key: cord-0929882-flihosj3 authors: Cosco, Theodore D; Best, John; Davis, Daniel; Bryden, Daniele; Arkill, Suzanne; van Oppen, James; Riadi, Indira; Wagner, Kevin R; Conroy, Simon title: What is the relationship between validated frailty scores and mortality for adults with COVID-19 in acute hospital care? A systematic review date: 2021-01-14 journal: Age Ageing DOI: 10.1093/ageing/afab008 sha: eba904b520e8bffb9a0cafc03cf9ea175e917681 doc_id: 929882 cord_uid: flihosj3 BACKGROUND AND AIM: The aim of this systematic review was to quantify the association between frailty and COVID-19 in relation to mortality in hospitalised patients. METHODS: Medline, Embase, Web of Science and the grey literature were searched for papers from inception to 10 September 2020; the search was re-run in Medline up until the 9 December 2020. Screening, data extraction and quality grading were undertaken by two reviewers. Results were summarised using descriptive statistics, including a meta-analysis of overall mortality; the relationships between frailty and COVID-19 mortality were summarised narratively. RESULTS: A total of 2,286 papers were screened resulting in 26 being included in the review. Most studies were from Europe, half from the UK, and one from Brazil; the median sample size was 242.5, median age 73.1 and 43.5% were female. In total, 22/26 used the Clinical Frailty Scale; reported mortality ranged from 14 to 65%. Most, but not all studies showed an association between increasing frailty and a greater risk of dying. Two studies indicated a sub-additive relationship between frailty, COVID-19 and death, and two studies showed no association. CONCLUSIONS: Whilst the majority of studies have shown a positive association between COVID-19-related death and increasing frailty, some studies suggested a more nuanced understanding of frailty and outcomes in COVID-19 is needed. Clinicians should exert caution in placing too much emphasis on the influence of frailty alone when discussing likely prognosis in older people with COVID-19 illness. The COVID-19 pandemic has had a disproportionate impact upon older people. An emerging feature of the clinical response has been to use the frailty construct to estimate likely outcomes or direct treatment escalation planning [1, 2] . Frailty is a state of increased vulnerability to poor resolution of homeostasis after a stressor event, which increases the risk of adverse outcomes, including delirium, disability and death [3] [4] [5] . Where frailty has previously been studied in the critical care context, lower levels of frailty have been associated with better outcomes [6] . This data may have informed the decision by the National Institute of Clinical Excellence to encourage the use of the Clinical Frailty Scores (CFSs) when considering critical care escalation in older people with COVID-19 illness [2] . At the time of the NICE guidance being issued, there had been no studies validating such an approach in the context of COVID-19. Since, a number of studies have assessed outcomes from COVID-19 in older people, using various frailty scales. The aim of this review was to synthesise emerging findings by quantifying the association between frailty and COVID-19 illness in relation to mortality in hospitalised patients. The full systematic review protocol has been published elsewhere (PROSPERO ID: CRD42020200445) [7] ; the only change to the protocol was the extension of the search period (see below). Medline, Embase and Web of Science databases were searched with exploded MeSH headings and relevant keywords, restricted to English language. Databases were searched from inception to 10 September 2020, and references were managed using Endnote software. The reference lists of included full-texts were hand-searched for additional papers. Indicative search terms are displayed below; these were modified accordingly for each database. 'Frail * ' AND COVID-19 (('COVID-19' OR 'COVID-2019' OR 'severe acute respiratory syndrome coronavirus 2' OR 'severe acute respiratory syndrome coronavirus 2' OR '2019-nCoV' OR 'SARS-CoV-2' OR '2019nCoV' OR (Wuhan AND coronavirus)). Grey literature was accessed by searching: Open Grey, medRxiv, and bioRxiv. A focused search was re-run in Medline on the 9 December 2020 to seek out more recent studies. • Studies published from inception to 9 December 2020. • Original peer-reviewed articles, pre-prints, conference proceedings and letters to the editor reporting primary data, in any language. • Studies reporting mortality as related to frailty in individuals diagnosed with COVID-19 in acute hospital settings. • Frailty identified using a recognised frailty instrument. • Participants with a positive diagnosis of COVID- 19 (Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) Ribonucleic acid Polymerase Chain Reaction (RNA-PCR) positive or specialist clinical opinion). • Participants aged 18 years or older. • Studies not involving humans. • Articles not reporting primary data. • Studies in which COVID-19 was self-diagnosed. Two independent reviewers (TDC and KW or SC and JvO) assessed the study quality using the Newcastle-Ottawa Quality Assessment Scale (NOS). The NOS scale uses a star system assess the validity of studies in the domains of the selection and comparability of cohorts, and the ascertainment of either the exposure or outcome of interest. This gives rise to quality ratings: A maximum of 2 stars were possible in the selection domain, as cohorts were not matched for frailty. Two reviewers (TDC and KW/IR or SC and JvO) identified and exported articles identified by the search strategy into EndNote reference software; duplicates were deleted. Independent title and abstract screens were conducted by TDC, KW or SC identifying articles for full-text extraction. Fulltext screening was used to identify a final list of included studies. Relevant data were extracted by two independent researchers (JB and TDC, or SC and JvO) from the included studies into a pre-established extraction form. Summary statistics for age were combined, after converting medians/IQRs into means and standard deviations using Wan's method [8] . Overall mortality was summarised using meta-analysis, with heterogeneity assessed using the I-squared statistic [9] . A meta-analysis summarising the effect of frailty on COVID-19 mortality was planned but the heterogeneity in study designs, frailty tools used and reporting of mortality made this impossible. No ethical approval was required for this work. The initial searches identified 2,276 records of which 650 were duplicates, leaving 1,626 papers for review. After scrutinising the titles and abstracts against the eligibility criteria, 36 papers were retained for full-text review; a further 10 papers were identified on re-running the search in Medline, leading to 26 papers being included for data abstraction ( Figure 1 ). The summary characteristics are shown in Table 1 . Thirteen of the 26 studies were from the UK, 13 from other European countries and one from Brazil. All studies reported findings from acute hospitals (secondary care), with Crespo et al. [10] reporting specifically on renal transplant recipients, Doglietto on surgical patients [11] and three studies reported from COVID-19 dedicated hospitals (Marengoni [12] , Mendes [13] , Poco [14] ); all the other studies reported outcomes for general, acute medical care. All studies described outcomes in people with clinically diagnosed and PCR-confirmed COVID-19, with the exception of Miles (contemporaneous matched controls), Owen and Aw (clinical and PCR positive versus clinically positive only) and Doglietto (historical matched controls). Most of the studies were fair-good quality according to the NOS ( Table 1 ). The median sample size was 242.5 (IQR 108-656); the largest study reported on over 18,000 participants from Turkey (Kundi) [15, 16] . Overall, the median age of included participants was 73.1 years (IQR 69.3-81.1), and 43.5% were female. Where reported, the majority of studies reflected white participants, except for Apea [16] , which had a majority of non-white participants. Frailty was assessed using the CFS in 22 studies, one used the Hospital Frailty Risk Score (HFRS), one used both CFS and HFRS, one Fried's frailty phenotype and one used the Frail Non-Disabled survey (FIND). Infection causing COVID-19 illness was confirmed using clinical features and a positive PCR in all studies though Hagg [17] , Hewitt [18] , Marengoni [12] , Mendes [13] , Owen [19] , Poco [14] and Steinmeyer [20] also included people with clinical diagnoses but negative PCR tests. Mortality was varied widely across the studies, ranging from 14 to 65%; studies reported mortality at different time points (5-60 days), some reported in-hospital deaths only and others all deaths in and outside of the hospital over the followed period. A descriptive summary is shown in Table 2 and a meta-analysis summarising overall mortality in Figure 2 (random effects were used as heterogeneity was high, I-squared 97.3%, P = 0.000). Nine studies reported mortality over time using hazard ratios (HRs) to describe the effect of frailty (Apea, Aw, Chinnadurai, Hagg, Hewitt, Marengoni, Mendes, Miles, Owen); all used the CFS and with the exception of Chinnadurai, adjusted for important baseline covariates. However, these studies used different cut-points of the CFS, as well as different covariates, which meant combining the results in a meta-analysis was not possible. These studies did, however, all show an increase in the risk of dying with increasing levels of frailty, although Miles and Owen both found a 'subadditive' effect in the most severe frailty groups, in which the increased risk of dying was less than might have been expected. Six studies (Cobos-Siles, De Smet, Kundi, Rawle, Tehrani, Thompson) reported mortality risk as odds ratios, some using the CFS others the HFRS, again with a range of covariates and different CFS categories. It was not possible to combine these data, however, with the exception of Thompson et al., they all showed an increased odds of dying with increasing levels of frailty. The remaining 11 studies used a range of frailty measures in different ways to describe some aspect of COVID-19related mortality, such that combining results would not be clinically meaningful. Most of these studies with the exception of Steinmeyer et al. tended reported an association between increased risk of dying and increase levels of frailty. In summary, the majority of studies found a positive association between increasing frailty and COVID-19-related mortality-but not all. Miles and Owen both found an interaction between frailty and PCR testing that attenuated the expected mortality associated with increasing frailty. Steinmeyer et al. and Thompson et al. found that frailty was not a significant predictor in an adjusted analysis. In a univariate Cox regression, frailty was not associated with mortality (25% mortality among 'robust' individuals vs 15% mortality among 'frail' and 'dependant'. CI, confidence interval; BMI, body mass index; IMD, index of multiple deprivation. This systematic review identified 26 studies assessing the influence of frailty on COVID-19-related mortality in hospitalised patients. The overall quality of the studies was reasonable, and the majority of studies showed that in older people hospitalised with COVID-19 illness that frailty was associated with COVID-19-related mortality. However, this was not consistent across all cohorts, with some showing a more complex interaction between frailty and COVID-19 status: two studies found a sub-additive interaction with frailty) i.e. that the mortality seen in severely frail older people was not as high as expected and that excess mortality was observed in those relatively fitter). This may relate to a selection effect, as policy and practice during the pandemic emphasised avoiding hospitalisation in many settings (e.g. national lockdowns). Patients with higher frailty scores are more likely to represent care-home residents, in whom COVID-19 illness might be managed in the community [36] . Treatment effects varied over time, for example, greater or lesser use of critical care or treatment escalation plans, or the introduction of 'new' treatments such as Dexamethasone, which could have affected outcomes. Less frail patients may have had more aggressive treatment than those with increased levels of frailty, and this practice may have changed over time and varied between centres. Taken together, whilst the bulk of the studies find the 'expected' relationship between frailty and COVID-19 mortality, our findings suggest a more nuanced understanding of frailty and outcomes in COVID-19 is needed. This review was methodologically robust according to the quality of reporting of meta-analyses and PRISMA reporting guidelines. It is possible that in this new field, emerging studies not yet published may have been missed, although we searched pre-print collections in an effort to minimise this risk, as well as updating the search in December 2020. The British Geriatrics Society has agreed to host a live update of this review so that future studies can be incorporated into the analysis (https://www.bgs.org.uk/covidfrailty). Whilst the individual papers included in the review were of fair-good quality, frailty (its operationalisation and reported cut-points) and mortality were reported variably across the studies, making meta-analysis and comparisons difficult. Most of the studies were from Europe-mostly the UKwhich may limit generalisability to other health systems. We focused upon studies reporting outcomes for hospitalised patients, so we cannot make any comment about COVID-19-related risk in the wider population, in particular in care homes or population samples. We did not examine other risk scores designed to predict outcomes from COVID-19, such as those looking at comorbidities or biomarkers [29, [37] [38] [39] , as these are separate constructs from frailty. In clinical practice, both physiological risk scores and frailty risk scores would be used together to inform prognostication, and future work might compare the relative merits of combined risk scoring. We focused upon mortality, but outcomes such as function, cognition or quality of life are equally, if not more important, especially for older people [40] . However, in this relatively early stage of the COVID-19 pandemic, we anticipated that there would be very few studies reporting such outcomes, though this will be an important area upon which to focus in the future. The CFS appears to perform similarly to other predictors of mortality in the context of COVID-19, such as the Palliative Performance Scale [38] , but perhaps less well than the 4C Mortality Score, developed and validated specifically in COVID-19 cohorts [39] . Whilst mortality in hospital may be related to frailty, wider determinants of health have an important impact upon country-specific survival rates. Paradoxically, 1% decrease in pre-existing all-cause mortality is associated with a 4.1% increase in the COVID-19 death rate in those ≥60 years of age, thought to be related to an unhealthy survivor effect i.e. longevity at the price of dependency and increased susceptibility to COVID-19 (e.g. care home populations) [41] . Larger, more robust studies examining the relationship between COVID-19 and frailty are needed to resolve the limitations of the existing papers. Future studies should preserve the integrity of frailty scales so that comparisons can be made across studies [42] and should take account of the apparent interaction between frailty and COVID-19 testing [19, 32] . Clinicians should exert caution in placing too much emphasis on the influence of frailty alone when discussing likely prognosis in older people with COVID-19 infection. No tool should be used in isolation to direct clinical care, though frailty scores can form part of a more holistic assessment to inform a shared decision-making discussion. Frailty can be useful in identifying the risk of complications such as delirium-increasingly being recognised as a high-risk scenario [20, 43, 44] -and further frailty or deconditioning [45] . Updated clinical guidance on frailty and COVID, as well as other resources are available here, https://www.criti calcarenice.org.uk/, and the British Geriatrics Society will maintain a live web-repository of COVID and frailty studies here: https://www.bgs.org.uk/covidfrailty. Frailty and COVID-19: a systematic scoping review COVID-19 rapid guideline: critical care in adults. 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