key: cord-0987552-eqxfqqic authors: Fernandez-Gutierrez, Benjamin; Leon, Leticia; Madrid, Alfredo; Rodriguez-Rodriguez, Luis; Freites, Dalifer; Font, Judit; Mucientes, Arkaitz; Culebras, Esther; Colome, Jose Ignacio; Jover, Juan Angel; Abasolo, Lydia title: Hospital admissions in inflammatory rheumatic diseases during the peak of COVID-19 pandemic: incidence and role of disease-modifying agents date: 2021-02-04 journal: Ther Adv Musculoskelet Dis DOI: 10.1177/1759720x20962692 sha: 276d67cdf9ae6d2a7174b47630654e2a271842e1 doc_id: 987552 cord_uid: eqxfqqic AIMS: In this pandemic, it is essential for rheumatologists and patients to know the relationship between COVID-19 and inflammatory rheumatic diseases (IRDs). We wanted to assess the role of targeted synthetic or biologic disease-modifying antirheumatic drugs (ts/bDMARDs) and other variables in the development of moderate-severe COVID-19 disease in IRD. METHODS: An observational longitudinal study was conducted during the epidemic peak in Madrid (1 March to 15 April 2020). All patients attended at the rheumatology outpatient clinic of a tertiary hospital in Madrid with a medical diagnosis of IRD were included. Main outcome: hospital admission related to COVID-19. Independent variable: ts/bDMARDs. Covariates: sociodemographic, comorbidities, type of IRD diagnosis, glucocorticoids, non-steroidal anti-inflammatory drugs (NSAIDs), and conventional synthetic disease-modifying antirheumatic drugs (csDMARDs). Incidence rate (IR) of hospital admission related to COVID-19 was expressed per 1000 patient-months. Cox multiple regression analysis was run to examine the influence of ts/bDMARDs and other covariates on IR of hospital admission related to COVID-19. RESULTS: A total of 3951 IRD patients were included (5896 patient-months). Methotrexate was the csDMARD most used. Eight hundred and two patients were on ts/bDMARDs, mainly anti-TNF agents, and Rtx. Hospital admissions related to COVID-19 occurred in 54 patients (1.36%) with an IR of 9.15 (95% confidence interval: 7–11.9). In the multivariate analysis, older, male, comorbidities, and specific systemic autoimmune conditions (Sjögren, polychondritis, Raynaud, and mixed connective tissue disease) had more risk of hospital admissions. Exposition to ts/bDMARDs did not achieve statistical significance. Use of glucocorticoids, NSAIDs, and csDMARDs dropped from the final model. CONCLUSION: This study provides additional evidence in IRD patients regarding susceptibility to moderate–severe infection related to COVID-19. New severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) causes a myriad of clinical signs and symptoms with analytic typical features. As a whole, all characteristics are called Coronavirus disease (COVID- 19) , 1 and it has affected millions of lives worldwide. A majority of COVID-19 patients present no symptoms or mild symptomatology. Other, smaller, subgroups show progression to a moderate disease. A further subgroup apparently develops a syndrome with auto-inflammatory features with critical/fatal outcomes. 2, 3 In this sense, it seems that COVID-19 disease is having a particular incidence and severity in patients with advanced age and comorbidities, mainly diabetes, hypertension, ischemic heart disease, and previous respiratory diseases. 4, 5 Serious infection is a well-recognized cause of morbidity and mortality across a number of inflammatory rheumatic diseases (IRDs). In this pandemic, it is essential for rheumatologists and for patients themselves to know the relationship between COVID-19 and IRD. In this context, several guidances for the management of these patients based on expert opinion have been performed, [6] [7] [8] as there is scarce epidemiological research on the potential risk of IRD and/or disease-modifying antirheumatic drugs (DMARDs) on COVID-19 disease and its severity. A few experiences from Italy and Spain have been recently published, showing that patients with chronic inflammatory arthritis treated with biologic or synthetic DMARDs do not seem to be at increased risk of infection or respiratory complications from SARS-CoV-2 compared with the general population. [9] [10] [11] [12] These preliminary findings, if corroborated, could be very relevant and helpful for the clinical management of IRD patients. The purpose of this study was to estimate the incidence rate of moderate-severe COVID-19 disease, during the pandemic peak, globally and stratified by age, sex, type of diagnosis and therapy used in IRD patients from our health area. Then, we assessed the role of exposition to targeted synthetic or biologic DMARDs (ts/ bDMARDs) in the development of moderatesevere COVID-19 disease, taking into account all other relevant parameters, such as age, sex, comorbidity, conventional synthetic DMARDs (csDMARDs), corticosteroids, non-steroidal anti-inflammatory drugs (NSAIDs) and type of rheumatic diagnosis. The setting is a tertiary hospital of the Public Health System of the Community of Madrid, the Hospital Clínico San Carlos (HCSC), covering a catchment area of 400,000 people. We performed a retrospective observational study during the epidemic peak in Madrid (from 1 March 2020 to 15 April 2020). The study population comprised all patients attended at the rheumatology outpatient clinic of HCSC and followed-up through regular visits every 3-6 months based on type of exposed drugs, diagnosis and severity, from 1 March 2019 until 1 March 2020. Their data were recorded in the health clinical record of our service (HCR Penelope). From these, we included all patients >16 years old with medical diagnosis (according to ICD-10) of inflammatory rheumatic disease including: (a) chronic inflammatory arthritis: rheumatoid arthritis (RA), psoriatic arthritis (PSA), spondyloarthritis (SPA), uveitis, inflammatory bowel disease, juvenile idiopathic arthritis, and inflammatory polyarthritis; (b) systemic autoimmune conditions: Sjögren's syndrome, systemic sclerosis, mixed connective tissue disease (MCTD); systemic lupus erythematosus (SLE), polymyalgia rheumatica (PMR), vasculitis, Behcet's syndrome, sarcoidosis, polychondritis, autoinflammatory syndrome, antiphospholipid syndrome, inflammatory myopathies, and primary Raynaud phenomenon. The study was approved by the HCSC institutional ethics committee (approval number 20/268-E_BS). The primary outcome was the development of moderate-severe COVID-19 disease defined as hospital admission related to COVID-19 during the study period. This definition was based on medical diagnosis ± polymerase chain reaction (PCR) positive diagnostic test. The independent variable was exposure to ts/bDMARDs including: (a) anti-TNF alfa (infliximab, adalimumab, etanercept, certolizumab, golimumab); (b) other biologics: anti-IL6 [tocilizumab (Tozi), sarilumab]; rituximab (Rtx); abatacept (Abata); belimumab (Beli); anti-IL17/23 (ustekinumab, ixekizumab, secukinumab); (c) Jakinibs (JAKi; tofacitinib, baricitinib). As covariables we considered: (1) sociodemographic baseline characteristics including sex, age and IRD duration; (2) type of IRD, including chronic inflammatory arthritis and systemic autoimmune conditions; (3) baseline comorbidity, described in Table 1 ; (4) other chronic treatment for IRD: (a) glucocorticoids, (b) NSAIDs, (c) csDMARDs, including: leflunomide (Lef); methotrexate (Mtx); azathioprine or mycophenolate journals.sagepub.com/home/tab 3 To consider patients who were exposed to drugs, treatment had to start at least one month before the beginning of the study, had to continue during the study period until the end of study or medical admission for Am, glucocorticoids, Ssz, and NSAIDs. Regarding Mtx, Lef, Aza, Cpa and ts/ bDMARDs, treatment had to start at least 1 month before the beginning of the study, had to continue to at least 21 March 2020, end of study (15 April 2020) or hospital admission. In the case of Rtx, the last infusion had to be at least in January 2020. Patient sociodemographic, clinical, and therapeutic data were obtained from the HCR Penelope through face to face or telephonic visits of rheumatologists. SARS-CoV-2 PCR diagnostic tests information was obtained from the microbiology service of HCSC (n = 5577 patients with PCR test performed in the study period). Central Services of the hospital provided us with all the HCSC admissions (n = 1146 in the study period). All information from IRD patients was merged. Patients' characteristics were described as mean and standard deviation for continuous variables, while proportions are shown for categorical variables. Survival techniques were used to estimate the incidence rate (IR) of hospital admissions related to COVID-19. IR is given per 1000 personmonths with a 95% confidence interval. All included patients were followed up from 1 March 2020 to the date of the patient's hospital admission or end of study (15 April 2020). The incidence rate ratio of hospital admissions related to COVID-19 among IRD patients and the population from our health area older than 16 years was assessed. Cox bivariate analyses were done to evaluate statistical differences between hospital admission risks and all variables. Then, Cox multivariate regression model (adjusted by age, sex, type of diagnosis, and comorbidities) was run to examine the possible influence of ts/bDMARDs in hospital admissions regardless of other factors. In the model we also included glucocorticoids, csD-MARDs, and all other variables with a p < 0.2 from the bivariate analysis. Results were expressed as hazard ratio (HR) and confidence interval. Proportional hazard assumption was tested by scaled Schoenfeld residuals. All analyses were performed in Statav.13 statistical software (Stata Corp., College Station, TX, USA). A two-tailed p value under 0.05 was considered to indicate statistical significance. Results 3951 IRD patients were included, with a total follow up of 5896 patients-months. As we shown in Table 1 , mostly were women in their sixties. The main diagnosis was RA, followed by SPA, PMR, PSA and SLE. Regarding comorbidities, hypertension, dyslipidemia, thyroid disease and diabetes mellitus were the most prevalent. Concerning csDMARDs, Mtx was the most used (n = 1461), followed by Am, Lef (n = 333), Ssz, and Aza (n = 245). Six patients were using cyclophosphamide. 32% of the patients did not use csD-MARDs, 47% were on monotherapy and the remaining 21% used at least two concomitant csDMARDs (mainly Mtx+Am; Mtx+Ssz and Mtx+Lef). Concerning ts/bDMARD (n = 802), 12.5% of them were on monotherapy and the remaining 87.5% combined with csDMARDs. The most frequent were anti-TNF agents, followed by Rtx. Hospital admissions related to COVID-19 occurred in 54 patients (1.36%) during the follow-up. 76% were positive to PCR test, 5% were negative and in the remaining 19% the PCR test was not performed. The IR was estimated as 9.15 (7-11.9) per 1000 patient-months. As shown in Table 2 the crude IR could vary depending on different variables. It was higher for men than for women and for those older compared with younger. It seemed lower for those included in the chronic inflammatory arthritis group compared with those from the systemic autoimmune conditions, with As expected age, sex, and several comorbidities, but also the use of glucocorticoids, was statistically associated with hospital admission related to COVID-19 in IRD. NSAIDs and ts/bDMARDs did not achieve statistical significance, but had a trend ( Concerning diagnosis, systemic autoimmune conditions versus chronic inflammatory arthritis did not achieve statistical significance. When we categorized this variable in specific diagnoses (we grouped RA-PSA as reference category based on syndromic similarity and incidence rates), the final model did not change but we found some interesting results: The proportionality of these regression models was tested with a p value = 0.7. This real-world longitudinal study of 1.5 months, has been performed during the period of maximum health emergency due to pandemic COVID-19 in Madrid, the main epicenter of the COVID-19 outbreak in Spain. The study includes a big sample size and a broad spectrum of IRDs treated with or without ts/bDMARDs, csDMARDs, and glucocorticoids. With all this information, we have been able to estimate the IR of hospital admissions related to COVID-19 in IRD, and also to evaluate the influence of ts/ bDMARDs, csDMARDs, types of IRD, and other factors in the risk of hospital admissions related to COVID-19. This pandemic has had a great impact, especially in Madrid, with more than 41,304 hospital admissions until the first week of May. 14 In this study we have been able to show the rise of this incidence from March to April. In our study, the IR of hospital admissions related to COVID-19 in IRD patients was estimated at 9.15 per 1000 patient-months. When we compare the IR of hospital admissions related to COVID-19 among IRD patients and the reference population, it seems that IRDs have an increased risk. Age, sex, therapies, and disease specific factors contribute for sure. Other studies have compared the IR of IRD with their reference population without differences, [10] [11] [12] 15 but they have compared PCR confirmed cases regardless of the severity. Otherwise, two of them 10, 11 did not include patients with systemic autoimmune conditions. Moreover, the IR varies per region and time period. [10] [11] [12] [15] [16] [17] Regarding ts/bDMARDs, the crude IR of hospital admission related to COVID-19 found in our study was lower for those on anti-TNF and higher for those with non-TNF biologics. But in the multivariate analysis the slight statistical differences from the bivariate analysis dissapeared. Interestingly, only one hospital admission related to COVID-19 was found on tocilizumab, and none were found on Abata, anti IL-17/23 nor baricitinib. This may be promising, but we should also bear in mind that the numbers of patients on these drugs were not sufficient to draw specific conclusions. But, in agreement with other authors, [16] [17] [18] [19] ts/bDMARDs, and mainly anti-TNF, do not seem to be associated with worse outcomes in IRD. Another interesting finding of this study is that the crude IR of hospital admissions related to COVID-19 differs among rheumatologic diseases, being somewhat higher in the systemic autoinmune conditions. In the multivariate analysis, these differences remained statistically significant for Sjögren, polychondritis, and MCTD, but also for primary Raynaud phenomenon. Nevertheless, SLE had the same risk as RA-PSA without statistical significance. Other systemic autoimmune conditions did not reach statistical significance, but maybe the number of patients was not high enough to find those differences. Regarding other therapies, the crude IRs seems to be similar in patients with and without csD-MARDs, higher in those on corticoids, and lower in those using NSAIDs. Nevertheless, after the multivariate analysis none of them remained statistically significant. According to Favalli et al., 17 Interestingly, we corroborated the role of age, male sex and comorbidities 2,3 in the susceptibility of moderate-severe COVID-19 disease development. Specifically liver disease, lung disease and venous thrombosis/lung embolism achieved statistical significance in the multivariate analysis. Ischemic vascular disease and diabetes mellitus were only a trend, and hypertension, cancer or dyslipidemia did not achieve statistical signification. We must not forget that data were recorded during routine consultations, with a heavy workload environment, making more likely the possibility of incomplete information, mainly related to comorbidity. It is true that the PCR test should be required as a part of the main outcome definition. However, in all admissions included, almost 20% of them did not have the PCR performed due to a lack of available tests and/or extreme health care overload at that time. Nevertheless, all were reviewed, being clinically compatible and managed as COVID-19. But, if we exclude these cases, the real incidence of hospital admissions related to COVID-19 would be underestimated. Another limitation is that we could have lost hospital admissions that had gone to other hospitals. Two of them were rescued for analysis, and we think there will not be many more, considering the state of alarm and confinement decreed in Spain since 14 March. Another limitation we must not forget is that there may be patients that died/or experienced severe COVID-19 at home who did not go to the hospital and therefore were not recorded as hospital admitted patients; therefore the number of severe COVID-19 might be underestimated. As strengths, we include 3951 non-selected patients with a broad spectrum of IRDs, with not standardized immunosuppressive therapy reflecting clinical practice in our health area, being able to adjust for confounders. To our knowledge, this is the largest study to date outlining the severity of COVID-19 in terms of hospital admissions in IRD. It seems that patients with IRD could have a higher susceptibility of moderate-severe COVID-19 disease development compared with the general population, maybe due to systemic autoimmune diseases rather than chronic inflammatory arthritis. Moreover, we have been able to analyze to a greater extent the safety surrounding the administration of disease-modifying treatments. It seems that predisposition to develop moderate-severe COVID-19 disease in IRD is due to the type of diagnosis, age, sex and comorbidities, rather than the treatments exposed, including ts/bDMARDs and csDMARDs. The study was approved by the HCSC institutional ethics committee (approval number 20/268-E_BS). It was carried out in accordance with the protocol and with the standard work procedures that ensure compliance with the Declaration of Helsinki and Good Clinical Practice standards, regulated by (EU) 2016/679 of the European Parliament and of the Council of 27 April 2016 on data protection (RGPD) that entered into force on 25 May 2018. Retrospective data have been obtained during routine clinical practice with the informed consent of the patients to be treated in a service that performs assistance and research tasks. Taking into account the health emergency that constitutes the pandemic, the critical situation of the patients, the absence of direct intervention on them and the effort to collect the consent of their relatives, the ethics committee considered justified the absence of obtaining informed consent. The exploitation of COVID-19 with pulmonary involvement. 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Epub ahead of print 22 A descriptive observational analysis Incidence and clinical course of COVID-19 in patients with connective tissue Covid-19 in immune-mediated inflammatory diseasesjournals.sagepub.com/home/tab case series from New York Characteristics associated with hospitalisation for COVID-19 in people with rheumatic disease: data from the COVID-19 Global Rheumatology Alliance physician-reported registry Efficacy of hydroxychloroquine in patients with COVID-19: results of a randomized clinical trial Breakthrough: chloroquine phosphate has shown apparent efficacy in treatment of COVID-19 associated pneumonia in clinical studies Baseline use of hydroxychloroquine in SLE does not preclude SARS-COV-2 infection and severe COVID-19 Clinical course of coronavirus disease 2019 in a series of 17 patients with SLE under long-term treatment of hydroxychloroquine We want to thank the patients for making this study possible. The authors would also like to thank Ana M Perez for their help in the data collection. A special thank you to all rheumatologist and nurse colleagues who contributed in the care of the patients in an innovative and so involved way.Author contributions BF, LL, JAJ, LRR, and LA contributed to the conception and design of the study. DF, JF, AMG, AM, JIC, and LL were involved in data collection. LA, AMG, and JIC were involved in database management. LA and LL performed the data analysis and interpretation of data. All authors contributed to drafting and/or revising the manuscript. The authors declare that there is no conflict of interest.