key: cord-0794053-40h4qo2e authors: Li, Jingwen; Long, Xi; Huang, Heqing; Tang, Jine; Zhu, Chunli; Hu, Shaoping; Wu, Jing; Li, Jinghong; Lin, Zhicheng; Xiong, Nian title: Resilience of Alzheimer’s Disease to COVID-19 date: 2020-09-01 journal: Journal of Alzheimer's disease : JAD DOI: 10.3233/jad-200649 sha: 5857c4f418dd8f1dd5ac2dcad15a6f11f4d73311 doc_id: 794053 cord_uid: 40h4qo2e BACKGROUND: Facing the novel coronavirus disease 2019 (COVID-19), most vulnerable individuals are seniors, especially those with comorbidities. More attention needs to been paid to the COVID-19 patients with Alzheimer’s disease (AD), which is the top age-related neurodegenerative disease. OBJECTIVE: Since it is unclear whether AD patients are prone to COVID-19 infection and progression to severe stages, we report for the first time a retrospective analysis of the clinical characteristics of AD patients with COVID-19 pneumonia. METHODS: We conducted a retrospective cohort study of the clinical data of 19 AD patients with COVID-19 pneumonia, compared with 23 non-AD COVID-19 patients admitted at the same time to our hospital. Demographic, clinical, laboratory, radiological, and treatment data were collected and analyzed. RESULTS: Between AD patients and non-AD patients with COVID-19 pneumonia, the pneumonia severity was not significantly different. AD patients had a higher clustering onset than non-AD patients. The median duration from symptom onset to hospitalization were shorter in AD patients than non-AD patients, indicating the former were sent to the hospital by their family or from nursing home earlier than the later. The median duration from hospitalization to discharge seemed shorter in AD patients than non-AD patients. Dementia patients seemed less likely to report fatigue. It is noticed that more AD patients might have pericardial effusion than the non-AD patients. CONCLUSION: AD patients with COVID-19 were in milder conditions with a better prognosis than non-AD patients. AD patients who had adequate access to healthcare showed resilience to COVID-19 with shorter hospital stays. Facing the novel coronavirus disease 2019 (COVID- 19) , most vulnerable individuals are those with comorbidities especially in elderly population. About 15% of confirmed cases progress to the severe COVID-19 pneumonia with Acute Respiratory Distress Syndrome (ARDS). The highest fatality rate of COVID-19 pneumonia was reported for older adults and individuals with weakened immune systems [1] . Since Alzheimer's disease (AD) is a well-known degenerative disease usually affecting the elderly population [2] , it is unclear whether AD patients are prone to be infected with COVID-19 and develop to severe stages. In general, mortality from pneumonia has been reported to be twice as high in individuals with dementia compared to those without dementia [3] . Previous studies on COVID-19 mainly focused on epidemiological, clinical, and radiological features of the patients with confirmed infection [4, 5] . Here we report for the first time a retrospective analysis of the clinical data of 19 AD patients (diagnosed according to the 2011 National Institute on Aging (NIA) -Alzheimer's Association (AA) diagnostic guidelines [6] ) with COVID-19 pneumonia, compared with non-AD patients in our hospital. This is a retrospective cohort study of two groups, 19 consecutive AD patients and 23 age-matched non-AD patients with novel coronavirus pneumonia admitted from January 23, 2020 to March 19, 2020 at Wuhan Red Cross Hospital (WRCH) in Wuhan, China. 19 patients had a clinical diagnosis of probable AD according to NIA-AA diagnostic guidelines. Inclusion criteria included a Mini-Mental State Examination (MMSE) score >19, age between 65-100 years, and willingness to participate in the study. Exclusion criteria were other neurological diseases causing cognitive decline (including severe cerebrovascular disease judged from cranial computed tomography or magnetic resonance imaging) and severe psychiatric diseases such as schizophrenia and major depression. All patients were diagnosed with COVID-19 according to the World Health Organization interim guidance, with positive reversetranscription polymerase chain reaction (RT-PCR) for SARS-CoV-2 (Supplementary Material 1). Epidemiological, demographic, clinical, laboratory, computed tomography (CT) imaging features, and treatment data were collected and analyzed. All data were checked for accuracy by two trained physicians (J.L. and N.X.). Patients were asked about basic information, medical history, exposure history, symptoms, and comorbidities. As a part of standard care, complete blood cell count, tests of kidney and liver function, and measurement of C-reactive protein and lactate dehydrogenase levels were performed. All patients received supportive therapy, including supplemental oxygen when saturations dropped below 92% as measured by pulse oximeter. Patients clinically suspected of having community-acquired pneumonia were administered with antibiotics empirically. Additionally, we use CT scores to evaluate the degree of involvement for five lung lobes. An overall lung "total severity score" was reached by summing the five lobe scores (range of possible scores, 0-25) (Supplementary Material 2) [7] . The study was approved by the WRCH Ethics Committee of the Wuhan Red Cross Hospital and written informed consent obtained from each subject before enrolment, followed by retrospective data collection. Categorical variables were described as frequency rates and percentages, and continuous variables, using a median, minimum or maximum grade. SPSS (Statistical Package for the Social Sciences, version 25) was used for all statistical analyses, with p < 0.05 considered as statistically significant. Continuous variables were expressed as median (range) and compared between independent groups by twotailed Student's t tests; categorical variables were expressed as number (%) and compared by χ 2 tests or Fisher's exact tests; Bonferroni correction was used for multiple testing. All patients had positive RT-PCR test results for SARS-CoV-2. There was no statistically significant difference in age between the two COVID-19 groups, AD versus non-AD, although the females in the AD group were on average older than those in the non-AD group. In the AD group, 68.4% were females and the age range was 69 to 100 years of age. The AD patients had a higher clustering onset than the non- Table 1 Baseline characteristics and laboratory results of 19 AD patients and 23 non-AD patients with COVID-19 Characteristic AD cases (n = 19) non-AD cases (n = 23) p X X X X X X X X Signs and symptoms at admission AD patients (84% versus 22%; p < 0.0001). Besides dementia, some of them had comorbidities such as cardiovascular diseases (58%) and endocrine system disease (37%). The median duration from onset of symptoms to hospitalization was much shorter in the AD patients than the non-AD patients (2 versus 8 days; p = 0.0013). Among the 19 AD patients, there were fever, cough, and shortness of breath, similar to those in the non-AD patients [4, 5] . Fatigue was less likely to be a complaint by the AD patients (21% versus 57%; p = 0.0198), probably because these patients reported this symptom in a delayed manner. Only one AD patient (5%) had anorexia, compared to more than a half of non-AD patients (61%) experiencing this symptom (p = 0.0002). AD patients had less dizziness as well (p = 0.0186). The time from hospitalization to discharge of the AD patients ranged from 1 to 30 days, with a median of 9 days, which was much shorter than the duration for the non-AD group whose median was 23 days (range, 4-38; p = 0.0020). Similar treatments (i.e., oxygen therapy, non-invasive and invasive mechanical ventilation, antiviral and antibiotics treatment) were provided for all patients in both groups. None of the AD patients were treated with intravenous immunoglobulin therapy, compared with 35% non-AD patients with this treatment (p = 0.0050). There was no significant difference in the outcome of survival and death between these two groups. COVID-19 related index levels like ALT, AST, and glucose were on average all lower in the AD group than the non-AD group (ALT, p = 0.0095; AST, p = 0.0254; glucose, p = 0.0285). The median CRP level was lower in the AD patients than the non-AD patients (8.3 versus 45; p = 0.0135). Considering the fact that increased levels of these indexes were typical of COVID-19 [4, 8, 9] , these laboratory results suggested that the acute inflammatory response seemed weaker in the AD than the non-AD patients. Additionally, uric acid levels were significantly increased in AD patients (p = 0.0309) ( Table 1) . Chest CT scans revealed consistent differences between the two groups. Inevitably, both groups showed ground-glass opacification, which was characteristic of COVID-19, as shown by CT images of a representative AD patient in Fig. 1 . Fewer AD patients (21%) showed mixed pattern of ground-glass opacity and consolidation, compared with 65% of the non-AD patients with this image feature, but there is no statistic difference. Crazy paving pattern was shown in only 2 AD patients, compared with 10 non-AD patients (p = 0.0186). It is noticed that more AD patients had pericardial effusion than the non-AD patients (32% versus 4%; p = 0.0184) ( Table 2 ). All these compared indexes indicated that the AD patients had relatively mild conditions due to the timely treatment. In other words, the AD group received early treatment in the hospital so that their symptoms were milder than the non-AD group. We present for the first time a retrospective cohort study of clinical features of a group of AD COVID-19 pneumonia patients and age-matched non-AD COVID-19 pneumonia patients. Our results demonstrated that AD and non-AD patients had similar clinical presentations of COVID-19 pneumonia. AD patients have remarkably good appetites, which may interpret the less reported anorexia in our study. They received similar treatment after hospitalization. Although AD patients were sent to the hospital earlier from onset of symptoms, there was no significant difference in the outcome of survival and death between these two groups. However, AD patients had a conspicuously shorter median duration of hospital stay. The majority of our AD patients lived in nursing homes so they had adequate and prioritized access to healthcare, leading to earlier diagnosis and treatment for shorter hospital stays [10, 11] . Dementia-related characteristics may increase the risks of COVID-19 pneumonia. For example, people with AD may forget to wash hands or maintain social distancing, in addition to taking other precautions to prevent COVID-19 [12] . In addition, a previous report mentioned that older patients with dementia and COVID-19 infection may present with mild and atypical symptoms, namely diarrhea or drowsiness [11] . With timely access to healthcare, the outcome of AD patients with COVID-19 was not significantly different from that of non-AD patients. On the other hand, AD patients achieved a similar recovery rate with significant shorter hospital stays, compared to the non-AD patients. More interestingly, we hypothesize that angiotensin-converting enzyme 2 (ACE2) is another likely mechanism for resilience of AD patients to COVID-19. Previous research has shown that the SARS-CoV-2 uses its spike protein S1 to enter cells by interacting with ACE2 receptor on cell surface membrane [13] . Consistently, it has been reported that ACE2 expression is reduced in AD patients [14] . Animal models have confirmed the reduced ACE2 expression in AD [15, 16] . Currently, investigations are ongoing to study activation of ACE2 versus cognition decline [17] . Based on our results of a retrospective cohort study, we postulate that the shorter hospitalization may be related to reduced expression of ACE2 receptor in AD COVID-19 patients. Similar outcomes between AD and non-AD group patients may be due to timely treatment, professional caring of nursing home, and the ACE2 factor mentioned above. We are also interested in whether the E4 variant of apolipoprotein E (APOE4), the main susceptibility gene for AD [18] , is involved in the protective effect and the better prognosis of our AD group patients with COVID-19. Presence of APOE4 allele has always been recognized as a risk factor for AD. But a recent study reported the AD patients who carried APOE4 had less chronic diseases [19] . We are going to conduct a related exploration in the near future. This study provides an early investigation of AD patients with COVID-19 pneumonia. But there were also some limitations in this study. Firstly, the sample size of our study was small. Secondly, our AD group mostly came from nursing homes, with higher exposure to infection but better care, which may explain the shorter hospital duration on average and the better conditions. Longitudinal studies with larger cohorts at different social settings would help to better understand how to manage vulnerable AD patients, especially those in nursing homes, with COVID-19 pneumonia. 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All data included in this study are available upon request by contact with the corresponding author. The lead authors and manuscript's guarantor affirm that the manuscript is an honest, accurate, and transparent account of the study being reported; that no important aspects of the study have been omitted; and that any discrepancies from the study as planned have been explained. The supplementary material is available in the electronic version of this article: https://dx. doi.org/10.3233/JAD-200649.