Articles: intensive-care-units.
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Complex challenges face clinicians managing critically ill patients with burns, particularly in the context of enhancing outcomes after a stay in ICU. Compounding this, a dearth of research explores the specific and modifiable factors that impact early mobilization in the ICU environment. ⋯ Patient, clinician and workplace barriers and enablers were identified to influencing the likelihood of achieving early mobilization of patients with burns in the ICU. Emotional support for staff through multidisciplinary collaboration and development of structured burns training program were key recommendations to address barriers and strengthen enablers to early mobilization of patients with burns in the ICU.
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Blood sampling for diagnostic testing causes blood loss. Small-volume tubes have the same cost, dimensions, and blood-draw techniques as standard-volume tubes, and are compatible with laboratory equipment; however, they are not commonly used. We sought to assess the feasibility of a stepped-wedge cluster trial to determine whether small-volume tubes reduce transfusion compared with standard-volume tubes in intensive care unit (ICU) patients. ⋯ ClinicalTrials.gov (NCT03284944); registered 15 September 2017.
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Current publications on the topic of communication in intensive care units (ITS) are shaped by the experiences of the COVID19 pandemic and the restrictions on personal contact and communication experienced during this time. Virtual, computer-based and telemedical concepts have grown out of this situation with limited contact and communication possibilities with patients and their relatives, but also between the individual service providers in the health system. It can also be assumed that artificial intelligence will increasingly be an issue in communication in intensive care units in the coming years. However, the significance, consequences and risks of the use of these new possibilities remain to be seen.
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Purpose: Intensive care unit-acquired weakness (ICUAW) is a severe neuromuscular complication that frequently occurs in patients with sepsis. The precise molecular pathophysiology of mitochondrial calcium uptake 1 (MICU1) and mitochondrial calcium uniporter (MCU) in ICUAW has not been fully elucidated. Here, we speculate that ICUAW is associated with MICU1:MCU protein ratio-mediated mitochondrial calcium ([Ca 2+ ] m ) uptake dysfunction. ⋯ However, MICU1 prophylactic overexpression reversed these effects by increasing the MICU1:MCU protein ratio. Conclusions: ICUAW is associated with impaired [Ca 2+ ] m uptake caused by a decreased MICU1:MCU protein ratio. MICU1 overexpression improves sepsis-induced skeletal muscle weakness and atrophy by ameliorating the [Ca 2+ ] m uptake disorder.