Susceptibility for SARS-CoV-2 infection and neurodegenerative disorders

The odds of infection with SARS-CoV-2 are about 1.5 to 3.0 times higher in individuals with pre-existing neurodegenerative disorders. Age and gender are known risk factors for various chronic diseases.^{Reference Bellou, Tzoulaki, van Smeden, Moons, Evangelou and Belbasis172} In fact, older individuals are more susceptible to SARS-CoV-2^{Reference Wang, Baker, Quan, Shen, Fekete and Gu173} because of age-related changes in the immune system, which deteriorate immune response and efficiency.^{Reference Azarpazhooh, Amiri, Morovatdar, Steinwender, Rezaei Ardani and Yassi18,Reference Nikolich-Zugich, Knox, Rios, Natt, Bhattacharya and Fain174} The living conditions of individuals with a neurodegenerative disorder may be a risk factor, since long-term care facilities (e.g. nursing homes) are predominantly tenanted by the elderly, 48–50.4% of whom have Alzheimer's disease or other dementias.^{10,Reference Harris-Kojetin, Sengupta, Park-Lee, Valverde, Caffrey and Rome175} The combination of age and age-related comorbidities (e.g. neurodegenerative disorders) with proximity and exposure of vulnerable individuals in communal housing, through shared (overcrowded) spaces, may translate to increased susceptibility to COVID-19.^{Reference Bianchetti, Rozzini, Bianchetti, Coccia, Guerini and Trabucchi17} Nevertheless, associations that were controlled for age also yielded significant findings. Additionally, factors such as poor health behaviour (e.g. decreased physical activity) and non-adherence to public health measures may play a significant role in explaining the increased risk for infection with SARS-CoV-2 in individuals with neurodegenerative disorders. This may be attributed to the inability to comprehend the severity of contracting the virus and thus the necessity of complying with the protocols, owing to memory loss and cognitive impairment in individuals with dementia or MCI.^{Reference Liu, Sun, Wang, Zhao, Huang and Li2,Reference Bianchetti, Rozzini, Bianchetti, Coccia, Guerini and Trabucchi17} A further explanation may be an unwillingness to adhere to the measures owing to apathy,^{Reference Liu, Sun, Wang, Zhao, Huang and Li2} which is evident in individuals with dementia.^{Reference Cagnin, Di Lorenzo, Marra, Bonanni, Cupidi and Laganà176} There were no data on whether there was preferential testing among people with dementia that might have led to an increased likelihood of having a diagnosis.

In some instances, we were unable to run subgroup analyses for some of the disorder types by continent (e.g. Asia) owing to the lack of data. Nevertheless, there were some differences in SARS-CoV-2 susceptibility among the geographic continents (i.e. Asia, America, Europe). This might be explained by the financial opportunities of each country to implement safety measures. In addition, owing to better financial resources and advanced medical technology, such as laboratories, (self-) diagnostic kits, and public and private funded testing stations in high-income countries, more cases have been detected in high-income countries compared with low-income countries.^{Reference Bayati177} Similarly, nursing homes, more common in high-income countries, tend to have a larger elderly population than in low-income countries, which may also explain differences among continents.^{Reference Azarpazhooh, Amiri, Morovatdar, Steinwender, Rezaei Ardani and Yassi18}

Severity, course and outcome of SARs-CoV-2 and neurodegenerative disorders

Individuals with most types of pre-existing neurodegenerative disorder are disproportionally affected by COVID-19 once infected. These effects were evident over disease types and outcome, suggesting an approximately twofold increase in risk of more severe illness, and a relatively poor course and outcome, for people with pre-existing dementia, and about a fourfold increase in risk of hospital admission in people with Alzheimer's disease. It has conclusively been shown that age is a risk factor for severe COVID-19.^{Reference Statsenko, Al Zahmi, Habuza, Almansoori, Smetanina and Simiyu178} However, analyses controlled for age yielded similar findings. A possible explanation for the observed findings may be deleterious interactions between COVID-19 and some specific clinical presentations and comorbidities inherent in neurodegenerative disorders. The atypical manifestation of COVID-19 symptoms in the elderly may lead to a delay in detection and diagnosis of the virus, accelerating the risk of developing severe complications and therefore resulting in a higher risk of hospital admission and ICU admission.^{Reference Dadras, SeyedAlinaghi, Karimi, Shamsabadi, Qaderi and Ramezani179,Reference Putri, Hariyanto, Hananto, Christian, Situmeang and Kurniawan180} In addition, dementia is associated with oropharyngeal dysphagia,^{Reference Rajati, Ahmadi, Naghibzadeh and Kazeminia181} a serious comorbidity or complication that independently increases the risk of pneumonia, malnutrition and mortality.^{Reference Banda, Chu, Chen, Kang, Jen and Liu182} Furthermore, Parkinson's disease, dementia and dysphagia are well-known independent and substantial risk factors for pneumonia,^{Reference Torres, Peetermans, Viegi and Blasi183} which is a common cause of death in advanced dementia.^{Reference Mitchell, Teno, Kiely, Shaffer, Jones and Prigerson184} A notable exception that was observed is that people with pre-existing dementia are less likely to be admitted to an ICU because of COVID-19. We are not aware of any studies showing that widespread vaccination altered this association. This finding might best be explained by the triage criteria (e.g. age, frailty and likelihood of benefit) commonly used in disaster situations to maximise the number of survivors.^{Reference Antommaria, Gibb, McGuire, Wolpe, Wynia and Applewhite185,Reference Bledsoe, Jokela, Deep and Snyder Sulmasy186} In countries such as Belgium and the UK, it is advised against admitting to an ICU individuals aged 65 years or older presenting a Clinical Frailty Scale (CFS) score ≥5, who have been diagnosed with COVID-19 or are suspected of having contracted the virus.^{Reference De Smet, Mellaerts, Vandewinckele, Lybeert, Frans and Ombelet90,187} Another significant finding is that individuals with pre-existing neurodegenerative disorders are at higher risk for mortality. This finding is in line with previous studies, demonstrating that in 2020, recorded deaths from Alzheimer's disease and from dementia were respectively 13% and 17% higher than expected, compared with 5 years earlier.^10,188 It should be noted that we conducted separate meta-analyses focused on unadjusted effect estimates and on adjusted effect estimates, and all associations yielded significant findings when adjusted for age and gender.

The results of these meta-analyses raise the question of whether the increased susceptibility of people with neurodegenerative diseases to COVID-19 and poorer outcome may be attributable (at least partly) to biological factors and support a research agenda on this topic. We propose two main putative pathophysiological underpinnings that deserve further investigation: (a) a dysfunction of first barrier mucosal defences, leading to a higher infection rate and (b) a deteriorated, slower immune response to SARS-CoV-2, particularly an impaired T-cell immunity, essential to reduce the severity of the infection and facilitate the recovery of infected individuals. The first hypothesis may be approached by the investigation of the possible role in SARS-CoV-2 infection rates of oropharyngeal dysphagia, common in dementia,^{Reference Rajati, Ahmadi, Naghibzadeh and Kazeminia181} and the effect of reduced salivary lactoferrin levels in Alzheimer's disease, which will reduce the defence mechanisms against SARS-CoV-2 and increase COVID-19 susceptibility.^{Reference Bartolomé, Rosa, Valenti, Lopera, Hernández-Gallego and Cantero189} The second one would require an investigation of the clinical significance of some changes in peripheral blood cell profiles involved at least in Alzheimer's disease and related to inflammation and immune dysfunction, such as the CD4/CD8 ratio,^{Reference Huang, Zhang, Wang and Wang190} which in turn may contribute to severe COVID-19.^{Reference De Zuani, Lazničková, Tomašková, Dvončová, Forte and Stokin191} In addition, individuals homozygous for apolipoprotein E (APOE) ε4 have shown a higher risk of COVID-19-related hospital admission, which could be explained by the changes associated with APOE ε4 that lead to extensive central nervous system inflammation, neurodegeneration and aggressive inflammatory response due to increased blood–brain barrier permeability, exacerbated microglia-mediated neuroinflammation and increased cytokine production in response to inflammatory stimuli.^{Reference Numbers and Brodaty192}

Strength and limitations

This meta-analysis followed MOOSE^{Reference Stroup, Berlin, Morton, Olkin, Williamson and Rennie26} and PRISMA^{Reference Moher, Liberati, Tetzlaff and Altman27} guidelines. In addition, a review protocol was pre-registered with the PROSPERO database. In support of the open science movement to promote transparency, expand access and broaden the range of research output, all the extracted data are openly available at the Open Science Framework (OSF). A further key strength of the study is the inclusion of independent data, which is a crucial assumption in meta-analysis.^{Reference Cheung193} Given that most of the conducted research on the topic of interest is based on freely accessible electronic data-sets, overlapping data-sets were anticipated. Hence, we carefully followed an inclusion protocol, ensuring that no duplicate data were used in each meta-analysis. To achieve this, we ran analyses for both local and nationwide data, and reported similarities or differences among the analyses. An additional strength of the study is the composition of the data-sets. We reported on several outcomes stratified by type of neurodegenerative disease. Last, our study makes use of both frequentist and Bayesian methods. Using this enhanced methodology in our meta-analysis enabled the collection of more exhaustive and reliable data regarding the association between various types of pre-existing neurodegenerative disease and SARS-CoV-2 susceptibility, course and outcome. In this meta-analysis both the frequentist and the Bayesian method showed comparable results, which suggests consistency and overall robustness of the findings.

Aside from these strengths, several limitations need to be considered. First, most of the meta-analyses revealed high between-study heterogeneity which remained unexplained, and publication bias was found in associations between dementia and COVID-19 severity and mortality. Three of the analyses had a small number of studies (fewer than 10) and were difficult to interpret and thought to be unreliable. Accounting for this by means of trim-and-fill methods did not result in different estimates. For the analyses on the associations between dementia and mortality and between mixed dementia and mortality, the trim-and-fill yielded slightly smaller yet significant effect-size estimates (funnel plots and trim-and-fill analyses can be found in the supplementary material). The number of studies for certain outcomes and disease types was relatively small, which may have resulted in high levels of between-study heterogeneity.^{Reference von Hippel194} However, this could also be attributed to the scarce reporting on potential sources of heterogeneity (such as diagnostic criteria, time frame of diagnostic assessment, type of analysis used) in the majority of studies. Consequently, inadequate reporting limited the ability to examine the effect of these sources by running subgroup analyses, sensitivity analyses or meta-regression. Moreover, primary studies that specified subgroups of neurodegenerative disorders reported effect estimates for each category using the entire sample, rather than by subsample. We were therefore unable to pool all effect estimates for some disease types. The Cochrane handbook advises that results derived from meta-regression should be interpreted only when there are >10 studies available per analysis.^{Reference Higgins and Thomas195} Sometimes we reported results based on fewer studies. Last, we cannot attribute causality to the relationships we reported on as all studies were observational and most retrospective.

Implications

Our findings underline the importance of vaccine priority and health surveillance in people with pre-existing neurodegenerative disease, in the current and possibly a next pandemic.