A CLINICAL CASE OF SARS-CoV-2 INFECTION COMPLICATED BY NEPHROGENIC PULMONARY EDEMA AND COVID-ASSOCIATED PNEUMONITIS, ALVEOLITIS.

COVID-19 is a highly transmissible disease with severe course especially in patients with nephrogenic hypertensive disease and chronic kidney disease due to a higher incidence of all-type infections than in the general population. The aim of the study is to describe a clinical case of SARS-CoV-2 infection complicated by nephrogenic pulmonary edema and COVID-associated pneumonitis, alveolitis. Description of the case. Patient K.S., born in 1975, was hospitalized 24 hours after symptom onset at emergency hospital due to complaints of increased blood pressure up to 180-200/110-120 mm Hg, temperature up to 38.7degreeC, dry cough, feeling of heaviness in the chest, change in urine color. PCR smear for SARS-CoV-2 was positive. Computed tomography revealed a pattern of bilateral COVID-associated pneumonitis, alveolitis, with 75% involvement. The electrocardiogram revealed signs of left ventricular myocardial hypertrophy. Ultrasound examination showed numerous cysts in the kidneys. Urinalysis at admission: leukocytes - 499, erythrocytes - 386. Glomerular filtration rate (CKD-EPI: 29 ml/min/1.73 m2) and corresponds to stage IV of chronic kidney disease. Coagulogram: fibrinogen: 32.3 (1.6-4.0) g/l, D-dimer: 663 (0-250). Despite the treatment, the patient's condition worsened, the phenomena of cardiopulmonary and renal insufficiency increased, which led to a fatal outcome. During a virological study of sectional material: SARS-CoV-2 coronavirus RNA was found in the lung and kidneys. Signs of bilateral COVID-associated pneumonitis, alveolitis with diffuse cellular infiltrates in combination with changes in the alveolar apparatus, signs of pulmonary edema were revealed. Heart-related signs - swelling of the interstitium, fragmented muscle fibers, some of them hypertrophied, a wave-like deformation of cardiomyocytes, blurring of the transverse striation. Arteries with thickened sclerosed walls. In the kidneys - diffuse damage to the proximal tubules of the nephron with areas of cortical and proximal necronephrosis, areas of fibrinoid swelling. Conclusion. The cause of death of a 45-year-old patient was a severe course of bilateral COVID-associated pneumonitis, alveolitis, which contributed to the development of renal medullary hypoxia and type 1 cardiorenal syndrome, which led to early nephrogenic pulmonary edema.Copyright © 2023 Saint Petersburg Pasteur Institute. All rights reserved.

Mechanisms of kidney injury in COVID-19 and diagnostic methods.

The COVID-19 pandemic is a global healthcare crisis. The frequency of acute kidney injury (AKI) in patients with COVID-19 and the features of its diagnostics indicate the relevance of the topic. Objective of the review. To analyze mechanisms of AKI development in patients with COVID-19 and provide support for methodological approaches to ensure its timely diagnosis. Material and methods. The methodological approaches used in the review are based on a sufficient number of literature sources (more than 150 sources), of which 34 articles are included in the review: 15 original studies, 12 reviews, 2 meta-analyses, 5 re-ports, and letters to the editor. Results. The mechanisms of AKI development and progression, including the direct cytotoxic effect of the SARS-CoV-2 virus, dis-ruption of metabolic pathways of renal blood flow regulation, and the complement system, are considered. We also analyzed AKI risk factors in patients with acute respiratory distress: diabetes mellitus, chronic kidney injury, arterial hypertension with im-paired NOx production, and eNOS expression as significant factors of vasodilation in renal microcirculatory vessels. The analy-sis showed the most perspective directions in the diagnostics of AKI functional stages. These include molecular test methods (pro-teome and metabolome) in blood and urine;they helped define damage markers to proximal tubules and the glomerular system, thus improving the diagnostics accuracy and validity, therapy efficiency, and end points of disease prognosis. Conclusion. The Coronado study aims to assess the phenotypic features of patients with diabetes mellitus and COVID-19. More specific markers of the acute kidney injury functional stage were determined;these markers will improve the diagnostics accuracy and validity, therapy efficiency, and end points of disease prognosis.Copyright © 2023, Media Sphera Publishing Group. All rights reserved.

Proximal Tubular Dysfunction as a Predictor of Aki in Hospitalized Covid-19 Patients

Introduction: Severe acute respiratory syndrome coronavirus 2 associated pneumonia (COVID-19) is a modern pandemic. Recent evidence suggests that kidney is an important target organ in COVID-19. High concentration of Angiotensin converting enzyme receptors in the proximal tubules make them an early target. Proximal tubular dysfunction (PTD) may act as an early predictor of acute kidney injury (AKI), need for renal replacement therapy (RRT), intensive care unit (ICU) transfer, mechanical ventilation, hospital length of stay (LOS) and death. Method(s): This prospective observational study was conducted in the COVID unit, Bangabandhu Sheikh Mujib Medical University. 87 COVID-19 patients without preexisting kidney disease were screened for markers of PTD on admission. Patients having at least 2 of the 4 defining markers of PTD (inappropriate uricosuria, renal phosphate leak, normoglycemic glycosuria and proteinuria) positive on admission were considered to have PTD. 35 patients with PTD and 35 without PTD were followed up throughout their hospital stay and compared. Result(s): 52.9% of the patients had at least 2 of the 4 defining markers of PTD positive on admission. The most prevalent markers were proteinuria (66.7%), followed by hyperuricosuria (42.5%), renal phosphate leak (28.7%) and normoglycemic glycosuria (20.7%). Also, 67% patients had renal sodium leak and 32.2% patients had renal potassium leak. Mean age was 55.7 years. 50% of the patients were diabetic. The PTD group had significantly lower oxygen saturation and higher parenchymal involvement on HRCT chest, CRP and LDH compared to the non PTD group on admission. 32.9% patients developed AKI during their hospital stay. PTD group had higher odds of developing AKI (odds ratio 17.5 for stage 1, 24.8 for stage 2 and 25.5 for stage 3;p<0.0001). The mean duration of hospital stay was 9 days higher in the PTD group (p<0.001). PTD group also had higher odds of transferring to ICU (OR=9.4, p=0.002), need for mechanical ventilation (OR=10.1, p=0.002) and death (OR=10.3, p=0.001). There was complete recovery of PTD in 32.6% and complete renal recovery in 47.8% of patients during their hospital stay. 26.1% of the patients who developed AKI required hemodialysis. 11.4% of all patients died. Conclusion(s): Proximal tubular dysfunction is highly prevalent in COVID-19 patients very early in the disease and may act as a predictor of AKI, ICU transfer, need for mechanical ventilation and death. No conflict of interestCopyright © 2023

Mechanisms of kidney injury in COVID-19 and diagnostic methods

The COVID-19 pandemic is a global healthcare crisis. The frequency of acute kidney injury (AKI) in patients with COVID-19 and the features of its diagnostics indicate the relevance of the topic. Objective of the review. To analyze mechanisms of AKI development in patients with COVID-19 and provide support for methodological approaches to ensure its timely diagnosis. Material and methods. The methodological approaches used in the review are based on a sufficient number of literature sources (more than 150 sources), of which 34 articles are included in the review: 15 original studies, 12 reviews, 2 meta-analyses, 5 re-ports, and letters to the editor. Results. The mechanisms of AKI development and progression, including the direct cytotoxic effect of the SARS-CoV-2 virus, dis-ruption of metabolic pathways of renal blood flow regulation, and the complement system, are considered. We also analyzed AKI risk factors in patients with acute respiratory distress: diabetes mellitus, chronic kidney injury, arterial hypertension with im-paired NOx production, and eNOS expression as significant factors of vasodilation in renal microcirculatory vessels. The analy-sis showed the most perspective directions in the diagnostics of AKI functional stages. These include molecular test methods (pro-teome and metabolome) in blood and urine;they helped define damage markers to proximal tubules and the glomerular system, thus improving the diagnostics accuracy and validity, therapy efficiency, and end points of disease prognosis. Conclusion. The Coronado study aims to assess the phenotypic features of patients with diabetes mellitus and COVID-19. More specific markers of the acute kidney injury functional stage were determined;these markers will improve the diagnostics accuracy and validity, therapy efficiency, and end points of disease prognosis.

Lack of Evidence for Kidney Invasion by SARS-CoV-2 in a Lethal Mouse Model

Background: There is an ongoing controversy as to whether SARS CoV-2 can infect the kidney parenchyma directly. To date, the presence of SARS CoV-2 in the kidney has been described mainly post-mortem in autopsy studies of patients who died of or with COVID-19, but this has not been examined in an experimental model where the timing of SARS-CoV-2 infection can be defined. We used transgenic mice expressing human ACE2 (k18hACE2) susceptible to lethal SARS-CoV-2 infection to study this issue directly on kidney tissue taken at defined time points and using lung tissue as positive control. Method(s): Transgenic k18hACE2 mice were inoculated with 3x104 PFU SARSCoV-2 in a BSL-3 facility. Kidneys and lungs were removed from the animals sacrificed on days 5 to 7 and used for histology (PAS-staining), immunofluorescence (IF) of the S1 spike protein of SARS-CoV-2 and measurement of viral load by plaque assay. Kidney samples were additionally evaluated by IF using kidney injury markers NGAL and KIM-1. Result(s): Kidney tissue stained using an anti-S1-spike antibody showed negative results in all samples (n=15). By plaque assay, viral titers were also not detectable in any of the kidneys. By contrast, lungs from infected mice showed strong staining for the S1 spike protein in 13 of 14 cases and this was associated with positive viral titers in all lung samples. Despite severe lung disease, only mild and variable kidney damage was observed by histopathology. Positive staining for NGAL in the proximal tubules was consistently seen, while KIM-1 staining was rarely positive. Conclusion(s): In a transgenic mouse model with lethal SARS-CoV-2 infection and severe lung but mild kidney disease there is no evidence of S1 spike protein in the kidney, which is consistent with lack of detection of replicating virus by plaque assay.

PREVALENCE OF COVID-ASSOCIATED RENAL INJURY IN ICU AND PROGNOSIS OF PROXIMAL TUBULAR DYSFUNCTION IN ACUTE RESPIRATORY DISTRESS SYNDROME

BACKGROUND AND AIMS: During COVID-19, the renal impairment is the most frequent after lung impairment and is associated of poor prognosis particularly in the intensive care unit (ICU). In this work, we aim to assess the incidence of acute kidney injury (AKI) in COVID-19-related acute respiratory distress syndrome (ARDS) patients, the existence of an early renal dysfunction and its prognosis, and its specificity compared with patients with non-COVID ARDS. METHOD: This a prospective and multicentric study led in four ICUs. Patients of 18 years and older in ICU with invasive mechanical ventilation for ARDS were enrolled. Precise evaluation of renal dysfunction markers, including urinary protein electrophoresis, was performed within 24 h after the onset of mechanical ventilation. RESULTS: From March 2020 to September 2021, 131 patients in ICU for ARDS were enrolled, 98 COVID-19 ARDS and 33 ARDS from other causes. There was more tubular profile in COVID-19 patients (68% versus 24%;P = .001) and a more mixed, tubular and glomerular profile in non-COVID-19 patients (29% versus 14%;P = .001). COVID-19 patients displayed an important tubular proteinuria, tended to display more AKI (49% versus 31%;P = .07), and had a longer duration of mechanical ventilation (18 versus 10 days;P = .002) and longer ICU length of stay (23 versus 15 days;P = .013). In COVID-19 patients, tubular proteinuria was associated with poor renal prognosis with a significant association with the onset of KDIGO ≥ 2 AKI. CONCLUSION: COVID-19 ARDS patients had a specific renal impairment with tubular dysfunction, which appeared to be of poor prognosis on kidney and disease evolution.

PATHOLOGICAL CHANGES IN THE KIDNEYS IN PATIENTS WITH ACUTE RENAL INJURY DUE TO CORONAVIRUS INFECTION

INTRODUCTION AND OBJECTIVE: Acute kidney injury (AKI) in coronavirus infection (COVID-19) caused by the SARS-CoV-2 virus is much more common than previously thought and is associated with severe disease and high mortality. Despite the fact that the respiratory and immune systems are the main targets of the COVID- 19 virus, AKI is also observed, identified by the occurrence of proteinuria or hematuria, an increase in serum urea and creatinine levels. The aim of the study is to assess the pathomorphological changes in the kidneys in 100 cases of autopsy of patients with COVID-19 using light microscopy and immunohistochemical diagnostic methods in order to clarify the possible mechanism of AKI. METHODS: The study was carried out using samples obtained from 100 patients, the time interval of the onset of the disease corresponded to the 4th wave of the peak of the incidence in Russia (from June 2021). The age of patients varied from 37 to 94 years 72 (s =12.5), men - 34, women - 66. Patients with chronic kidney disease, diabetes mellitus and cancer were not included in the analysis. The cause of death in all cases was acute respiratory failure, histologically defined as diffuse alveolar injury. AKI in accordance with the KDIGO criteria was detected in 34 patients. RESULTS: On light microscopy, diffuse massive damage to the proximal tubules with loss of the brush border, degeneration of vacuoles was detected in 46 patients, massive necrosis of the tubules in 11 patients. In 65 patients, an extremely pronounced congestion of paretic dilated vessels with widespread paravasal hemorrhages was revealed. Paravasal lymphoid infiltration of the vascular endothelium was detected in 27 patients. Severe sludge syndrome in small and medium-sized vessels in 46 patients. In almost all cases, hemosiderin granules and hyaline casts were found. The quantitative and qualitative composition of tissue macrophages corresponded to the population data, without visible correlations with the disease. CONCLUSIONS: According to the study, the factors contributing to AKI include systemic hypoxia, abnormal coagulation, increased catabolism due to fever, drug-related rhabdomyolysis or hyperventilation with increased serum degradation products. Thus, our research provides evidence for AKI during the progression of COVID-10. These results contribute to a better understanding of the course and progression of SARS-CoV-2 virus infection.

Long Term Culture of Human Kidney Proximal Tubule Epithelial Cells Maintains Lineage Functions and Serves as an Ex vivo Model for Coronavirus Associated Kidney Injury.

The mechanism of how SARS-CoV-2 causes severe multi-organ failure is largely unknown. Acute kidney injury (AKI) is one of the frequent organ damage in severe COVID-19 patients. Previous studies have shown that human renal tubule cells could be the potential host cells targeted by SARS-CoV-2. Traditional cancer cell lines or immortalized cell lines are genetically and phenotypically different from host cells. Animal models are widely used, but often fail to reflect a physiological and pathogenic status because of species tropisms. There is an unmet need for normal human epithelial cells for disease modeling. In this study, we successfully established long term cultures of normal human kidney proximal tubule epithelial cells (KPTECs) in 2D and 3D culture systems using conditional reprogramming (CR) and organoids techniques. These cells had the ability to differentiate and repair DNA damage, and showed no transforming property. Importantly, the CR KPTECs maintained lineage function with expression of specific transporters (SLC34A3 and cubilin). They also expressed angiotensin-converting enzyme 2 (ACE2), a receptor for SARS-CoV and SARS-CoV-2. In contrast, cancer cell line did not express endogenous SLC34A3, cubilin and ACE2. Very interestingly, ACE2 expression was around twofold higher in 3D organoids culture compared to that in 2D CR culture condition. Pseudovirion assays demonstrated that SARS-CoV spike (S) protein was able to enter CR cells with luciferase reporter. This integrated 2D CR and 3D organoid cultures provide a physiological ex vivo model to study kidney functions, innate immune response of kidney cells to viruses, and a novel platform for drug discovery and safety evaluation.