key: cord-0749044-jjsxs22m authors: Rizo-Topete, Lilia Maria; Husain-Syed, Faeq; Ronco, Claudio title: Reinforcing the Team: A Call to Critical Care Nephrology in the COVID-19 Epidemic date: 2020-09-21 journal: Blood Purif DOI: 10.1159/000510881 sha: f805fc716dd158767e42794a8a387960a4fd4785 doc_id: 749044 cord_uid: jjsxs22m nan In the current global climate, humanity is at one of its most vulnerable moments. The coronavirus epidemic is one of the biggest disasters to hit healthcare systems worldwide, and health professionals are in a situation where they have to derive the best outcomes from the available resources. This pandemic is not the first one to cripple humanity. Not so long ago in Mexico, in 2009, more than 2,000 patients were affected by an influenza pandemic [1]. This influenza A (H1N1), was catastrophic and required the healthcare sector to resort to desperate interventions. This episode demonstrated the importance of being organized; for example, it was in this situation that the extracorporeal membrane oxygenator reemerged as a means of treatment in patients with severe respiratory disease because mechanical ventilation was insufficient to treat refractory hypercapnia and hypoxia [2, 3]. Now, 10 years later, we are witness to the coronavirus disease 2019 (COVID-19) pandemic that originated in Wuhan, China. Its high morbidity and relatively high mortality rates were a shock, and a reminder that critical care teams need to work together and collaborate with experts from around the globe in order to achieve the desirable results, like the use of hemoperfusions and extracorporeal therapies proposed as alternative treatments to attack the cytokine storms associated with the disease [4] . This commentary attempts to the necessity to incorporate well-structured critical care teams from the beginning for treating patients with SARS-CoV-2, mainly in the multiorgan support therapy scenario. Acute kidney injury (AKI) is common among acutely ill patients. In COVID 19, the incidence is not clear and may be underestimated. But even patients who do not have AKI, occasionally, require extracorporeal therapies, such as hepatic support, plasma exchange, and more recently, cytokine removal through adsorbents [4] [5] [6] [7] . Ne-2 DOI: 10.1159/000510881 phrologists have consistently focused on the association between AKI stages and patient outcomes [8, 9] , and it was recently reported that AKI is linked to a wide range of distant organ injuries and high mortality rates [10] . In the context of pneumonia, it has been reported that 30% of patients with severe pneumonia develop AKI, and most of them require renal replacement therapy (RRT) [3] . Critical care nephrology (CCN) is a new field in medicine that focuses on the issues related to the management and prevention of AKI and the associated consequences [11] . The aim of CCN is to provide integrated multidisciplinary care with coordinated efforts so that patients can be provided with safe care by physicians with enough expertise [11, 12] . The field of general critical care has evolved into a subspecialty that provides care to patients with a high number of comorbidities; they require prolonged care and have a high incidence of multiorgan failure that requires extracorporeal multiorgan support systems. In the last 2 decades, there has been significant progress in research on the interactions between native organs and extracorporeal multiorgan support systems [13] . Given the increase in the variety and complexity of artificial organ support systems in the intensive care unit (ICU), it is very important to adhere to the first principle of medicine, that is, primum non nocere or "first, do no harm." To this end, there is a critical need to build healthcare teams with significant expertise in order to provide safe and efficient care to critically ill patients. Such teams are particularly necessary for patients who require extracorporeal organ support (ECOS) in the context of multiple organ dysfunction, as has been described in severe COVID-19 cases [4] (shown in Fig. 1 ). These teams provide platforms for healthcare workers to share their knowledge and experience for solving ethical dilemmas regarding end-of-life care or palliative care so that better medical care can be provided and the quality of life of the patients and their families can be improved. In particular, in the framework of precision medicine, timely and accurate communication between team members is important. Previously, over 50% of patients developed stage 1 AKI at some point during their ICU stay, whereas the requirement for RRT is only 5-10% [14] . Despite the lower rate of RRT in comparison with the incidence of AKI, RRT is the most commonly used form of ECOS in the ICU. Additionally, 50-65% of patients treated with the extracorporeal membrane oxygenator develop AKI that requires RRT [15] . Therefore, nephrologists, as experts with a deep knowledge of physiology and extracorporeal blood purification techniques, are vital members of critical care teams. Commonly, nephrologists are called to manage AKI in cases of oliguria, uremia, and fluid overload associated with RRT. Maybe nephrologists are consulted too late in the case of AKI patients. We propose the development of a nephrology rapid response team for the care of high-risk patients, and COVID-19 patients are per se high-risk patients (diabetes, hypertension, obesity, advanced age, or other chronic illness). This team would incorporate protocols in the form of flowcharts for the early recognition (e.g., by the use of AKI biomarkers such as tissue inhibitor of metalloproteinase-2 and insulinelike growth factor-binding protein 7) and provision of better-quality preventive measures, including ECOS [16] [17] [18] . Their inclusion would also help improve interdepartmental cooperation. At these days, the incidence of AKI in COVID-19 patients goes around 20-40% in ICU patients as statistics from Europe and USA report [19] , once again we are arriving late. Nephrologists are also experienced in the use of hemoperfusion and adsorbtion techniques in combination with continuous renal replacement therapy (CRRT) for the removal of inflammatory cells. As it is known that the coronavirus generates an inflammatory response in the lungs called the "cytokine storm syndrome" (4), nephrologists may be able to step in and provide guidance on appropriate management and obtaining better outcomes in critical cases. Thus, the integration of nephrologists in the treatment of complicated cases of COVID-19-associated pneumonia might help to save more lives. CRRT can be used in conjunction with adsorbent membranes, such as oXiris, or adsorbent cartridges, such as CytoSorb, for the removal of cytokines. This combination might prove effective and could be used as the frontline treatment when possible. However, in some emerging economies, opportunities for the use of such a combined technique could be limited. Nonetheless, CCN can always help incorporating knowledge and innovations, such as the use of Theranova filters, to help patients who are on conventional hemodialysis machines or CRRT. We propose the early inclusion of CCN in critical care teams as an essential multidisciplinary working group for the management of patients who require CRRT and ECOS. The critical care nephrologists could mediate between multiple organ support therapies, particularly in cases where RRT is being considered or has been started. The COVID-19 pandemic is a special situation that requires healthcare teams to work side by side, as a united army of soldiers, and utilize each other's expertise to develop new strategies for the treatment of this infection. In the las 3 years, Claudio Ronco has been consulting or part of advisory board ASAHI, Astute, Baxter, Biomerieux, B. Braun, Cy-toSorbents, ESTOR, FMC, GE, Jafron, Medtronic, and Toray. The other authors have no conflicts of interest to declare. The authors declare that they have no funding to declare. 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