Articles: cations.
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Observational Study
Diagnostic accuracy and added value of infection biomarkers in patients with possible sepsis in the Emergency Department.
Background: Biomarkers for early recognition of infection are warranted. The hypothesis of this study was that calprotectin, C-reactive protein (CRP), IL-6 and procalcitonin (PCT), alone or in combination, provide clinically useful information to the clinicians for early identification of infection in patients with possible sepsis in the emergency department (ED). Biomarker dynamics in the first week of hospitalization were explored. ⋯ Longitudinal samples revealed that IL-6 peaked in the ED, whereas CRP and PCT peaked later. Conclusion: C-reactive protein and IL-6 were superior to calprotectin and PCT for recognizing infection in patients with possible sepsis in the ED. Combining these two biomarkers with different dynamics improved recognition of infection and could aid clinical management in rapid response teams in the ED.
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Anesthesia, perioperative and critical care medicine are specific areas where registries, biobanks and big data are gaining a leading role in increasing knowledge and improving patients' care. The adoption of these robust data infrastructures - aimed at bridling, manipulating, aggregating, and linking patients' multiparametric data - supports anesthesiologists and intensive care physicians in several aspects of bedside practice and clinical research. Indeed, registries-integrated calculators may promote the concept of personalized medicine acting as "sniffers," electronic alarm systems, or decision support systems. ⋯ In a different way, the role of biobanks primarily relies on translational medical research. These allow rapidly creating pools of biological samples available for epidemiological description, pathophysiological definition, and treatment effectiveness verification, basically acting as an accelerator of knowledge production in critical care and perioperative medicine. Nowadays, registries and biobanks are thus routine tools for anesthesiologists and critical care physicians.
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Animal and human studies have shown that exercise prior to nerve injury prevents later chronic pain, but the mechanisms of such preconditioning remain elusive. Given that exercise acutely increases the formation of free radicals, triggering antioxidant compensation, we hypothesized that voluntary running preconditioning would attenuate neuropathic pain by supporting redox homeostasis after sciatic nerve injury in male and female rats. We show that 6 weeks of voluntary wheel running suppresses neuropathic pain development induced by chronic constriction injury across both sexes. ⋯ The protective effects of prior voluntary wheel running were mediated by Nrf2, as suppression was abolished across both sexes when Nrf2 activation was blocked during the 6-week running phase. This study provides insight into the mechanisms by which physical activity may prevent neuropathic pain. Preconditioning by voluntary wheel running, terminated prior to nerve injury, suppresses later neuropathic pain in both sexes, and it is modulated through the activation of Nrf2-antioxidant signaling.
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C5 palsy is a common postoperative complication after cervical fusion and is associated with increased health care costs and diminished quality of life. Accurate prediction of C5 palsy may allow for appropriate preoperative counseling and risk stratification. We primarily aim to develop an algorithm for the prediction of C5 palsy after instrumented cervical fusion and identify novel features for risk prediction. Additionally, we aim to build a risk calculator to provide the risk of C5 palsy. ⋯ We report a risk calculator that generates patient-specific C5 palsy risk after instrumented cervical fusion. Individualized risk prediction for patients may facilitate improved preoperative patient counseling and risk stratification as well as potential intraoperative mitigating measures. This tool may also aid in addressing potentially modifiable risk factors such as diabetes and obesity.