key: cord-0926347-ktjdzrqu authors: Appiah‐Kubi, Abena; Acharya, Suchitra; Fein Levy, Carolyn; Vlachos, Adrianna; Ostovar, Gholamabbas; Murphy, Kristina; Farrell, Antonella; Brower, Donna; Lipton, Jeffrey M.; Wolfe, Lawrence; Aygun, Banu title: Varying presentations and favourable outcomes of COVID‐19 infection in children and young adults with sickle cell disease: an additional case series with comparisons to published cases date: 2020-08-01 journal: Br J Haematol DOI: 10.1111/bjh.17013 sha: 10c6baa4367850022a5802f8bc3a793ed227b350 doc_id: 926347 cord_uid: ktjdzrqu Patients with sickle cell disease (SCD) are theoretically at greater risk for serious illness from COVID 19 due to the underlying pathophysiology of chronic inflammation with an increased risk of thrombosis, especially at the time of a vaso-occlusive event (1). Individuals living with SCD are also considered to be immunocompromised due to autoinfarction of their spleen or surgical splenectomy, often as a result of red cell splenic sequestration (2). In addition, patients with SCD often have comorbidities and secondary organ dysfunction that can put them at risk of significant morbidity and or mortality from the severe acute respiratory coronavirus 2 (SARS-CoV-2), and its subsequent disease COVID-19. Patients with sickle cell disease (SCD) are theoretically at greater risk for serious illness from COVID-19 due to the underlying pathophysiology of chronic inflammation with an increased risk of thrombosis, especially at the time of a vasoocclusive event. 1 Individuals living with SCD are also considered to be immunocompromised due to autoinfarction of their spleen or surgical splenectomy, often as a result of redcell splenic sequestration. 2 In addition, patients with SCD often have comorbidities and secondary organ dysfunction that can put them at risk of significant morbidity and/or mortality from the severe acute respiratory coronavirus 2 (SARS-CoV-2), and its subsequent disease COVID-19. Due the novel nature of the COVID-19 coronavirus, its overall effect on patients with SCD is not well understood. There are a total of six previous case series reported in sickle cell patients. [3] [4] [5] [6] [7] [8] [9] One recent article summarizes all the reported case series and calls on the need for a centralized registry. 10 This has been achieved by the global Secure-SCD Registry, Surveillance Epidemiology of Coronavirus (COVID-19) Under Research Exclusion (https://covidsicklecell.org/). In this report, we discuss a case series of COVID-19 infections in our patients, comparing our outcomes to previously reported cases. We follow over 600 children and young adults with SCD in the Comprehensive Hemoglobinopathy Program. As of 11 May 2020 seven have tested positive for COVID-19 by polymerase chain reaction (PCR) using different assays. Although some of these seven patients may have been included in the initial characteristics of 5 700 patients reported from Northwell Health, this case series presents in-depth presentation and therapeutic results not presented in that article. 11 The Northwell Health Institutional Review Board approved this case series as minimal-risk research using data collected for routine clinical practice and waived the requirement for informed consent. The majority (6/7) of the patients had sickle cell anaemia (HbSS) ( Table I) . Only one had HbSC disease and had obesity, which is reported as a risk factor for COVID-19. 12 The remaining descriptive and clinical findings in our patients are detailed in Table I , including admission, clinical course, respiratory support, antivirals, anti-inflammatory medications, and their outcomes. As in previously reported cases, the most common symptoms in our patients were fever, acute chest syndrome (ACS), and a vaso-occlusive episode (VOE). 3, 4, [6] [7] [8] [9] Interestingly, only one patient was noted to have lymphopenia associated with COVID-19, which has been reported more commonly in patients without SCD. 13 The patients who were febrile but did not require admission received our standard regimen for fever including an intravenous dose of ceftriaxone, followed in 24 h by an oral dose of levofloxacin at home. These patients were followed up via telephone. Patients who had a VOE received intravenous analgesics and were admitted if pain persisted. Four patients were hospitalized for 2-10 days. One patient with psychiatric history presented with hypoxia noted at home and hallucinations. She was afebrile and her chest Xray was clear. She did not have hypoxia while inpatient. However, due to her altered mental status and concern for thrombosis associated with COVID-19, she was started on treatment for COVID-19 and anticoagulation, pending brain MRI which was normal and she was discharged home. The remaining three patients had ACS like many of the reported cases. 3,4,7-9 One patient was initially admitted for VOE and was found to be COVID-19-positive on routine surveillance. She then developed fever and ACS during the hospitalization. Two others had ACS on presentation. Two patients with ACS received oxygen supplementation, similar to the other reported cases of ACS. 3,4,6-9 One required ICU stay for a high-flow nasal cannula; however none of them required intubation/mechanical ventilation. All, like in previous reports, required red-cell transfusions while the patient in the ICU also received an exchange transfusion. 3, 4, 6, 8, 9 They were initially treated with ceftriaxone and azithromycin as per our standard of care; this choice of antibiotics is similar to that in the previously reported cases. Once COVID-19 was confirmed, hydroxychloroquine (HCQ) was started and azithromycin was replaced with levofloxacin due to concern for prolonged corrected QT interval. Hydroxychloroquine, used as first-line therapy, was replaced with remdesivir (compassionate use, Gilead Sciences, Inc.) in the two patients with ACS due to worsening respiratory status. None of the other case series report use of remdesivir, though HCQ was used in some of the adults. 4, 9 Three patients with elevated inflammatory markers who met criteria for cytokine storm syndrome (CSS), 14 were treated with anakinra. 15 One patient's trend is shown in Fig 1. Two other case series discuss the use of tocilizumab; however, there are no reports of anakinra use in SCD. 4, 7 As per our inpatient thromboprophylaxis guidelines for COVID-19, all admitted patients received prophylactic lowmolecular-weight heparin (LMWH). The two patients who developed worsening respiratory symptoms with concern for pulmonary emboli were switched to treatment-dose LMWH but were discharged on prophylactic LMWH for an additional two weeks or until D-dimer normalized. Two previous case series report use of anticoagulation. 5, 8 This case series shows varying presentations and, in those who developed ACS, successful treatment of children and young adults with SCD and COVID-19 infection. Fever, ACS, and VOE were the most common presenting symptoms with ACS being the most common reason for admission. Early simple transfusion, followed by exchange transfusion in those requiring respiratory support in the ICU, made an impact on their clinical course. Antiviral therapy including both HCQ and remdesivir were used and well tolerated. Anakinra was successfully used in individuals with elevated inflammatory markers. We used prophylactic and, in select cases, therapeutic anticoagulation and none of our patients developed evidence of thromboses. To date, most reported cases have had favourable outcomes. We believe this is due to an approach to patients with COVID-19 and SCD consisting of: attempts at the earliest possible diagnosis, use of antivirals, anti-inflammatory agents and anticoagulants, and early and aggressive transfusion for ACS. Sickle cell disease and venous thromboembolism: what the anticoagulation expert needs to know Increased susceptibility to infection in sickle cell disease: defects of opsonization and of splenic function COVID-19 infection in patients with sickle cell disease Rapid and severe Covid-19 pneumonia with severe acute chest syndrome in a sickle cell patient successfully treated with tocilizumab De Saint Blanquat L, Lesage F et al Patients with Sickle cell disease and suspected COVID-19 in a pediatric ICU Dramatic improvement after tocilizumab of severe COVID-19 in a child with sickle cell disease and acute chest syndrome Vaso-occlusive crisis and acute chest syndrome in sickle cell disease due to 2019 novel coronavirus disease (COVID-19) COVID-19 infection and sickle cell disease: a UK centre experience COVID-19 pneumonia as a cause of acute chest syndrome in an adult sickle cell patient Managing sickle cell patients with COVID-19 infection: the need to pool our collective experience Davidson KW et al Presenting characteristics, comorbidities, and outcomes among 5700 patients hospitalized with COVID-19 in the New York city area Risk of COVID-19 for patients with obesity Lymphopenia predicts disease severity of COVID-19: a descriptive and predictive study The Rheumatologist's role in COVID-19 Stoll ML et al Benefit of Anakinra in treating pediatric secondary hemophagocytic lymphohistiocytosis AAK and BA mainly wrote the manuscript. All authors reviewed and edited the manuscript. AAK, BA, SA, DB, AF, AV, CFL, GO, and KM, helped care for the patients. LW, JML, AAK, SA, and BA, developed standard operating procedures (SOPs) for patient care. We would like to acknowledge the contributions of the Northwell Health COVID-19 Research Consortium.