Clin Lab
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The critically ill polytrauma patient continues to be one of the most complex cases in the intensive care unit (ICU). The molecular damage is closely connected with the severe, specific pathophysiological imbalances, such as severe inflammation, infections, hypermetabolism, oxidative stress, and ultimately multiple organ dysfunction syndrome (MODS). ⋯ Furthermore, evaluation, monitoring, and therapy adaptation in this type of patient is closely related to the biochemical and molecular disorders.
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During the course of acute kidney injury (AKI) patients may require renal replacement therapy (RRT). The preferred therapeutic measure for such patients is continuous RRT (CRRT). Anticoagulation is required to prevent clotting of the extracorporeal circuit. The actual KDIGO guidelines recommend citrate as the first line anticoagulant. ⋯ Measuring Ca2+ concentrations could result in an overdosing or underdosing of citrate when using an analytical method which is different to the instrument used initially to achieve the recommended concentrations. If measurement of the new method results in lower Ca2+ concentration and, therefore, reduced anticoagulation by citrate infusion this could lead to more clotting events. Overestimation of the calcium concentration by the new method in the extracorporeal circuit would result in an increased citrate dose delivered to the patient, leading to in vivo hypocalcemia and a pronouncement of citrate induced acid base derangements. Therefore, to monitor Ca2+ concentrations in CRRT during citrate anticoagulation, specific target values for each individual instrument must be established.
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Red cell distribution width (RDW) is associated with mortality in patients with certain diseases. However, the relationship between RDW and burn patients remains unknown. The objective of this study was to evaluate the diagnostic and prognostic performance of RDW. ⋯ RDW can provide useful information about burn severity and outcome. It may be used as a monitoring index for the illness of burn.
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One of the most severe conditions specific to the critically ill polytrauma patient is traumatic brain injury and traumatic spinal cord injury. The mortality rate is high in the case of these patients, both because of the direct traumatic lesions, and because of the pathophysiological imbalances associated with trauma. Amongst the most common pathologies associated with the critically ill polytrauma patients responsible for a lower survival rate, are redox imbalance, systemic inflammatory response, infections, and multiple organ dysfunction syndrome. ⋯ A new era for biomarkers is represented by the expression of miRNAs. In the case of the critically ill polytrauma patient, using miRNAs' expression as biomarkers for the evaluation and monitoring of the molecular and pathophysiological dysfunctions can bring a range of valuable answers that could contribute to an increased survival rate.