key: cord-1029353-cj2rc3s2
authors: Brendish, Nathan J; Poole, Stephen; Naidu, Vasanth V; Mansbridge, Christopher T; Norton, Nicholas; Borca, Florina; Phan, Hang TT; Wheeler, Helen; Harvey, Matthew; Presland, Laura; Clark, Tristan W
title: Clinical characteristics, symptoms and outcomes of 1054 adults presenting to hospital with suspected COVID-19: a comparison of patients with and without SARS-CoV-2 infection
date: 2020-09-28
journal: J Infect
DOI: 10.1016/j.jinf.2020.09.033
sha: cbfeb45cdaf8211072a2cc7bfff5ebbb4d3b93dd
doc_id: 1029353
cord_uid: cj2rc3s2

OBJECTIVES: Most reports describing the characteristics of patients hospitalised with COVID-19 lack a comparator group. We compared clinical characteristics, symptoms, and outcomes of adults presenting to hospital during the pandemic first wave, who tested positive and negative for SARS-CoV-2. METHODS: Detailed patient data was obtained from a large, controlled, non-randomised trial of molecular point-of-care testing versus laboratory RT-PCR for SARS-CoV-2 in adults presenting to a large UK hospital with suspected COVID-19. RESULTS: 1054 patients were included: 352 (33.4%) tested positive and 702 (66.6%) negative. 13.4% (47/352) COVID-19-positive patients had COPD versus 18.7% (131/702) of COVID-19-negative patients (difference=5.3% [95%CI -9.7% to -0.5%], p=0.0297). 5.7% (20/352) of COVID-19-positive patients were smokers versus 16.5% (116/702) of negative patients (difference=-10.8% [-14.4% to -7.0%], p=0.0001). 70.5% (248/352) of COVID-19-positive patients were White-British versus 85.5% (600/702) of negative patients (difference=-15.0% [-20.5% to -9.7%], p<0.0001). 20.9% (39/187) of COVID-19-positive patients were healthcare workers versus 5.2% (15/287) of negative patients (p<0.0001). Anosmia was reported in 33.1% (47/142) versus 8.8% (19/216) of COVID-19-positive and negative patients respectively (p<0.0001). Non-SARS-CoV-2 respiratory viruses or atypical bacteria were detected in 2.5% (5/197) of COVID-19 patients versus 7.9% (24/302) of COVID-19-negative patients (p=0.0109). Hospitalisation duration and 30-day-mortality were higher in COVID-19 patients and invasive ventilation was more frequent (11.1% vs 2.8%, p<0.0001), and longer (14.5 vs 4.7 days, p=0.0015). CONCLUSIONS: There were substantial differences between patients with and without COVID-19 in terms of ethnicity, healthcare worker-status, comorbidities, symptoms, and outcomes. These data can inform healthcare planning for the next phase of the pandemic.

The COVID-19 pandemic caused by SARS-CoV-2 has led to over 21 million cases and over 700,000 deaths worldwide [1] . Over 130,000 patients have been admitted to hospitals in the UK with confirmed COVID-19 [2] .

Large cohort studies of patients presenting to hospital with COVID-19 from countries including the USA, China, Spain, and the UK, have improved our understanding of the disease [3] [4] [5] [6] [7] [8] [9] . Cohort studies of hospitalised patients have shown that about a quarter of patients with severe COVID-19 die, and that risk factors such as age, obesity, male sex, and comorbidities are associated with adverse outcomes.

However, published cohorts of patients with severe COVID-19 have typically lacked a comparison or control group.

This weakness means that clinical guidance, decision making, and pre-test risk stratification of patients with suspected COVID-19 is incomplete.

We did a large, non-randomised, controlled trial of molecular point-of-care testing (mPOCT) for SARS-CoV-2 in adults presenting to hospital with suspected COVID-19 (the CoV-19POC trial) [10] . Within the CoV-19POC trial is a large cohort of patients: patients who have tested positive and patients who have tested negative for SARS-CoV-2.

The aim of the study presented here was to examine and compare the clinical characteristics, symptoms, and outcomes of adult patients presenting to hospital testing positive and negative for COVID-19, using data collected from a large clinical trial.

The CoV-19POC trial was a prospective, interventional, non-randomised study of mPOCT implementation. The CoV-19POC trial protocol is freely available [11] . The study reported here is a cohort study including all patients in the analysed in the CoV-19POC trial. The sample size is therefore based on a convenience sample.

The inclusion criteria, in brief, were adults (≥18 years old), presenting to the Emergency Department or Acute Medicine Unit or other admissions area of Southampton General Hospital, UK, with an acute respiratory illness or 5 otherwise clinically suspected of having COVID-19. Patients were tested with the QIAstat-Dx Respiratory SARS-CoV-2 Panel (QIAGEN, Germany) as mPOCT or on-site laboratory testing by RT-PCR using the Public Health England recommended assay. The QIAstat-Dx Respiratory SARS-CoV-2 Panel is a multiplex PCR panel that detects: SARS-CoV-2 (E and Orf1 genes), influenza A (H1N1/2009, H1, H3), influenza B, coronaviruses (229E, HKU1, NL63, and OC43),   parainfluenza viruses (1, 2, 3, and 4), adenovirus, respiratory syncytial virus, human metapneumovirus, bocavirus, and rhinovirus/enterovirus plus Mycoplasma pneumoniae, Legionella pneumophila, and Bordetella pertussis [12, 13] .

The study was amended once to update the time period of the control group to be contemporaneous to the intervention group. The study was approved by Regional Ethics Committee South Central -Hampshire A on 16 th March 2020 (reference 20/SC/0138), and prospectively registered on an international database (ISRCTN14966673).

Patients who received mPOCT gave fully informed written consent and were asked detailed questions on their symptoms prior to mPOCT result. Questions about anosmia were added five days after the trial started as supporting evidence emerged. Only routinely collected data was used in the RT-PCR group. Retrospective outcomes data collection was completed from electronic medical records. Potential bias was reduced by prospective data collection where possible prior to mPOCT result, and by wide inclusion criteria with minimal exclusion criteria.

Patients with COVID-19, as defined by PCR positivity by either mPOCT or laboratory testing were compared to those without COVID-19. Statistical analyses were done with Prism version 8.2.1 (GraphPad Software, La Jolla, CA, USA).

Categorical variables, summarised in counts and percentages, were compared using differences in proportions using Chi-squared or Fisher's exact test. Continuous variables, expressed as medians and interquartile ranges (IQR), were compared using the Mann-Whitney U test. Missing data were <2% in all analyses unless stated otherwise. This study is reported according to the STROBE guideline.

Overall 1054 adults presenting to hospital with acute respiratory illness or otherwise suspected of having COVID-19 were tested for SARS-CoV-2 and included in this analysis: 352 (33.4%) tested PCR positive and 702 (66.6%) tested PCR negative for SARS-CoV-2. The patients presented to hospital between 20 th March and 29 th April 2020, corresponding to the peak of the first wave of the pandemic in the UK [2]. Demographics, comorbidities, and presenting clinical and laboratory features Table 2 ). There were proportionally more COVID-19 positive patients of Indian On the first set of observations (vital signs) at presentation to hospital, patients with COVID-19 had a higher proportion of fever (≥37.8°C) than patients without COVID-19 ( 

The median duration of symptoms prior to hospital presentation was longer in COVID-19 positive patients than COVID-19 negative patients, 5 days (2 to 9) vs 3 days (1 to 7), difference of 2 [0 to 2], p=0.0021) ( Table 1) .

Sore throat, cough, sputum, fever, chills, fatigue, reduced appetite, headache, diarrhoea, and anosmia (Table 3) were more frequently reported in COVID-19 positive patients than in negative patients. Anosmia was found in 33.1% 

Patients with COVID-19 more frequently received antibiotics than patients who did not have COVID- 19 p<0.0001). Patients with COVID-19 were more likely to receive high flow nasal oxygen or non-invasive ventilation at any time during hospitalisation, and the duration of non-invasive ventilation was longer than patients who did not have COVID-19 ( 

This large study of adults presenting to hospital with suspected COVID-19 shows that patients with COVID-19 have substantial differences in ethnicity, health care worker status, smoking status, physiological markers including observations and blood tests, symptoms, and outcomes compared with patients who did not have COVID-19. There was no difference in age, gender, and most comorbidities between the two groups.

Over a fifth of COVID-19 patients were healthcare workers compared to less than six percent of COVID-19 negative patients, strengthening the concept that occupational exposure is a major risk factor in COVID-19 acquisition [14] .

Most large cohorts of patients hospitalised with COVID-19 have not described the proportion of patients who are healthcare workers [3] [4] [5] [6] [7] [8] [9] 15] , therefore this is a major finding that impacts upon planning in healthcare systems.

The lower proportion of current smokers, and higher proportion of never smokers, in COVID-19 positive patients compared to COVID-19 negative patients is unexpected. A large UK study of hospitalised patients with COVID-19 found only six-percent of patients were current smokers [3] . The lower proportion of patients with COPD in the COVID-19 positive group may be linked with smoking status. Conversely, in other studies current smokers appear at higher risk of worse outcomes than non-smokers [16] , and exacerbations of COPD are associated with non-SARS-CoV-2 respiratory virus infections [17, 18] .

The notable proportion of non-White-British patients with COVID-19 compared with COVID-19 negative patients found in this study and others warrants urgent investigation [19, 20] . The COVID-19 group contains four times the proportion of non-white British people than a similar study in 2015/16 in the same hospital enrolling patients with acute respiratory illness and/or fever [21] . There has been considerable pressure for a wide-reaching investigation into the higher incidence and mortality of COVID-19 in racially minoritised people [20, 22] .

Only about one-third of COVID-19 patients had a fever at presentation, reinforcing the finding that temperature screening is not meaningful in this setting [23] . Lymphopenia in the context of a non-raised neutrophil count was found in about 60% of COVID-19 positive patients compared to about a third of COVID-19 negative patients; lymphopenia has been incorporated into outcome prediction models [24] , and lymphopenia with normal neutrophil count may contribute to future prediction tools in COVID-19.

Recently, anosmia has been reported as a symptom of COVID-19 but data in hospitalised patients is limited [25, 26] .

This study shows that about a third of patients hospitalised with COVID-19 report anosmia, compared to less than 10% of comparable patients without COVID-19. This suggests that the change in UK-national screening policy to include anosmia as symptom of potential COVID-19 is also appropriate in hospitalised adults [27] .

The viral co-infection rate was lower than other studies, although this may reflect the time period of the study in relation to usual seasonal respiratory virus activity locally and therefore lower rates of influenza and other seasonal viruses may be expected [28] . However, the lower rate of respiratory virus infection and the conspicuous absence of rhinovirus infection in COVID-19 positive versus negative patient's requires further investigation. Epidemiological and modelling observations of temporal patterns suggests that a peak in one respiratory virus circulation typically suppresses other respiratory virus circulation, and in vitro innate immune responses to influenza or RSV inhibit replication of rhinovirus; this may be early evidence that SARS-CoV-2 exhibits similar viral interference with rhinovirus and other respiratory viruses [29, 30] .

The comprehensively worse outcomes in COVID-19 patients versus comparable non-COVID-19 patients is an important finding, although COVID-19 positive patients had markers suggesting they were marginally more physiologically impaired at presentation to hospital. The duration of invasive ventilation of COVID-19 patients in this cohort was around two weeks, compared to fewer than five days for comparison patients, and hospital admission duration for COVID-19 patients was more than three days longer than comparable patients. Therefore the burden on hospital wards and intensive care units of patient length of stay is significant and future planning must incorporate provision for expanded COVID-19 ward capacity and prolonged-stay intensive care capacity.

The key strength of this analysis of COVID-19 patients is the presence of a comparator group of patients who tested negative for SARS-CoV-2. As we used data from a clinical trial, the detail and fidelity of data is high. We believe our report of both presence and duration of symptoms, including anosmia, with a comparison group in adults presenting to hospital, is novel. The broad inclusion criteria of adults presenting to a large UK teaching hospital with acute respiratory illness or otherwise suspected COVID-19 makes this study highly generalisable. The limitations of this study include that it is single-centre. It is possible that some patients categorised as COVID-19 negative may have had COVID-19 as even testing with very accurate RT-PCR assays for SARS-CoV-2 has sub-optimal sensitivity on upper respiratory tract specimens [31] , however RT-PCR currently remains the gold-standard. We do not have individual patient data on experimental trial therapeutic interventions that COVID-19 patients received, which may have influenced clinical outcomes including mortality.

Despite the significant differences found in characteristics and symptoms of adults presenting to hospital with suspected COVID-19 who are positive and negative for the disease, no presenting feature appears to reliably distinguish between which patients have COVID-19 and which do not. The diagnostic uncertainty is compounded by long turnaround times of laboratory RT-PCR for SARS-CoV-2, creating significant challenges in infection control and patient flow in hospitals. These challenges may be addressed by implementing molecular point-of-care testing for SARS-CoV-2 [10] . Even faster, finger-prick host response point-of-care testing also has the potential to streamline triage and patient care decisions [32].

In conclusion, this study of adults presenting to hospital with suspected COVID-19 shows there are significant differences in the clinical characteristics, symptoms, and clinical outcomes of patients testing positive and negative for SARS-CoV-2 infection. These data can be used to inform healthcare planning in preparation for the next phase of the pandemic.

TWC reports non-financial support from QIAGEN in the form of discounted equipment and consumables for this work. He also reports personal fees from BioMerieux and BioFire LLC, non-financial support from BioMerieux and BioFire LLC, personal fees from Synairgen Research Ltd, Roche, Cidara therapeutics, Janssen, Planet Innovation and Randox diagnostics, and grants from NIHR, all outside this work. Other authors report no conflicts of interest. Duration of symptoms (days) 5 (2 to 9) 3 (1 to 7) 2 (0 to 2) 0.0021

Data are n (%) or median (IQR). a n=187 and b 287 respectively. b n=308 and n=607 respectively. c n=341 and n=654

respectively. NEWS2, National Early Warning Score 2; COPD, Chronic Obstructive Pulmonary Disease, CXR, Chest Xray; 95% CI, 95% Confidence Interval. Lymphopenia is defined as lymphocyte count <1.5 x 10 9 /L; neutrophil count upper limit of normal is 8 x 10 9 /L. Pneumonia on CXR as reported by study-independent radiologists or reporting radiographers, blinded to COVID-19 status. 

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Data are n (%) or median (IQR). a n=341 and n=654 respectively, b n=284 and n=592 respectively

O2, oxygen; NIV, non-invasive ventilation

I+V, intubation and ventilation; ICU, intensive care unit

We thank all the patients who kindly participated in this study and all the clinical staff at Southampton General Hospital who cared for them. The CoV-19POC study was supported by the NIHR Southampton Clinical Research 

No other targets on the QIAstat-Dx Respiratory SARS-CoV-2 Panel detected. Bordatella pertussis detections excluded as uncertain significance.One patient in the COVID-19 negative group had both human Rhinovirus & Mycoplasma pneumoniae detected.HCoV, human coronavirus; mPOCT, molecular point-of-care testing.