Physical, cognitive, and mental health impacts of COVID-19 after hospitalisation (PHOSP-COVID): a UK multicentre, prospective cohort study

Rachael A Evans, Hamish McAuley, Ewen M Harrison, Aarti Shikotra, Amisha Singapuri, Marco Sereno, Omer Elneima, Annemarie B Docherty, Nazir I Lone, Olivia C Leavy, Luke Daines, J Kenneth Baillie, Jeremy S Brown, Trudie Chalder, Anthony De Soyza, Nawar Diar Bakerly, Nicholas Easom, John R Geddes, Neil J Greening, Nick Hart, Liam G Heaney, Simon Heller, Luke Howard, John R Hurst, Joseph Jacob, R Gisli Jenkins, Caroline Jolley, Steven Kerr, Onn M Kon, Keir Lewis, Janet M Lord, Gerry P McCann, Stefan Neubauer, Peter J M Openshaw, Dhruv Parekh, Paul Pfeffer, Najib M Rahman, Betty Raman, Matthew Richardson, Matthew Rowland, Malcolm G Semple, Ajay M Shah, Sally J Singh, Aziz Sheikh, David Thomas, Mark Toshner, James D Chalmers, Ling-Pei Ho, Alex Horsley, Michael Marks, Krisnah Poinasamy, Louise V Wain, Christopher E Brightling, PHOSP-COVID Collaborative Group

Abstract

Background: The impact of COVID-19 on physical and mental health and employment after hospitalisation with acute disease is not well understood. The aim of this study was to determine the effects of COVID-19-related hospitalisation on health and employment, to identify factors associated with recovery, and to describe recovery phenotypes.

Methods: The Post-hospitalisation COVID-19 study (PHOSP-COVID) is a multicentre, long-term follow-up study of adults (aged ≥18 years) discharged from hospital in the UK with a clinical diagnosis of COVID-19, involving an assessment between 2 and 7 months after discharge, including detailed recording of symptoms, and physiological and biochemical testing. Multivariable logistic regression was done for the primary outcome of patient-perceived recovery, with age, sex, ethnicity, body-mass index, comorbidities, and severity of acute illness as covariates. A post-hoc cluster analysis of outcomes for breathlessness, fatigue, mental health, cognitive impairment, and physical performance was done using the clustering large applications k-medoids approach. The study is registered on the ISRCTN Registry (ISRCTN10980107).

Findings: We report findings for 1077 patients discharged from hospital between March 5 and Nov 30, 2020, who underwent assessment at a median of 5·9 months (IQR 4·9-6·5) after discharge. Participants had a mean age of 58 years (SD 13); 384 (36%) were female, 710 (69%) were of white ethnicity, 288 (27%) had received mechanical ventilation, and 540 (50%) had at least two comorbidities. At follow-up, only 239 (29%) of 830 participants felt fully recovered, 158 (20%) of 806 had a new disability (assessed by the Washington Group Short Set on Functioning), and 124 (19%) of 641 experienced a health-related change in occupation. Factors associated with not recovering were female sex, middle age (40-59 years), two or more comorbidities, and more severe acute illness. The magnitude of the persistent health burden was substantial but only weakly associated with the severity of acute illness. Four clusters were identified with different severities of mental and physical health impairment (n=767): very severe (131 patients, 17%), severe (159, 21%), moderate along with cognitive impairment (127, 17%), and mild (350, 46%). Of the outcomes used in the cluster analysis, all were closely related except for cognitive impairment. Three (3%) of 113 patients in the very severe cluster, nine (7%) of 129 in the severe cluster, 36 (36%) of 99 in the moderate cluster, and 114 (43%) of 267 in the mild cluster reported feeling fully recovered. Persistently elevated serum C-reactive protein was positively associated with cluster severity.

Interpretation: We identified factors related to not recovering after hospital admission with COVID-19 at 6 months after discharge (eg, female sex, middle age, two or more comorbidities, and more acute severe illness), and four different recovery phenotypes. The severity of physical and mental health impairments were closely related, whereas cognitive health impairments were independent. In clinical care, a proactive approach is needed across the acute severity spectrum, with interdisciplinary working, wide access to COVID-19 holistic clinical services, and the potential to stratify care.

Funding: UK Research and Innovation and National Institute for Health Research.

Conflict of interest statement

Declaration of interests JDC reports grants and personal fees from AstraZeneca, Boehringer-Ingelheim, GlaxoSmithKline, Novartis, and Insmed, personal fees from Chiesi, Zambon, Janssen, and Grifols, and grants from Gilead Sciences, outside the submitted work. TC reports grants from Guy's and St Thomas' Charity, fees from workshops, and fees from writing self-help books on fatigue, outside the submitted work. NE received a donation of SARS-CoV-2 lateral flow antigen test kits from Mologic, in relation to an unrelated COVID-19 project. Neither NE nor his institution have received any financial compensation and he has no financial relationship of any kind with Mologic. RAE reports grants from GlaxoSmithKline during the conduct of the study; and grants from the National Institute for Health Research (NIHR) and personal fees from GlaxoSmithKline, AstraZeneca, and Chiesi, outside the submitted work. AH reports personal fees from Vertex Pharmaceuticals, Mylan Healthcare, and the Cystic Fibrosis Foundation, and grants from JP Moulton Trust and NIHR, outside the submitted work. LGH reports receiving sponsorship for attending international scientific meetings from AstraZeneca, Boehringer Ingelheim, Chiesi, GlaxoSmithKline, and Napp Pharmaceuticals, personal fees from Novartis, Hoffman la Roche/Genentech, Sanofi, Evelo Biosciences, GlaxoSmithKline, AstraZeneca, Teva, Theravance, and Circassia, and grants from Medimmune, Novartis UK, Roche/Genentech, GlaxoSmithKline, Amgen, Genentech/Hoffman la Roche, AstraZeneca, Medimmune, Aerocrine, and Vitalograph, outside the submitted work. NH reports that his research group has received unrestricted grants (managed by Guy's & St Thomas' Foundation Trust) from Philips and Resmed. Philips are contributing to the development of the MYOTRACE technology. SH reports personal fees and fees to institution for advisory boards and consultancy from Novo Nordisk, Eli Lilly, Zealand Pharma, and Sanofi Aventis, outside the submitted work. JJ reports personal fees from Boehringer Ingelheim, Roche, GlaxoSmithKline, and NHSX, outside the submitted work. RGJ reports personal fees and research funding from Biogen, personal fees from Galapagos, Heptares, Boehringer Ingelheim, Pliant, Roche/InterMune, MedImmune, PharmAkea, Bristol Myers Squibb, Chiesi, Roche/Promedior, Veracyte, and GlaxoSmithKline research funding from Galecto, collaborative award from RedX and Nordic Biosciences, and was an advisory board member for NuMedii, outside the submitted work. RGJ is supported by an NIHR Professorship (RP-2017-08-ST2-014) and is a trustee for Action for Pulmonary Fibrosis. GM reports grants from AstraZeneca, outside the submitted work. PJMO reports grants from the Medical Research Council (MRC), the EU, and NIHR, and personal fees from Pfizer, Nestle, and Janssen, outside the submitted work. PP reports a grant from NIHR, outside the submitted work. MRo reports a senior clinical fellowship as part of research training and a 1-year post working in Pharma Development Neurosciences with Roche Pharmaceuticals, outside the submitted work. ADS reports grants and personal fees from AstraZeneca, Bayer, Boehringer, Chiesi, Forest Laboratories, GlaxoSmithKline, Grifols, Insmed, MedImmune, Novartis, Pfizer, and 30T, outside the submitted work. MGS reports grants from NIHR, MRC, and the Health Protection Research Unit in Emerging & Zoonotic Infections, University of Liverpool, during the conduct of the study; and reports being a minority owner and chair of the infectious disease scientific advisory board for Integrum Scientific, outside the submitted work. AShe reports being a Member of the Scottish Government's Chief Medical Officer's COVID-19 Advisory Group. MT reports personal fees from Merck Sharp & Dohme and GlaxoSmithKline, and grants and personal fees from Bayer and Actelion, during the conduct of the study. LVW reports grants from GlaxoSmithKline and Orion, outside the submitted work. All other authors declare no competing interests.

Copyright © 2021 The Author(s). Published by Elsevier Ltd. This is an Open Access article under the CC BY 4.0 license. Published by Elsevier Ltd.. All rights reserved.

Figures

Figure 1
Figure 1
Flow diagram of participants BNP=brain natriuretic peptide. eGFR=estimated glomerular filtration rate. EQ-5D-5L=EuroQol five-dimension five-level questionnaire. FACIT=Functional Assessment of Chronic Illness Therapy. HbA1c=glycated haemoglobin. NT-BNP=N-terminal brain natriuretic peptide.
Figure 2
Figure 2
Forest plot of the patient and admission characteristics associated with patient-perceived recovery after hospitalisation for COVID-19 ORs were calculated using hierarchical multivariable logistic Regression, with admission hospital incorporated as a random effect, and multiple imputation. Patient-perceived recovery from COVID-19 was assessed at a median of 5·9 months (IQR 4·9–6·5) after discharge from hospital. Patient recovery was assessed by asking the question “Do you feel fully recovered?” and patients could respond “Yes”, “No”, or “Unsure”. ORs are presented on a log scale; bars represent 95% CIs. BMI=body-mass index. OR=odds ratio.
Figure 3
Figure 3
Clusters of mental, cognitive, and physical health impairments Figure shows four cluster phenotypes by Z scores, where a higher Z score indicates a higher deficit (A); clusters for cognitive impairment versus symptoms and physical function (B); and an illustration of the four cluster phenotypes with associated demographics, symptoms, and physical function (C). CRP=C-reactive protein. FACIT= Functional Assessment of Chronic Illness Therapy. GAD7=Generalized Anxiety Disorder 7-item scale. MoCA=Montreal Cognitive Assessment. PCL-5=Post Traumatic Stress Disorder Checklist. PHQ-9=Patient Health Questionnaire-9. PTSD=post-traumatic stress disorder. SPPB=short physical performance battery.

References

    1. Public Health England Coronavirus (COVID-19) in the UK.
    1. Navaratnam AV, Gray WK, Day J, Wendon J, Briggs TWR. Patient factors and temporal trends associated with COVID-19 in-hospital mortality in England: an observational study using administrative data. Lancet Respir Med. 2021;9:397–406.
    1. Desai SV, Law TJ, Needham DM. Long-term complications of critical care. Crit Care Med. 2011;39:371–379.
    1. Zhou F, Yu T, Du R. Clinical course and risk factors for mortality of adult inpatients with COVID-19 in Wuhan, China: a retrospective cohort study. Lancet. 2020;395:1054–1062.
    1. Office for National Statistics National statistics postcode lookup (February 2020) February, 2020.
    1. WHO Working Group on the Clinical Characterisation and Management of COVID-19 infection A minimal common outcome measure set for COVID-19 clinical research. Lancet Infect Dis. 2020;20:e192–e197.
    1. Herdman M, Gudex C, Lloyd A. Development and preliminary testing of the new five-level version of EQ-5D (EQ-5D-5L) Qual Life Res. 2011;20:1727–1736.
    1. Johnson SU, Ulvenes PG, Øktedalen T, Hoffart A. Psychometric properties of the general anxiety disorder 7-item (GAD-7) scale in a heterogeneous psychiatric sample. Front Psychol. 2019;10
    1. Levis B, Benedetti A, Thombs BD. Accuracy of Patient Health Questionnaire-9 (PHQ-9) for screening to detect major depression: individual participant data meta-analysis. BMJ. 2019;365
    1. Weathers FW, Litz BT, Keane TM, Palmieri PA, Marx BP, Schnurr PP. PTSD Checklist for DSM-5 (PCL-5) 2013.
    1. Yorke J, Moosavi SH, Shuldham C, Jones PW. Quantification of dyspnoea using descriptors: development and initial testing of the Dyspnoea-12. Thorax. 2010;65:21–26.
    1. Yellen SB, Cella DF, Webster K, Blendowski C, Kaplan E. Measuring fatigue and other anemia-related symptoms with the Functional Assessment of Cancer Therapy (FACT) measurement system. J Pain Symptom Manage. 1997;13:63–74.
    1. Cleeland CS, Ryan KM. Pain assessment: global use of the Brief Pain Inventory. Ann Acad Med Singap. 1994;23:129–138.
    1. Madans JH, Loeb ME, Altman BM. Measuring disability and monitoring the UN Convention on the Rights of Persons with Disabilities: the work of the Washington Group on Disability Statistics. BMC Public Health. 2011;11:S4.
    1. Nasreddine ZS, Phillips NA, Bédirian V. The Montreal Cognitive Assessment, MoCA: a brief screening tool for mild cognitive impairment. J Am Geriatr Soc. 2005;53:695–699.
    1. Rockwood K, Song X, MacKnight C. A global clinical measure of fitness and frailty in elderly people. CMAJ. 2005;173:489–495.
    1. Singh SJ, Morgan MD, Scott S, Walters D, Hardman AE. Development of a shuttle walking test of disability in patients with chronic airways obstruction. Thorax. 1992;47:1019–1024.
    1. Guralnik JM, Simonsick EM, Ferrucci L. A short physical performance battery assessing lower extremity function: association with self-reported disability and prediction of mortality and nursing home admission. J Gerontol. 1994;49:M85–M94.
    1. Johnston MC, Crilly M, Black C, Prescott GJ, Mercer SW. Defining and measuring multimorbidity: a systematic review of systematic reviews. Eur J Public Health. 2019;29:182–189.
    1. Rubin DB. John Wiley & Sons; New York, NY: 2004. Multiple imputation for nonresponse in surveys.
    1. Kaufman L, Rousseeuw PJ. In: Finding groups in data: an introduction to cluster analysis. Kaufman L, Rousseeuw PJ, editors. John Wiley & Sons; Hoboken, NJ: 2005. Clustering large applications (program CLARA) pp. 126–163.
    1. Morin L, Savale L, Pham T. Four-month clinical status of a cohort of patients after hospitalization for COVID-19. JAMA. 2021;325:1525–1534.
    1. Sudre CH, Murray B, Varsavsky T. Attributes and predictors of long COVID. Nat Med. 2021;27:626–631.
    1. Wyrwich KW, Yu H, Sato R, Powers JH. Observational longitudinal study of symptom burden and time for recovery from community-acquired pneumonia reported by older adults surveyed nationwide using the CAP Burden of Illness Questionnaire. Patient Relat Outcome Meas. 2015;6:215–223.
    1. Office for National Statistics Updated estimates of the prevalence of long COVID symptoms. January, 2021.
    1. Dani M, Dirksen A, Taraborrelli P. Autonomic dysfunction in ‘long COVID’: rationale, physiology and management strategies. Clin Med. 2021;21:e63–e67.
    1. Richter AG, Shields AM, Karim A. Establishing the prevalence of common tissue-specific autoantibodies following severe acute respiratory syndrome coronavirus 2 infection. Clin Exp Immunol. 2021;205:99–105.
    1. Bastard P, Rosen LB, Zhang Q. Autoantibodies against type I IFNs in patients with life-threatening COVID-19. Science. 2020;370
    1. Ayoubkhani D, Khunti K, Nafilyan V. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.
    1. Williamson EJ, Walker AJ, Bhaskaran K. Factors associated with COVID-19-related death using OpenSAFELY. Nature. 2020;584:430–436.
    1. Ravi K. Ethnic disparities in COVID-19 mortality: are comorbidities to blame? Lancet. 2020;396:22.
    1. Horby P, Lim WS, Emberson JR. Dexamethasone in hospitalized patients with Covid-19. N Engl J Med. 2021;384:693–704.
    1. Needham DM, Davidson J, Cohen H. Improving long-term outcomes after discharge from intensive care unit: report from a stakeholders' conference. Crit Care Med. 2012;40:502–509.
    1. Brown SM, Wilson EL, Presson AP. Understanding patient outcomes after acute respiratory distress syndrome: identifying subtypes of physical, cognitive and mental health outcomes. Thorax. 2017;72:1094–1103.
    1. Wilding JPH, Batterham RL, Calanna S. Once-weekly semaglutide in adults with overweight or obesity. N Engl J Med. 2021;384:989–1002.
    1. Kamdar BB, Suri R, Suchyta MR. Return to work after critical illness: a systematic review and meta-analysis. Thorax. 2020;75:17–27.
    1. Docherty AB, Harrison EM, Green CA. Features of 20 133 UK patients in hospital with covid-19 using the ISARIC WHO Clinical Characterisation Protocol: prospective observational cohort study. BMJ. 2020;369
    1. Capuzzo M, Bertacchini S, Davanzo E. Health-related quality of life before planned admission to intensive care: memory over three and six months. Health Qual Life Outcomes. 2010;8:103.
    1. Tong A, Baumgart A, Evangelidis N. Core outcome measures for trials in people with coronavirus disease 2019: respiratory failure, multiorgan failure, shortness of breath, and recovery. Crit Care Med. 2021;49:503–516.

Source: PubMed

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