Literature DB >> 32299479

Acute kidney injury in SARS-CoV-2 infected patients.

Vito Fanelli¹, Marco Fiorentino², Vincenzo Cantaluppi³, Loreto Gesualdo⁴, Giovanni Stallone⁵, Claudio Ronco⁶, Giuseppe Castellano⁷.

Abstract

Entities: Chemical Disease Gene Species

Mesh：

Year: 2020 PMID： 32299479 PMCID： PMC7161433 DOI： 10.1186/s13054-020-02872-z

Source DB: PubMed Journal: Crit Care ISSN： 1364-8535 Impact factor: 9.097

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Background

Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) is the pathogen responsible of atypical pneumonia that has affected more than 330,000 people and caused death of more than 14,000 patients (as of March 23, 2020, WHO Report). Coronavirus spike (S) glycoproteins mediate entry into cells end predominantly lung epithelial alveolar cells precipitating an interstitial pneumonia that evolves through acute respiratory distress syndrome (ARDS) [1]. Interestingly, about 25% of acute kidney injury (AKI) occurrence has been reported in this clinical setting [2, 3]. These data were recently confirmed by the Italian Report of “Istituto Superiore di Sanità” describing an incidence of 27.8% in more than 2000 patients (updated on 17 March) (https://www.epicentro.iss.it/coronavirus/bollettino/Report-COVID-2019_17_marzo-v2.pdf). In this commentary, we discuss possible mechanisms of the COVID-19-induced AKI, indicating potential new approaches for risk stratification of SARS-CoV-2 infected patients that may help clinical decision in this emerging scenario.

Main text

AKI represents a life-threatening complication in critically ill patients, often leading to increased risk of death. As recently reported by Wilson et al., the onset of moderate-to-severe AKI described a higher-risk subset of ARDS patients, with a significant risk for mortality [4]. Considering the possible pathogenic mechanisms of AKI-associated ARDS, AKI may be ascribed to different causes such as impairment of gas exchange, hemodynamic alterations including right heart failure, fluid overload and systemic congestion, injurious mechanic ventilation strategies, and development of secondary infections/sepsis. Several studies emphasized the relevance of the inflammatory/immune-mediated reaction with the release of high levels of circulating harmful mediators capable to interact with kidney-resident cells causing endothelial dysfunction, microcirculatory derangement, and tubular injury [5]. In accordance with previous studies, the beta coronaviruses SARS-CoV and the most recent SARS-CoV-2 use angiotensin-converting enzyme 2 (ACE-2) as receptor to facilitate viral entry into target cells; ACE-2 is also located on the surface of kidney tubular cells, and their infection may worsen the local inflammatory response and consequently the incidence and the duration of AKI episodes [6] (Table 1).

Table 1

Key points of acute kidney injury in SARS-CoV-2 infected patients

- AKI is frequently observed in ARDS patients affected by different comorbidities: similar findings were observed in Wuhan COVID-19 infected patients.
- ARDS-associated AKI may be ascribed to several causes including an inflammatory/immune reaction characterized by an enhanced release of circulating mediators able to interact and damage kidney-resident cells.
- Kidney epithelial cell viral infection may worsen local inflammatory response and consequently the incidence and the duration of AKI episodes.
- These comorbidities may be associated with a pre-existing chronic decline of kidney function (concept of renal functional reserve) and with a tendency to develop AKI episodes.
- Identification of patients with AKI may lead to a better allocation of hospital resources: early biomarkers of AKI may favor this process.
- The use of extracorporeal blood purification techniques and anti-viral therapies may theoretically limit the systemic and local inflammatory response at least in part responsible for multiple organ failures including AKI.

Key points of acute kidney injury in SARS-CoV-2 infected patients As described, AKI developed in average 9 days after admission together with secondary infections and acute cardiac damage [2, 3]. Age, severity of illness, and the presence of diabetes are risk factors for AKI in ARDS patients; moreover, the severity of AKI is further associated with BMI and history of heart failure also defined as cardio-renal syndrome [7]. Similar observations, including the presence of diabetes, have been reported for COVID-19-associated ARDS. All these risk factors added to the increased incidence of AKI in elderly lead to the hypothesis that renal complications are predominant in patients with pre-existing chronic impairment of kidney function that is difficult to evaluate based only on serum creatinine levels, thus claiming for the use of new biomarkers of early kidney injury. Therefore, determining the risk for developing AKI in SARS-CoV-2 infected patients or progressing to severe AKI requiring renal replacement therapies [8] is an important step for the patient’s prognosis and for early implementation of preventative and protective measures [7, 9]. Classical assessment of AKI is still based on serum creatinine and urine output, but they represent only indicators of established kidney damage. In this scenario, much attention has focused on novel biomarkers in the last years, particularly on markers of acute tubular stress/damage such as TIMP-2 (tissue inhibitor of metalloproteinase 2) and IGFBP7 (insulin-like growth factor binding protein 7) and their product [TIMP-2]*[IGFBP-7] identified using the NephroCheck Test [10]. This test has been set for the prediction of moderate to severe AKI within 12 h after ICU admission, and it is the only one approved by the Food and Drug Administration in this setting [11]. Several evidences suggested that the application of NephroCheck may help physicians to identify patients with tubular stress, before kidney dysfunction is manifested [12]. Critically ill patients are indeed exposed to several potential kidney insults in this setting (SARS-CoV-2 infection, drug nephrotoxicity, contrast media) during ICU stay; serial measurements of these biomarkers may be a useful tool to predict AKI during the first 7 days of ICU stay [13]. A positive test suggesting a high risk of developing AKI may require an early nephrology consultation [7], the close monitoring of creatinine and urine output, the optimization of volume and hemodynamic status, the avoidance of iodinated contrast procedures when possible and the use of nephrotoxic drugs (e.g., aminoglycosides, ACE inhibitors, NSAIDs), or the close monitoring of drug levels (vancomycin) [7-14].

Conclusions

ARDS patients developing AKI are a higher risk for severe outcomes and mortality. In our opinion, it is compelling to establish a prediction model to stratify SARS-CoV-2 infected patients according to AKI severity; this approach might lead to an innovative biomarker-based interventional strategy in this emerging clinical contest leading to a better allocation of hospital resources.

13 in total

1. Serial Urinary Tissue Inhibitor of Metalloproteinase-2 and Insulin-Like Growth Factor-Binding Protein 7 and the Prognosis for Acute Kidney Injury over the Course of Critical Illness.

Authors: Peter A McCullough; Marlies Ostermann; Lui G Forni; Azra Bihorac; Jay L Koyner; Lakhmir S Chawla; Jing Shi; J Patrick Kampf; Paul McPherson; John A Kellum
Journal: Cardiorenal Med Date: 2019-10-16 Impact factor: 2.041

2. Validation of cell-cycle arrest biomarkers for acute kidney injury using clinical adjudication.

Authors: Azra Bihorac; Lakhmir S Chawla; Andrew D Shaw; Ali Al-Khafaji; Danielle L Davison; George E Demuth; Robert Fitzgerald; Michelle Ng Gong; Derrel D Graham; Kyle Gunnerson; Michael Heung; Saeed Jortani; Eric Kleerup; Jay L Koyner; Kenneth Krell; Jennifer Letourneau; Matthew Lissauer; James Miner; H Bryant Nguyen; Luis M Ortega; Wesley H Self; Richard Sellman; Jing Shi; Joely Straseski; James E Szalados; Scott T Wilber; Michael G Walker; Jason Wilson; Richard Wunderink; Janice Zimmerman; John A Kellum
Journal: Am J Respir Crit Care Med Date: 2014-04-15 Impact factor: 21.405

3. Clinical Use of the Urine Biomarker [TIMP-2] × [IGFBP7] for Acute Kidney Injury Risk Assessment.

Authors: Anitha Vijayan; Sarah Faubel; David J Askenazi; Jorge Cerda; William H Fissell; Michael Heung; Benjamin D Humphreys; Jay L Koyner; Kathleen D Liu; Girish Mour; Thomas D Nolin; Azra Bihorac
Journal: Am J Kidney Dis Date: 2016-03-04 Impact factor: 8.860

4. Clinical course and outcomes of critically ill patients with SARS-CoV-2 pneumonia in Wuhan, China: a single-centered, retrospective, observational study.

Authors: Xiaobo Yang; Yuan Yu; Jiqian Xu; Huaqing Shu; Jia'an Xia; Hong Liu; Yongran Wu; Lu Zhang; Zhui Yu; Minghao Fang; Ting Yu; Yaxin Wang; Shangwen Pan; Xiaojing Zou; Shiying Yuan; You Shang
Journal: Lancet Respir Med Date: 2020-02-24 Impact factor: 30.700

5. Coronavirus epidemic: preparing for extracorporeal organ support in intensive care.

Authors: Claudio Ronco; Paolo Navalesi; Jean Louis Vincent
Journal: Lancet Respir Med Date: 2020-02-06 Impact factor: 30.700

6. Discovery and validation of cell cycle arrest biomarkers in human acute kidney injury.

Authors: Kianoush Kashani; Ali Al-Khafaji; Thomas Ardiles; Antonio Artigas; Sean M Bagshaw; Max Bell; Azra Bihorac; Robert Birkhahn; Cynthia M Cely; Lakhmir S Chawla; Danielle L Davison; Thorsten Feldkamp; Lui G Forni; Michelle Ng Gong; Kyle J Gunnerson; Michael Haase; James Hackett; Patrick M Honore; Eric A J Hoste; Olivier Joannes-Boyau; Michael Joannidis; Patrick Kim; Jay L Koyner; Daniel T Laskowitz; Matthew E Lissauer; Gernot Marx; Peter A McCullough; Scott Mullaney; Marlies Ostermann; Thomas Rimmelé; Nathan I Shapiro; Andrew D Shaw; Jing Shi; Amy M Sprague; Jean-Louis Vincent; Christophe Vinsonneau; Ludwig Wagner; Michael G Walker; R Gentry Wilkerson; Kai Zacharowski; John A Kellum
Journal: Crit Care Date: 2013-02-06 Impact factor: 9.097

7. Lung-kidney interactions in critically ill patients: consensus report of the Acute Disease Quality Initiative (ADQI) 21 Workgroup.

Authors: Michael Joannidis; Lui G Forni; Sebastian J Klein; Patrick M Honore; Kianoush Kashani; Marlies Ostermann; John Prowle; Sean M Bagshaw; Vincenzo Cantaluppi; Michael Darmon; Xiaoqiang Ding; Valentin Fuhrmann; Eric Hoste; Faeq Husain-Syed; Matthias Lubnow; Marco Maggiorini; Melanie Meersch; Patrick T Murray; Zaccaria Ricci; Kai Singbartl; Thomas Staudinger; Tobias Welte; Claudio Ronco; John A Kellum
Journal: Intensive Care Med Date: 2019-12-09 Impact factor: 17.440

8. Clinical course and risk factors for mortality of adult inpatients with COVID-19 in Wuhan, China: a retrospective cohort study.

Authors: Fei Zhou; Ting Yu; Ronghui Du; Guohui Fan; Ying Liu; Zhibo Liu; Jie Xiang; Yeming Wang; Bin Song; Xiaoying Gu; Lulu Guan; Yuan Wei; Hui Li; Xudong Wu; Jiuyang Xu; Shengjin Tu; Yi Zhang; Hua Chen; Bin Cao
Journal: Lancet Date: 2020-03-11 Impact factor: 79.321

Review 9. ARDS Subphenotypes: Understanding a Heterogeneous Syndrome.

Authors: Jennifer G Wilson; Carolyn S Calfee
Journal: Crit Care Date: 2020-03-24 Impact factor: 9.097

10. Functional assessment of cell entry and receptor usage for SARS-CoV-2 and other lineage B betacoronaviruses.

Authors: Michael Letko; Andrea Marzi; Vincent Munster
Journal: Nat Microbiol Date: 2020-02-24 Impact factor: 17.745

79 in total

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Journal: J Am Soc Nephrol Date: 2020-07-29 Impact factor: 10.121

Review 2. COVID-19 - Toward a comprehensive understanding of the disease.

Authors: Maciej M Kowalik; Piotr Trzonkowski; Magdalena Łasińska-Kowara; Andrzej Mital; Tomasz Smiatacz; Miłosz Jaguszewski
Journal: Cardiol J Date: 2020-05-07 Impact factor: 2.737

Review 3. Acute Kidney Injury and Covid-19: A Scoping Review and Meta-Analysis.

Authors: Mehdi Jafari-Oori; Marco Fiorentino; Giuseppe Castellano; Abbas Ebadi; Farshid Rahimi-Bashar; Paul C Guest; Amir Vahedian-Azimi; Amirhossein Sahebkar
Journal: Adv Exp Med Biol Date: 2021 Impact factor: 2.622

4. Proteinuria and Clinical Outcomes in Hospitalized COVID-19 Patients: A Retrospective Single-Center Study.

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Journal: Clin J Am Soc Nephrol Date: 2021-02-23 Impact factor: 8.237

5. β-Caryophyllene, A Natural Dietary CB2 Receptor Selective Cannabinoid can be a Candidate to Target the Trinity of Infection, Immunity, and Inflammation in COVID-19.

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Journal: Front Pharmacol Date: 2021-05-14 Impact factor: 5.810

6. Reply to Yan and Muller, "Captisol and GS-704277, but Not GS-441524, Are Credible Mediators of Remdesivir's Nephrotoxicity".

Authors: Minh Patrick Lê; Christine Le Beller; Quentin Le Hingrat; Pierre Jaquet; Paul-Henri Wicky; Vincent Bunel; Laurent Massias; Benoit Visseaux; Jonathan Messika; Diane Descamps; Hervé Mal; Jean-François Timsit; Gilles Peytavin
Journal: Antimicrob Agents Chemother Date: 2020-11-17 Impact factor: 5.191

7. Renal involvement in patients with COVID-19.

Authors: Márcia F Arantes; Camila E Rodrigues; Victor F Seabra; Paulo R G Lins; Bernardo V Reichert; Gabriel T M Sales; Igor Smolentzov; Carla P S Cabrera; Lúcia Andrade
Journal: Clinics (Sao Paulo) Date: 2020-10-26 Impact factor: 2.365

8. Urine biomarkers for the prediction of mortality in COVID-19 hospitalized patients.

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Review 9. Targeting Multiple Signal Transduction Pathways of SARS-CoV-2: Approaches to COVID-19 Therapeutic Candidates.

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10. Investigating the impact of asymptomatic or mild SARS-CoV-2 infection on female fertility and in vitro fertilization outcomes: A retrospective cohort study.

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