521 ACS patients with no CA experience. We randomly assigned 80% of the participants to a development cohort, 20% of those to an independent validation cohort. The least absolute shrinkage and selection operator (LASSO) regression model was used for data dimension reduction, and multivariable logistic regression analysis was used to develop the CA prediction nomogram. Nomogram performance was assessed with respect to discrimination, calibration, and clinical usefulness. Seven parameters, including chest pain, Killip class, potassium, BNP, arrhythmia, platelet count, and NEWS, were u