ABSTRACT
BACKGROUND AND AIMS: Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection has been in our daily practice for almost 2 years now. Since the beginning of the pandemic, we have aimed to study its most immediate effects on patients to find the best line of treatment or, at least, mitigate its worst outcomes. Nevertheless, we also know some long-term health consequences such as fatigue, sleep difficulties, headache, among others, but its long-term kidney effects are not entirely clear yet. The aim of this study was to describe if coronavirus disease's (COVID- 19) severity increases the risk of chronic kidney disease (CKD) progression after a previous hospitalization and observe if there are any additional risk factors that could help us predict this outcome. METHOD: In this study, a sample of consecutive patients who required admission due to COVID-19 during the first wave of the pandemic (from March to May of 2020) was recruited. Patients were followed for 12 months since initial admission. The composite outcome of the study included either death or CKD progression. CKD progression was defined as incremental progression to a higher KDIGO CKD stage compared to baseline pre COVID-19 renal function [(in mL/min/1.73 m2): estimated glomerular filtration rate (eGFR) ≥60;stage 3a: 45-59;stage 3b: 30-44;stage 4: 15-29;stage 5: <15], or dialysis initiation. Cardiovascular disease was defined as a history of myocardial infarction, stroke, or peripheral vascular disease. Chronic lung diseases included asthma, chronic obstructive pulmonary disease and chronic bronchitis. RESULTS: The sample was composed of 93 patients, of which 14 (15.1%) died during follow-up. Of those alive 12 months after initial admission, 17 (21.5%) suffered CKD progression. No patient required renal replacement therapy. Patients that suffered the composite outcome presented a higher prevalence of cancer, tended to be slightly older and suffered from additional comorbidities more frequently (Table). In multivariate logistic regression analysis, previous history of CKD [odds ratio (OR): 1.066 (0.433- 2.624);P = 0.889], severe or critical COVID-19 on admission [OR: 0.657 (0.24-1.8);P =0.414] or ICU admission [OR: 0.986 (0.082-11.898);P = 0.991] failed to predict the composite outcome. CONCLUSION: Our main hypothesis was that COVID-19 sequelae should be due to an exaggerated activation of the immune system against the virus. Thus, patients that suffered severe COVID-19 should be expected to develop more long-term health consequences of the infection when compared with those with milder disease. However, we failed to prove any link between COVID-19 severity and long-term CKD progression. History of CKD or ICU admission was also unable to predict the composite outcome. Previous studies have described a relationship between COVID-19 severity and adverse renal outcomes, a relationship that we failed to observe. These discrepancies could be due to the small sample size of our study and the different definition of CKD progression applied. In addition, age could act as a potential modifier of CKD progression after admission due to COVID. More studies are required to further clarify the mechanisms and long-term renal consequences of COVID-19 and define potential lines of treatment. (Table Presented).
ABSTRACT
BACKGROUND AND AIMS: During the last 2 years, we have witnessed several waves of the COVID-19 pandemic characterized by massive infections among the general population, sudden increases in the number of hospitalizations and variable rates of complications and mortality among patients. Acute kidney injury (AKI) has been described as a common and serious complication of COVID-19. However, multiple factors that are involved in the development of this complication have been modified throughout these months, including the appearance of new variants of the virus, the modification of treatment protocols or the advancement of vaccination among the general population. In this study, we aimed to compare the rates of AKI among patients who required admission due to COVID-19 in the first and current (sixth) waves of the pandemic. METHOD: Consecutive patients that required admission due to COVID-19 in a tertiary referral hospital during the first (March to May 2020) and current (December 2021) waves of the pandemic were enrolled in the study. Patient characteristics, rates of AKI incidence, 28-day mortality and in-hospital length of stay were compared between groups. Viral infection was confirmed by real-time RT-qPCR in all cases. AKI was defined according to the Kidney Disease: Improving Global Outcomes (KDIGO) guidelines using peak serum creatinine and acute dialysis criteria. Multivariate logistic regression was performed to define potential predictors of AKI. RESULTS: Table 1 summarizes demographic and clinical characteristics among enrolled patients. Compared with the current wave, patients admitted during the first wave were older, had higher baseline serum creatinine and lower baseline eGFR. During the first wave, patients presented higher peak serum creatinine values and a higher incidence of in-hospital AKI. Age, male sex, hypertension, diabetes, CKD and pandemic wave were included in multivariate logistic regression analysis as potential predictors of AKI. Only past history of hypertension [OR 2.867;95% confidence interval (95% CI) 1.279-6.424;P-value: .011] and CKD (OR 2.418;95% CI 1.237-4.73;P-value: .01) independently predicted AKI in the sample. CONCLUSION: Despite multiple changes that have occurred throughout the pandemic, including new treatment protocols, the appearance of new variants of the virus with different clinical profiles or the extensive application of vaccines, these changes have not translated into a significant decrease in the risk of AKI among patients admitted due to COVID-19, which appears to still be conditioned mainly by comorbidities of each patient, including past history of CKD. (Table Presented).