key: cord-0707973-teozxvhk authors: Francesca, Di Mario; Giuseppe, Regolisti; Alessio, Di Maria; Alice, Parmigiani; Daniele, Benigno Giuseppe; Edoardo, Picetti; Maria, Barbagallo; Paolo, Greco; Caterina, Maccari; Enrico, Fiaccadori title: Sustained low-efficiency dialysis with regional citrate anticoagulation in critically ill patients with COVID-19 associated AKI: A pilot study date: 2021-02-03 journal: J Crit Care DOI: 10.1016/j.jcrc.2021.01.013 sha: d648bc7aec4790186b428728c6ab5a902bdf9531 doc_id: 707973 cord_uid: teozxvhk Acute Kidney Injury (AKI) is a frequent complication in critically ill patients with Coronavirus disease 2019 (COVID-19), and it has been associated with worse clinical outcomes, especially when Kidney Replacement Therapy (KRT) is required. A condition of hypercoagulability has been frequently reported in COVID-19 patients, and this very fact may complicate KRT management. Sustained Low Efficiency Dialysis (SLED) is a hybrid dialysis modality increasingly used in critically ill patients since it allows to maintain acceptable hemodynamic stability and to overcome the increased clotting risk of the extracorporeal circuit, especially when Regional Citrate Anticoagulation (RCA) protocols are applied. Notably, given the mainly diffusive mechanism of solute transport, SLED is associated with lower stress on both hemofilter and blood cells as compared to convective KRT modalities. Finally, RCA, as compared with heparin-based protocols, does not further increase the already high hemorrhagic risk of patients with AKI. Based on these premises, we performed a pilot study on the clinical management of critically ill patients with COVID-19 associated AKI who underwent SLED with a simplified RCA protocol. Low circuit clotting rates were observed, as well as adequate KRT duration was achieved in most cases, without any relevant metabolic complication nor worsening of hemodynamic status. In the course of the severe acute respiratory syndrome associated with Coronavirus disease 2019 (COVID-19) the percentage of patients with Acute Kidney Injury (AKI) requiring Kidney Replacement Therapy (KRT) varies significantly among different studies, ranging from 0% to 35% according to the number of critically ill patients included, geographic location, racial and ethnic groups considered, prevalence of comorbidities and local institutional procedures [1, 2] . The pathophysiological mechanism of this specific form of AKI remains still unclear. Indeed, while in most cases the etiology seems to be directly related to sepsis and multiorgan dysfunction, specific alterations associated with the viral infection have not been completely excluded [1, 3] . Remarkably, a hypercoagulable state attributed to systemic inflammation, platelet disfunction and microvascular alterations is often reported, and it has been associated with a high incidence of thrombotic complications [4, 5] . In this complex clinical scenario, continuous KRT (CKRT) have been frequently adopted in the Intensive Care Unit (ICU) patients with hemodynamic instability [1] . However, a high rate of extracorporeal circuit clotting has been often described, leading to frequent treatment downtime, increased transfusion needs and waste of health resources [4] [5] [6] [7] . Sustained Low Efficiency Dialysis (SLED) is a modality of Prolonged Intermittent KRT (PIKRT) with a typical 8-12 hour treatment time, which is increasingly used in ICU patients, since it combines the most favorable characteristics of both CKRT and conventional Intermittent Hemodialysis (IHD) [8] (Figure 1 ). PIKRT can be performed either with CKRT or IHD machines, providing adequate daily treatment dose in less time compared with CKRT, thus optimizing the often limited available resources in the overcrowded clinical context of SARS-CoV-2 in the ICUs [1] . Moreover, the diffusive solute transport characteristic of this KRT technique may help reduce the mechanical stress on the hemofilter, and consequently the risk of extracorporeal circuit clotting [9] . Given the prolonged duration of SLED, an anticoagulation strategy is commonly recommended. The most recent guidelines on AKI suggest the use of Regional Citrate Anticoagulation (RCA) in all patients without specific contraindications for citrate, irrespective of the bleeding risk [10, 11] . Indeed, several clinical studies have extensively demonstrated the advantages of RCA over systemic heparin anticoagulation protocols in terms of prolonged filter life span and reduced incidence of both hemorrhagic complications and transfusion requirements [12] . In particular, the percentage of premature treatment interruption secondary to circuit clotting is significantly higher in patients on CKRT with heparin-based protocols compared to those based on RCA protocols [13] . In this report we present preliminary data from a pilot study of critically ill patients with SARS CoV-2 related AKI who underwent 49 SLED sessions with a simplified RCA protocol. This approach allowed both to overcome the increased clotting risk observed in this peculiar clinical setting, and to deliver the prescribed dialysis dose. J o u r n a l P r e -p r o o f One-hundred thirty-five consecutive patients with COVID-19 were admitted to the General ICU of the Parma University Hospital between February 23 and May 5, 2020. AKI, defined according to the most recent guidelines [14] , was detected in 43 (31,9%) patients. Five (11.6%) of these patients were scheduled to be started on KRT; however, one patient died six hours before the effective start of KRT. The demographic and clinical characteristics at ICU admission of patients underwent KRT are reported in Table 1 . All patients were mechanically ventilated and required prone positioning. The coagulation profile was within the normal range in all patients ( Table 1) ; all of them were given subcutaneous low molecular weight heparin as prophylaxis. In particular, given the evidence of reduced kidney function at ICU admission, 3 of 4 patients In particular, the infusion was started at 5 ml/h whenever s-Ca 2+ fell below 0.9 mmol/L. The intradialytic variables related to RCA are reported in Table 2 . Electrolytes and acid-base parameters were maintained within the normal range without any relevant episode of hypo-hypercalcemia and metabolic acidosis/alkalosis. Calcium supplementation at fixed rate 1.13 mmol/hour was needed in 13/49 treatments. Calcium ratio was steadily maintained below the threshold of 2.5. Clinical monitoring data during SLED treatments are reported in Table 2 (Table 1) ; a complete restitution the extracorporeal circuit blood to the patient was achieved in 2 of the 3 cases. Relevant modifications of operative SLED parameters in the course of treatment were not required, and the extracorporeal circuit pressures remained within the safety limits. In all of the four patients SLED was discontinued following recovery of an adequate urine output. Our pilot study suggests that, in patients with COVID-19 associated AKI, SLED with RCA is a welltolerated KRT modality which allows to deliver the prescribed dialysis dose and to maintain an adequate fluid balance even in patients with severe hemodynamic instability. According to our knowledge, the present study is the first to provide data on the use of RCA in the course of SLED in critically ill patients with COVID-19 associated AKI. Indeed, the adoption of a KRT technique mainly based on diffusion reduces the mechanical stress on both the hemofilter and blood cells, leading to a lower incidence of extracorporeal circuit clotting, particularly common in COVID-19 patients with AKI [4] [5] [6] [7] . Moreover, given the dramatically elevated number of patients requiring an intensive clinical management in this clinical setting, the shortening of daily treatment time characteristic of SLED as compared to CKRT, might contribute to deliver the dialysis treatment to more patients by using the same dialysis machine (Figure 1 ). Our report confirms the feasibility and safety of PIKRT, recently reported in a prospective observational study performed in 136 critically ill patients with COVID-19 associated AKI [15] , where 108/130 PIKRT sessions (83%) were performed with a systemic heparin-based anticoagulation protocol. The ultrafiltration target was attained in most cases; however, in this report 17 sessions (13%) based on a heparin-based protocol were complicated by premature interruption for extracorporeal circuit clotting [15] . In this context, notably, circuit clotting rates are particularly high in patients undergoing convective CKRT (i.e. Continuous Veno-Venous Hemofiltration, CVVH), despite the higher delivered dose or the use of pre-dilution modality [3, 8] . Frequent premature circuit clotting was also reported in a recent study on 37 critically ill patients with SARS-CoV-2 who underwent Continuous Veno-Venous Hemodiafiltration (CVVHDF) with a heparin-coated hemodiafilter aimed at enhancing cytokine adsorption [16] . In our study, the application of a simplified RCA protocol specifically designed for the SLED modality significantly contributed to achieve the prescribed dialysis duration, without any relevant metabolic complications, even in presence of impaired liver function [12] . As a matter of fact, it is well known that RCA protocols optimized the hemofilter efficiency and circuit life span, without interfering with systemic coagulation, even in patients with very high bleeding risk [11] [12] [13] . Theoretical advantages  SLED can be performed with any kind of KRT machine  SLED is a well-tolerated KRT modality also in critically ill patients with hemodynamic instability  SLED may provide an adequate daily treatment dose in less time compared with CKRT, thus allowing to optimize the available resources in the ICUs by using the same dialysis machine for more than one patient per day  The reduced daily treatment time compared to CKRT allows to perform any diagnostic or therapeutic procedures (included prone positioning) reducing any treatment downtime  The diffusive solute transport may help to blunt the mechanical stress on the hemofilter and blood cells, and consequently it may reduce the risk of extracorporeal circuit clotting, frequently observed among patients with COVID-19  The adoption of specifically designed RCA protocols for SLED may be associated with prolonged filter life span and reduced incidence of both hemorrhagic complications and transfusion requirements  The reduced KRT duration compared to CKRT permits to reduce the healthcare workers exposure risk Abbreviations: SLED, Sustained-Low Efficiency Dialysis; RCA, Regional Citrate Anticoagulation; AKI, Acute Kidney Injury; CKRT, Continuous Kidney Replacement Therapy; KRT, Kidney Replacement Therapy; ICUs, Intensive Care Units. 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Disclosure of potential conflicts of interest: the authors declare that they have no conflict of interest. Funding: none.