key: cord-0755766-1m0x5pn3
authors: Yalın, Serkan Feyyaz; Altıparmak, Mehmet Rıza; Dincer, Mevlut Tamer; Yadigar, Serap; Murt, Ahmet; Parmaksiz, Ergun; Ronco, Claudio
title: Medium Cut-Off Dialysis Membranes: Can They Have Impact on Outcome of COVID-19 Hemodialysis Patients?
date: 2021-01-14
journal: Blood Purif
DOI: 10.1159/000513621
sha: 01782ef6b5d3fb0c429865f6609c8026ea63f531
doc_id: 755766
cord_uid: 1m0x5pn3

INTRODUCTION: Severe acute respiratory syndrome coronavirus-2 may lead to high levels of expression of inflammatory cytokines. Medium cut-off (MCO) membranes may make greater clearances for large-middle molecules (including cytokines) than low-flux (LF) membranes. In this study, we aimed to evaluate the impact of MCO membranes on outcome of COVID-19 patients on hemodialysis (HD). METHODS: Sixty COVID-19 HD patients were included in this study. The patients were categorized into 2 groups regarding type of HD membranes. Clinical data were taken from medical records. RESULTS: Initial crp and ferritin levels, which are surragates of cytokine storm and severity of disease in COVID-19, were significantly higher in MCO membrane group compared to LF group (p = 0.037 and 0.000, respectively). Although there were more patients with severe disease in MCO group, there were no significant differences regarding need for intensive care unit and death. CONCLUSION: It may be an option to use MCO membranes in HD patients with COVID-19 in order to reduce cytokine levels and prevent cytokine storm.

Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2), which is a novel type of coronavirus, first emerged in December 2019 in Wuhan, China [1] . It has been reported that SARS-CoV may damage the respiratory system and causes serious outbreaks with high mortality rate [2, 3] . Reports indicate that individuals with older age and/or with underlying illnesses, such as diabetes mellitus, hypertension, or cardiovascular diseases, indicate poor prognosis for COVID-19 [4, 5] . These comorbidities are common in hemodialysis (HD) patients. Moreover, patients with chronic kidney failure have impaired innate and adaptive immunity. These result in immunodepression which increases vulnerability to infections [6] .

During COVID-19, high levels of expression of inflammatory cytokines may activate the T-helper type 1 (Th1) cell response [7] . Th1 activation is paramount importance of activation of specific immunity [8] . Severity of the disease is well correlated with high serum levels of interleukin-2 receptor and interleukin 6 (IL-6) [9] . IL-6 stimulates production of CRP [10] . In addition, the activation of the monocyte-macrophage system, which is a vital part of inflammatory storm, stimulates ferritin pro-Parmaksiz/Ronco Blood Purif 2 DOI: 10.1159/000513621 duction [11] . The cytokine storm causes organ dysfunction, which may cause death [12] .

HD is an extracorporeal process in which waste products that accumulate in patients with ESRD, is removed by a semipermeable membrane [13] . Three types of HD membranes are described: low flux (LF), high flux (HF), and medium cutoff (MCO) [14] . MCO membranes may make greater clearances and intradialytic reduction ratios for large-middle molecules (including cytokines) than LF and HF membranes [15] . In this study, we aimed to evaluate the impact of the type of HD membranes (MCO membrane vs. LF membrane) on outcome of COVID-19 patients on HD.

This study was performed in 2 tertiary care university hospitals that are serving in an area with approximately 16 million residents. This study was done in compliance with the Declaration of Helsinki. Institutional approval was taken from the local ethical review committee. The participants' identities were kept confidential.

All HD files of the COVID-19 patients who had chronic HD treatment between March 11, 2020, and September 1, 2020, were retrospectively examined. Sixty COVID-19 HD patients were enrolled in this study from 2 hospitals. One of the hospitals used routine MCO membrane during coronavirus pandemic, and the other 1 used routine LF membrane during that period. Raw clinical profile of the patients was evaluated without randomization.

The medical data of the patients were retrospectively obtained by a physician who did not know the outcome of the patients. Clinical data, etiologies of kidney diseases, comorbidities, laboratory and radiologic findings, and types of treatments were taken from medical records.

The positive RT-PCR and/or radiological findings were used to confirm the diagnosis. Disease activity was described as follows: asymptomatic, mild disease (symptoms with or without mild dyspnea), moderate disease (dyspnea requiring oxygen therapy), and severe disease (dyspnea requiring intensive care treatment). All HD patients were hospitalized due to high mortality risk for COVID-19.

Our managements were based on a national guide written by the scientific board of our country and published by our health ministry [16] . All of the hospitalized patients were initially treated with hydroxychloroquine, azithromycin, and oseltamivir. Then, azithromycin and oseltamivir were removed from initial treatment. Favipiravir was given to refractory cases. Tocilizumab was used in the management of cytokine release syndrome which developed especially in severe cases.

Standard heparin or low-molecular-weight heparin was used in all patients unless contraindicated. Oxygen treatment was given to the patients with oxygen saturation below 92%. If respiratory failure progressed, firstly noninvasive ventilation and then mechanical ventilation was performed in the intensive care unit.

Data were expressed as mean ± SD. Quantitative data were compared using either Student's t test or Mann-Whitney U test. Qualitative data were compared using χ 2 test. All computations were made using the SPSS for Windows v.17.0 software (SPSS Inc., Chicago, IL, USA). p values of <0.05 were considered significant.

Sixty HD patients were enrolled in this study. Etiologies of kidney disease in group 1 were as follows: hypertension in 8 (33.3%) patients, diabetes mellitus in 5 (20.8%), chronic glomerulonephritis in 2 (8.3%), autosomal dominant polycystic kidney disease in 2 (8.3%), collagen vascular diseases in 1 (4.2%), multiple myeloma in 1 (4.2%), and unknown disease in 5 (20.9%). Etiologies of kidney disease in group 2 were as follows: diabetes mellitus in 12 (33.3%) patients, hypertension in 10 (27.8%), collagen vascular diseases in 3 (8.4%), chronic glomerulonephritis in 2 (5.5%), autosomal dominant polycystic kidney disease in 1 (2.8%) and unknown in 8 (22.2%).

MCO (Theranova 400, Baxter TM , Deerfield, IL, USA) membranes were used in 24 patients and LF membranes (Elisio-21 M, Nipro TM , Osaka, Japan) were used in 36 patients. Initial demographics and clinical characteristics and laboratory findings of 2 groups are shown in Table 1 . Mean age of 2 groups was similar. There were significantly more patients with comorbidities in MCO group compare to LF group (p = 0.000). Serum Cr levels were significantly higher in MCO group compare to LF group (p = 0.000). Initial crp and ferritin, which are surragates of cytokine storm in COVID-19, were significantly higher in MCO group compare to LF group (p = 0.037 and 0.000, respectively).

Symptoms and physical findings during onset of diagnosis are shown in online suppl. ity. Whereas, there were more severe patients in MCO group than LF group in terms of disease activity (p = 0.001).

Regarding treatment types, 2 groups were treated with similar drugs according to severity of the disease (online suppl. Table 3 ). In the MCO group, more patients needed to require favipiravir and tocilizumab treatments compared to LF group.

The outcomes of 2 groups are shown in online suppl. Table 4 . Length of hospital stay was significantly longer in MCO group compared to LF group (p = 0.022). However, there were no significant differences between 2 groups in terms of need for intensive care unit and death.

COVID-19 is a life-threatening disease. One of the most important complications of the virus is hemophagocytic lymphohistiocytosis (HLH)-macrophage activation syndrome (MAS) via cytokine storm. Laboratory signs and symptoms of HLH-MAS include severe elevation in acute phase parameters such as CRP and ferritin [17] . HLH-MAS causes organ dysfunction, which may cause death [12] .

There is currently no cure for COVID-19. Therefore, clinicians are nowadays trying to treat COVID-19 patients who progressed to HLH-MAS by agents such as antiviral drugs, glucocorticoids, IL-6 antagonists, IL-1 antagonists, intravenous immunoglobulin, convalescent plasma, and janus kinase inhibitors [17] . Also, it was speculated that blood purification technology can prevent COVID-19 patients from severe pneumonia via cytokine clearance [18] .

MCO is a novel type membrane for HD. In a study performed by Kim et al. [15] , it was shown that HD with MCO membranes achieved significantly greater reduction ratio of large-middle molecules (including cytokines such as IL-1 and IL-6) than HD with conventional membranes and online-hemodiafiltration. In addition, Cozzolino et al. [19] found a reduction in the incidence of infections with MCO membrane compared to HF membrane.

In this study, we evaluated the raw clinical profile of COVID-19 HD patients in 2 hospitals that were using different types of membranes during pandemic. We aimed to see impact of MCO membranes on survival of patients with COVID-19.

Regarding clinical symptoms and laboratory results (especially CRP and ferritin levels), there were more severe COVID-19 patients in MCO group compared to LF group. In addition, MCO group patients stayed longer in the hospital due to possible severity of the disease. Despite these data, there were no differences between the 2 groups in terms of need for intensive care unit and death. In light of these results, we can assume that MCO membranes may protect patients from HLH-MAS via cytokine purification.

The limitations of our study are that we performed this study in a small population. In small groups, it may be difficult to interpret statistical analysis. In addition, we could not measure IL-6 levels before and after HD sessions in order to see the reduction in IL-6 level which is a good marker for inflammation in COVID-19 disease.

In conclusion, it may be an option to use MCO membranes in HD patients with COVID-19 in order to reduce cytokine levels and prevent cytokine storm. Also, we can speculate that COVID-19 patients with cytokine storm may benefit from standard HD with MCO membranes regardless of renal failure.

Subjects have given their written informed consent, and this study protocol was approved by the local committee on human research (IRB no:21.4.2020/A-10).

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CO-VID-19 experience in hemodialysis patients: a cue for therapeutic heparin-based strategies?

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Rethinking IL-6 and CRP: why they are more than inflammatory biomarkers, and why it matters

Diabetes is a risk factor for the progression and prognosis of COVID-19. Diabetes

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Haemodialysis membranes

Medium cut-off membranes: closer to the natural kidney removal function

Removal of large middle molecules via haemodialysis with medium cut-off membranes at lower blood flow rates: an observational prospective study

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In the last 3 years, CR has been consulting or part of advisory boards for ASAHI, Astute, Baxter, Biomerieux, B. Braun, Cytosorbents, ESTOR, FMC, GE, Jafron, Medtronic, and Toray. The other authors have no conflicts of interest to declare.

This research received no specific grant from any funding agency.