Contributions to nephrology
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Recent large clinical trials have reported that despite the maintenance of target hemoglobin (Hb) levels, higher doses of erythropoiesis-stimulating agents (ESAs) and/or iron preparations are significantly associated with higher risks of adverse events and death in maintenance hemodialysis (MHD) patients. Higher doses of ESAs have been demonstrated to result in a higher risk for cardiovascular disease due to elevated blood pressure or increased thrombogenicity. In addition, a high dose of iron might enhance inflammatory responses to infection and impair the phagocytic function of neutrophils. ⋯ Patients with hyporesponsiveness to ESAs or dysutilization of iron for erythropoiesis tend to be treated with ESAs or iron at doses exceeding the physiological level. However, the optimal doses of ESAs and iron for maintaining target Hb levels in these patients are not well established. Thus, from the perspective of long-term survival in chronic kidney disease patients, it is necessary to treat anemia with appropriate doses of ESAs and an iron that can induce physiological erythropoiesis.
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The acute reduction of kidney function in critically and noncritically ill patients (regardless of their age) is one of the deadliest clinical conditions ever reported in modern medicine. Acute kidney injury (AKI) symptoms are sneaky and potentially difficult to be identified at the right time at the bedside. One of the greatest efforts of the recent history of critical care nephrology has been to find a common classification for AKI definition and staging with the purpose of allowing a timely diagnosis and push forward epidemiologic research. ⋯ AKI is currently defined by the Kidney Disease Improving Global Outcomes (KDIGO) consensus classification that applies conventional serum creatinine and urine output (UO) criteria. According to a recent large epidemiologic study, this classification led to the confirmation that AKI occurs in about half of adult critically ill patients admitted to the intensive care unit and that a stepwise increase in mortality is associated with the severity of AKI along KDIGO stages. Both serum creatinine and UO have inherent limitations in accurately diagnosing abrupt decreases of renal function, but their common and easy application in routine clinical practice is currently considered the standard of care for AKI diagnosis. Pediatric and neonatal AKI have recently been described and specific staging with KDIGO modification has been proposed. Key Messages: AKI is frequent in critically ill patients and significantly affects intensive outcomes independent of other clinical factors. AKI can be diagnosed and its severity accurately staged by the KDIGO classification and its modification for pediatric patients. Serum creatinine and UO criteria are applied in order to diagnose and stage AKI. Despite some significant limitations of these commonly applied biomarkers, their application has made it possible to clearly appraise the importance of accurate AKI identification in clinical practice in several studies for prognostic and therapeutic purposes.
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Patients who have undergone cardiac surgery are at high risk of acute kidney injury (AKI) and often associated with poor short- and long-term outcomes. It is considered that the burden of AKI can be reduced and the quality of care can be improved by raising the appropriate awareness and using the right tools for early prevention and better management, by (1) improving awareness by understanding the epidemiology and pathophysiology; (2) using tools for risk assessment for early prevention; (3) increasing the use of electronic screening for early diagnosis; and (4) developing right clinical strategies for better treatment. In this review, we will update some typical studies as well as some new concepts, which focus on the quality of care of CSA-AKI.