key: cord-1003702-dnnrkian authors: Flower, Luke; Laundy, Nick; Khosravi, Maryam; Buckley, Jim; Gale, Aislinn; Kumar, Inder D; Otenigbagbe, Oluwatomisin; Tattersall, Rachel S; Manson, Jessica J; Quick, Vanessa title: Haemophagocytic lymphohistiocytosis secondary to COVID-19: a case series date: 2021-08-16 journal: Lancet Rheumatol DOI: 10.1016/s2665-9913(21)00248-4 sha: 22cd2a236201b6de957c682de8416550cae66131 doc_id: 1003702 cord_uid: dnnrkian nan A pathological, dysregulated immune response (ie, hyperinflammation) is a recognised complication of COVID-19. 1 The protype hyperinflammatory syndrome secondary to infection is secondary haemophagocytic lymphohistiocytosis (sHLH), but the dominant hyperinflammatory phenotype in people with severe COVID-19-associated pneumonia is not that of sHLH and is poorly understood. 1,2 The COVID-19 hyperinflammation phenotype is associated with increased concentrations of inflammatory markers, increased risk of mortality, and subsequent development of immunothrombosis. 2, 3 A small subgroup of people with COVID-19, however, do develop classic sHLH, 4 in which pathological immune dysfunction and unchecked production of inflammatory cytokines result in multiorgan failure. Risk factors for sHLH include infection, such as COVID-19, but also genetic risk factors, haematological malignancy, autoimmune or autoinflammatory disease, severe burns, and oncological treatments. 5 Identifying people in whom COVID-19 has triggered sHLH is important because sHLH has a high mortality, and early intervention with established treatments can reduce death and the need for toxic therapy. 5, 6 Diagnosis of sHLH is a challenge. Evidence-based scoring systems include the H-score and haemophagocytic lymphohistiocytosis (HLH)-2004 criteria. Both have limitations, however. The H-score is not validated in critical care, and in the first wave of the pandemic, with health systems under huge pressure, some of the required tests were simply not feasible (eg, imaging for organomegaly and bone marrow biopsy). HLH-2004, although widely used in adults, is validated only in children. In practice, clinicians often use a combination of scoring systems and clinical judgement, with input from specialist HLH multidisciplinary teams. 7 Treatment for patients with sHLH is with immune modulation, but a robust evidence base does not exist. Treatments include glucocorticoids, intravenous immuno globulin, ciclosporin, etoposide, and the recombinant interleukin-1 receptor antagonist, anakinra, which has a good safety profile in infection. 8 Unlicensed use of anakinra has been associated with reduced mortality in patients with sHLH. 9 Anakinra has therefore been adopted as part of standard of care for management of patients with sHLH in some UK National Health Service trusts under locally agreed guidelines. Here, we present a series of patients with HLH secondary to infection with SARS-CoV-2. We also discuss the challenges of diagnosis and treatment of sHLH during a pandemic. All patients with COVID-19 that met agreed criteria for sHLH (ie, on the basis of clinical picture and H-score) and were admitted to University College Hospital (London, UK), Sheffield Teaching Hospitals National Health Service Foundation Trust (Sheffield, UK), or Luton and Dunstable Hospital (Luton, UK) between Feb 1 and June 15, 2020, were reviewed. Diagnosis of COVID-19 was confirmed with SARS-CoV-2 PCR on nasopharyngeal swab or clinical diagnosis was made on review by an infectious diseases' consultant at a tertiary centre. Patients were included in this evaluation if informed written consent was obtained. The project was registered with local clinical governance departments. Ethical approval was not required as this analysis was approved under local service evaluation permissions. Data that were available from health records were col lated and used to calculate the H-score, as defined according to Fardet and colleagues but modified to omit assessment of organomegaly and bone marrow cytology. 10 Thus, the modified possible total score was 264, with the median score that was suggestive of sHLH of 132; following the model from Kyriazopoulou and colleagues. 1, 11 We present data from ten patients with COVID-19induced sHLH (see appendix pp 2-5 for two detailed case vignettes). The median patient age was 46 years (range 22-63 years) and 90% (nine) of patients were male. All ten patients required admission to intensive care. Three of ten patients had another underlying diagnosis that might have contributed to the development of sHLH: two patients had acute lymphoblastic leukaemia and one patient had poorly controlled systemic lupus erythematosus (table) . Two of ten patients were healthcare staff (one consultant surgeon and one medical student). The median H-Score at diagnosis was 164 (IQR 125-184), which was reduced to 84 (63-99) by day 14 after treatment initiation in survivors, with a median change of -72 (-50 to -83). The median ferritin concentration at diagnosis was 9576 µg/L (8058-12090 μg/L), which was reduced to 3034 μg/L (1904-3895 μg/L) by day 14 after treatment initiation, with a median change of -6925 μg/L (-3969 to -10726); appendix pp 6, 8). The median peak ferritin was 14 846 μg/L (10 034-18 756). All patients had cytopenia of at least one cell type, eight patients had increased triglyceride concentration, and nine patients had increased concentration of ALT. All patients were treated with anakinra, as per local guidelines. Nine of ten patients received intravenous anakinra and one received subcutaneous anakinra. The initial daily intravenous dose ranged from 140 mg to 600 mg. In addition to anakinra, one patient was also treated with intravenous immunoglobulin; one patient with intravenous immunoglobulin and methylprednisolone; and one patient with intravenous immunoglobulin, methylprednisolone, and ciclosporin (appendix p 7). Four (40%) of ten patients died; two patients due to worsening multiorgan failure with circulatory collapse, one patient due to worsening respiratory failure, and one due to resistant autoimmune myocarditis secondary to poorly controlled systemic lupus erythematosus. One patient required readmission for further treatment (see appendix pp 2-3 for case vignette). At the time of analysis, all surviving patients had been successfully discharged. Here, we show that sHLH complicates COVID-19 in a small number of patients and that confident diagnosis is possible even in a health system under pressure. The mortality of our patients was 40% (four of ten patients); compared with the 39% (4287 of 10 904) mortality that was seen in the first wave of patients with COVID-19 who were admitted to intensive care in the UK and 68% (48 of 71) mortality seen in a previous series of patients with sHLH. 5 At the time that our patients were treated (ie, before the benefit of dexamethasone was shown), concern existed about the use of corticosteroids in patients with COVID-19-induced acute respiratory distress syndrome, so anakinra was used in preference. Dosing of anakinra was determined by clinical experience and the literature that was available at the time. 9 Our findings are consistent with previous use of anakinra in patients with sHLH, specifically: a decrease in ferritin and temperature, mortality within the range of previous work, and increased mortality in patients with underlying haematological disease. 5, 6 Although we present a small number of patients, there was a clear preponderance for men to develop sHLH in this cohort. This difference might in part reflect the increased proportion of men requiring admission to intensive care secondary for COVID-19 during this time (70% men vs 30% women). No patients had severe adverse effects that were obviously attributable to anakinra. Successful management of patients with sHLH relies on an experienced multidisciplinary team approach. The UK based group, Hyperinflammation and HLH Across Speciality Collaboration, is one such example and includes specialists in rheumatology, haematology, critical care, infectious diseases, virology, neurology, nephrology, and cardiology. The complex, dynamic, and non-specific nature of sHLH means that it cannot easily be summarised with numerical parameters, and a binary diagnostic approach is not always possible. It is plausible that a proportion of patients who are critically ill (with COVID-19 or other diseases) and do not respond to conventional treatments have developed undiagnosed sHLH. The important clinical questions in such a scenario might be whether the person is suffering from systemic hyperinflammation and whether the benefits of immunomodulation outweigh the risks. If the answers to both these questions are yes, then early, experienced multidisciplinary consult and treatment initiation should be considered. The COVID-19 pandemic has taught the medical community many things, not least the fact that multicentre, randomised controlled trials of immune modulation are feasible in patients who are critically ill. Perhaps this knowledge and infrastructure can be harnessed for patients with sHLH. 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JJM and VQ shared last authorship. LF, NL, JJM, RT, and VQ had full access to all the data in the study and had final responsibility for the decision to submit for publication. There was no funding source for this study.