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1.
Rheumatology (United Kingdom) ; 62(Supplement 2):ii142, 2023.
Article Dans Anglais | EMBASE | ID: covidwho-2321776

Résumé

Background/Aims Haemophagocytic lymphiohistiocytosis (HLH) is a rare, underrecognised hyperinflammatory syndrome, characterised by immune dysregulation. Without treatment, the ensuing cytokine storm leads to high mortality. Secondary HLH (sHLH) is triggered by malignancy, infection, autoimmunity and medicines;treatment with immunosuppression is consensus- rather than evidence-based and extrapolated from primary HLH. Sheffield hosts a mature HLH multidisciplinary advisory group (MDAG). Here we evaluate the cause, treatment, requirement for critical care and mortality of people with HLH managed through the MDAG in a period including the coronavirus pandemic but prior to NHS England approval of anakinra (IL-1 antagonist) for HLH. Methods This retrospective evaluation (approved locally STH 10850) identified patients from MDAG records 1st October 2016 to 30th September 2021. Data from electronic/paper records was analysed using Microsoft Excel. Results HLH triggers were infection (viral 34%, bacterial 10%), haematological (35%), rheumatological (13%) and other (8%). Rheumatological causes were Still's disease (n=5);antiphospholipid syndrome (n=2);JO1 dermatomyositis (n=1);SLE (n=1);and rheumatoid arthritis (n=1). Other causes included unknown (n=3);combined systemic JIA and sickle cell crisis (n=1);medication (alemtuzumab) (n=1);and primary HLH (n=1). Overall mortality was 53% and highest in HLH with a haematological malignancy trigger (82%) Prior to the COVID19 pandemic (pre-March 2020), the commonest trigger of HLH was haematological malignancy (47%);after March 2020, the commonest trigger was infection (64%);COVID-19 explained 42% of cases. Mortality fell from 72% to 31%. Conclusion In this real-world series of people with HLH, mortality and critical care requirement was high. HLH triggers reflect published evidence as does poor prognosis in haematological malignancy-associated HLH. No-HLH associated with non-haematological malignancy was identified;we may need to improve MDAG reach into oncology. Seeming reduction in mortality following the COVID-19 pandemic may reflect increased recognition of COVID-19 induced hyperinflammation along with locallyagreed access to anakinra for COVID-19-induced HLH. The increase in infection related HLH cases since March 2020 is explained largely by COVID-19 cases. This has led to a relative reduction in cases related to haematological malignancy. HLH requires multidisciplinary management and better research to improve treatment. (Table Presented).

2.
Rheumatology (United Kingdom) ; 62(Supplement 2):ii135-ii136, 2023.
Article Dans Anglais | EMBASE | ID: covidwho-2326665

Résumé

Background/Aims Through the COVID pandemic there have emerged reports of autoimmunity or new rheumatic diseases presenting in patients after they had COVID-19. This is thought to be caused by cross-reactivity of the COVID-19 spike protein to human antigens. Given the use of mRNA COVID-19 vaccinations which express the spike protein we might expect to see presentation of new rheumatic diseases following their use. We discuss a case where this appears to have occurred. Methods Our patient is a 24-year-old male with mixed phenotype acute leukaemia who had been treated with allogenic stem cell transplant and was currently in remission. He presented with fevers, palpitations, myalgia and bilateral arm and leg swelling. Symptoms began the day after receiving the first dose of an mRNA COVID-19 vaccination (Pfizer/BioNTech.) There were no other symptoms or recent change in medications. Physical examination revealed tender oedema in his forearms, biceps and thighs bilaterally with sparring of the hands. He had reduced power with shoulder (MRC 3/5), elbow (4), wrist (4+) and hip (4) movements. Observations revealed tachycardia and fevers up to 40C. Results Laboratory studies showed markedly elevated C-reactive protein (202), creatinine kinase (6697) and troponin (593) whilst investigations for infection were negative. An autoimmune panel was positive for anti- PM-SCL-75-Ab. An electrocardiogram showed sinus tachycardia. Echocardiogram was normal. Bilateral upper limb dopplers revealed no deep vein thrombus. An MRI of his thighs showed diffuse symmetrical oedema within the muscles, in keeping with an inflammatory myositis. A quadricep muscle biopsy showed evidence of MHC class 1 up-regulation, suggesting an inflammatory process. In addition, there were numerous macrophages evident in the endomysium. While this can be seen in graft-versus-host disease (GVHD), they would usually be found in the perimysium. After discussion between haematology, rheumatology and neurology, this was felt to be a case of vaccine induced myositis and myocarditis. Autoimmune myositis was thought to be less likely due to the relative sparing of the hands and the absence of Raynaud's phenomenon. 1 gram of intravenous methylprednisolone was then given for 3 days. The patient had a marked response with defervescence, improving laboratory markers, improved myalgia and decreased limb swelling. The patient was stepped down to a reducing regime of prednisolone and discharged. Due to relapse whilst weaning he has started on mycophenalate mofetil and rituximab and now continues to improve. Conclusion There are case reports of myositis following COVID-19 vaccination but our patient's case is complicated by the differential diagnosis of GVHD and concurrent myocarditis. Ongoing work is needed to clarify the exact link between vaccination and the presentation of a new inflammatory myositis, but it is important to recognise and start treatment early in order to preserve muscle bulk and ensure recovery.

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