Hospital readmissions and emergency department re-presentation of COVID-19 patients: a systematic review

Peiris, Sasha; Nates, Joseph L.; Toledo, Joao; Ho, Yeh-Li; Sosa, Ojino; Stanford, Victoria; Aldighieri, Sylvain; Reveiz, Ludovic

doi:10.26633/rpsp.2022.142

ABSTRACT

Objective.

To characterize the frequency, causes, and predictors of readmissions of COVID-19 patients after discharge from heath facilities or emergency departments, interventions used to reduce readmissions, and outcomes of COVID-19 patients discharged from such settings.

Methods.

We performed a systematic review for case series and observational studies published between January 2020 and April 2021 in PubMed, Embase, LILACS, and MedRxiv, reporting the frequency, causes, or risk factors for readmission of COVID-19 survivors/patients. We conducted a narrative synthesis and assessed the methodological quality using the JBI critical appraisal checklist.

Results.

We identified 44 studies including data from 10 countries. The overall 30-day median readmission rate was 7.1%. Readmissions varied with the length of follow-up, occurring <10.5%, <14.5%, <21.5%, and <30%, respectively, for 10, 30, 60, and 253 days following discharge. Among those followed up for 30 and 60 days, the median time from discharge to readmission was 3 days and 8–11 days, respectively. The significant risk factor associated with readmission was having shorter length of stay, and the important causes included respiratory or thromboembolic events and chronic illnesses. Emergency department re-presentation was >20% in four studies. Risk factors associated with mortality were male gender, advanced age, and comorbidities.

Conclusions.

Readmission of COVID-19 survivors is frequent, and post-discharge mortality is significant in specific populations. There is an urgent need to further examine underlying reasons for early readmission and to prevent additional readmissions and adverse outcomes in COVID-19 survivors.

Keywords
COVID-19; SARS-CoV-2; systematic review; patient readmission; emergency service, hospital; mortality

RESUMEN

Objetivo.

Caracterizar la frecuencia, las causas y los factores predictores del reingreso de pacientes con COVID–19 tras haber recibido el alta de un centro de salud o un servicio de urgencias, las intervenciones utilizadas para reducir los reingresos y los resultados de los pacientes con COVID-19 dados de alta de dichos entornos.

Métodos.

Se realizó una revisión sistemática de estudios de serie de casos y estudios observacionales publicados entre enero del 2020 y abril del 2021 en PubMed, Embase, LILACS y MedRxiv en los cuales se informó sobre la frecuencia, las causas o los factores de riesgo relativos al reingreso de pacientes y sobrevivientes de COVID-19. Se realizó una síntesis narrativa y se evaluó la calidad metodológica utilizando la lista de verificación de evaluación crítica de JBI.

Resultados.

Se encontraron 44 estudios con datos de 10 países. La tasa media general de reingreso a los 30 días fue de 7,1%. Los reingresos variaron con la duración del seguimiento, y tuvieron lugar en <10,5%, <14,5%, <21,5% y <30%, respectivamente, a los 10, 30, 60 y 253 días después del alta. Entre los que recibieron seguimiento por 30 y 60 días, el tiempo medio entre el alta y la readmisión fue de 3 y de 8 a 11 días, respectivamente. El factor de riesgo significativo asociado al reingreso fue una estancia más corta, y entre las causas importantes se encontraron episodios respiratorios o tromboembólicos y enfermedades crónicas. El reingreso en el servicio de urgencias fue de >20% en cuatro estudios. Los factores de riesgo asociados con la mortalidad fueron sexo masculino, edad avanzada y comorbilidades.

Conclusión.

El reingreso de sobrevivientes de COVID-19 es frecuente, y la mortalidad después del alta es significativa en grupos poblacionales específicos. Existe una necesidad urgente de seguir examinando las razones subyacentes del reingreso temprano, así como de prevenir reingresos adicionales y resultados adversos en los sobrevivientes de COVID–19.

Palabras clave
COVID-19; SARS-CoV-2; revisión sistemática; readmisión del paciente; servicio de urgencia en hospital; mortalidad

RESUMO

Objetivo.

Caracterizar a frequência, as causas e os preditores de reinternação de pacientes com COVID-19 após a alta do estabelecimento de saúde ou do pronto-socorro, intervenções usadas para reduzir reinternações e desfechos de pacientes com COVID-19 que receberam alta de tais instalações.

Métodos.

Revisão sistemática de séries de casos e estudos observacionais publicados entre janeiro de 2020 e abril de 2021, indexados nos bancos de dados PubMed, Embase, LILACS e MedRxiv, que relatassem a frequência, as causas ou os fatores de risco para a reinternação de sobreviventes da COVID-19/pacientes com COVID-19. Realizamos uma síntese narrativa das evidências e avaliamos a qualidade metodológica utilizando a checklist de avaliação crítica do Joanna Briggs Institute (JBI).

Resultados.

Foram identificados 44 estudos, incluindo dados de 10 países. O índice médio geral de reinternação em 30 dias foi de 7,1%. A frequência das reinternações variou com o tempo de acompanhamento, com <10,5%, <14,5%, <21,5% e <30%, respectivamente, ocorrendo nos primeiros 10, 30, 60 e 253 dias após a alta. Dentre aqueles seguidos por 30 e 60 dias, o tempo médio da alta até a reinternação foi de 3 dias e 8 a 11 dias, respectivamente. O único fator de risco significativamente associado à reinternação foi ter um tempo de permanência hospitalar mais curto, e as causas importantes incluíram eventos respiratórios ou tromboembólicos e doenças crônicas. Em quatro estudos, >20% dos pacientes retornaram ao pronto-socorro. Os fatores de risco associados à mortalidade foram sexo masculino, idade avançada e comorbidades.

Conclusões.

A reinternação hospitalar é frequente em sobreviventes da COVID-19 e a mortalidade pós-alta é significativa em populações específicas. Há uma necessidade urgente de examinar melhor as razões que levam à reinternação precoce e de evitar reinternações adicionais e desfechos adversos em sobreviventes da COVID-19.

Palavras-chave
COVID-19; SARS-CoV-2; revisão sistemática; readmissão do paciente; serviço hospitalar de emergência; mortalidade

Hospital readmissions are frequent (¹1. Donzé J, Lipsitz S, Bates DW, Schnipper JL. Causes and patterns of readmissions in patients with common comorbidities: retrospective cohort study. BMJ. 2013;347:f7171.), with 30-day readmission and mortality rates reported as indicators of quality and coordination of care. Studies have also reviewed existing prediction models for readmission based on logistic regression, survival analysis, and machine learning techniques (²2. Artetxe A, Beristain A, Graña M. Predictive models for hospital readmission risk: A systematic review of methods. Comput Methods Programs Biomed. 2018;164:49-64.). Historically, 30-day and 1-year readmission rates among adults have been 15% to 21% and 20% to 48%, respectively (³3. Graham KL, Wilker EH, Howell MD, Davis RB, Marcantonio ER. Differences between early and late readmissions among patients: a cohort study. Ann Intern Med. 2015;162(11):741-9., ⁴4. Jencks SF, Williams MV, Coleman EA. Rehospitalizations among Patients in the Medicare Fee-for-Service Program. New Eng J Med. 2009;360(14):1418-28.). The time interval from discharge to readmission is associated with the cause of readmission and its associated risk factors. Shorter intervals (0–7 days) can be linked to the clinical care and discharge planning during the index admission (⁵5. Goldfield N, McCullough E, Hughes J, Tang A, Eastman B, Rawlins L, et al. Identifying Potentially Preventable Readmissions. Health Care Financ Rev. 2008;30:75-91.); a medium interval (8–30 days) is likely less related to the index hospitalization but more susceptible to comorbidities, social determinants of health, and geodemographic characteristics (⁶6. Herrin J, St Andre J, Kenward K, Joshi MS, Audet A-MJ, Hines SC. Community factors and hospital readmission rates. Health Serv Res. 2015;50(1):20-39.). Longer intervals (>6 months) could be related to medium- and long-term sequelae, as has been reported in COVID-19 survivors (⁷7. Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.).

SARS-CoV-2, the virus that causes COVID-19, has affected more than 500 million people, resulting in more than 6 million deaths worldwide (⁸8. COVID-19 Dashboard [Internet]. 2022 Available from: https://covid19.who.int/.
https://covid19.who.int/... ). COVID-19 presents with a heterogeneous clinical course, ranging from asymptomatic carrier status to a fatal outcome with multiorgan failure or the presence of persistent post-COVID-19 condition (⁷7. Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.). Effective interventions to reduce early hospital readmissions are complex and support patients’ capacity for self-care (⁹9. Leppin AL, Gionfriddo MR, Kessler M, Brito JP, Mair FS, Gallacher K, et al. Preventing 30-day hospital readmissions: a systematic review and meta-analysis of randomized trials. JAMA Intern Med. 2014;174(7):1095-107.). Although the effectiveness of various interventions for COVID-19 patients is uncertain, a growing body of scientific literature has attempted to describe hospital readmissions, validate hospital discharge/readmission risk prediction tools, and assess interventions to reduce readmissions and mortality for COVID-19 patients (⁶6. Herrin J, St Andre J, Kenward K, Joshi MS, Audet A-MJ, Hines SC. Community factors and hospital readmission rates. Health Serv Res. 2015;50(1):20-39., ⁷7. Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.).

Hospital readmissions have increasingly been used as an indicator of quality of care in a non-pandemic setting (¹⁰10. van Walraven C, Bennett C, Jennings A, Austin PC, Forster AJ. Proportion of hospital readmissions deemed avoidable: a systematic review. CMAJ. 2011;183(7):E391-402.). Understanding the pathophysiology of COVID-19 and the epidemiology of readmission in patients hospitalized with COVID-19 would allow the health care system to better allocate already limited resources as well as improve clinical outcomes. We reviewed and synthesized the available literature on readmission of COVID-19 patients with the aim to characterize the frequency, follow-up days, causes, predictors, interventions used to reduce early readmissions, and outcomes of inpatient readmission in COVID-19 patients discharged from a health facility and an emergency department (ED).

MATERIALS AND METHODS

Search strategy

We performed a systematic review, and a structured search was conducted in PubMed, Embase, LILACS, and MedRxiv from January 2020 to April 2021 by two authors (SR, LR), with no restriction on type of publication or language. Studies not in English were translated using automatic translation tools. The references of all included studies were searched manually and in Google Scholar to identify other eligible studies. A protocol was developed a priori, and the search strategies are listed in Supplemental Table A1. A PRISMA flow chart was completed to summarize this process (Figure 1). Reassessment took place after publication of a preprint in a peer-reviewed journal.

Study selection

For this review, we defined readmission as an unplanned inpatient admission to a health facility, for any cause, within 30, 60, or 90 days from the date of discharge from an index inpatient admission, where the patient was clinically managed for COVID-19. A health facility was defined as a location that provides direct health services by a group of doctors and nurses and includes inpatient and outpatient services. An ED visit was considered an outpatient visit, and a revisit to the ED is referred to as “re-presentation.” Inclusion criteria were (¹1. Donzé J, Lipsitz S, Bates DW, Schnipper JL. Causes and patterns of readmissions in patients with common comorbidities: retrospective cohort study. BMJ. 2013;347:f7171.) studies reporting frequency, causes, or risk factors for readmission of COVID-19 survivors/patients; (²2. Artetxe A, Beristain A, Graña M. Predictive models for hospital readmission risk: A systematic review of methods. Comput Methods Programs Biomed. 2018;164:49-64.) observational studies and case series with eight or more subjects; and (³3. Graham KL, Wilker EH, Howell MD, Davis RB, Marcantonio ER. Differences between early and late readmissions among patients: a cohort study. Ann Intern Med. 2015;162(11):741-9.) peer-reviewed and non-peer-reviewed studies. Exclusion criteria included (¹1. Donzé J, Lipsitz S, Bates DW, Schnipper JL. Causes and patterns of readmissions in patients with common comorbidities: retrospective cohort study. BMJ. 2013;347:f7171.) case reports and (²2. Artetxe A, Beristain A, Graña M. Predictive models for hospital readmission risk: A systematic review of methods. Comput Methods Programs Biomed. 2018;164:49-64.) non-original research articles.

The study title and abstract were screened according to the inclusion/exclusion criteria. Full texts of studies that passed the first level screening were critically assessed to determine whether to include them in the review. Disagreements were resolved by discussion, drawing on a third reviewer where required.

Data extraction

Data from the full text were extracted using a predesigned Excel template (Supplemental Table A2) validated by two reviewers (SP, LR). One reviewer (SP) extracted data for all studies, another reviewer (VS) randomly collected data for five (10%) of the studies to compare and confirm the data extracted. Disagreements were resolved by discussion, drawing on a third reviewer where required (LR). Following the a-priori protocol, data were collected for:

Study characteristics: publication year, author, title, country, state/province, number of health facilities, tertiary/academic hospitals, study type, follow-up days, sample size, study sample, and objective.
Readmission: readmission rate, follow-up days, median time from discharge to readmission, hospital mortality, risk factors, reason, type of care, length of hospital stay, ED visits, reason, and risk factors.
Post-discharge interventions, discharge location, post-discharge mortality.
Index hospitalization/discharge: index hospitalization in readmitted patients, index inpatient stay, index ED visit, index length of stay (LOS) in readmitted patients, Charlson comorbidity index, discharge criteria/eligibility, patient symptoms at discharge, and oxygen saturation and requirement at discharge.
Description of strategies to reduce readmission.

Assessment of methodological quality

The methodological quality of the included studies was independently assessed by two reviewers (SP, VS) using the JBI critical appraisal checklist for observational studies and case series (¹¹11. JBI. JBI Manual for evidence synthesis: JBI 2020. Available from: https://wiki.jbi.global/display/MANUAL/7.3.6.3+Assessment+of+methodological+quality.
https://wiki.jbi.global/display/MANUAL/7... ). Discrepancies were resolved through discussion or the involvement of a third author (LR).

Data synthesis

A narrative synthesis of the evidence was undertaken; the risk factors, interventions, and mortality data were tabulated; and frequency data were presented in graphical form. Readmission incidences were reported in ranges and medians, and the graphs were created using Microsoft® Excel software. Meta-analysis was not appropriate as data synthesis included case series. Ethical approval was not required for this review.

RESULTS

The literature search yielded 734 studies, of which 44 studies met the eligibility criteria. The most common reason for exclusion was the lack of reporting readmission rates and/or risk factors for readmission. The selection strategy of studies is summarized in Figure 1. The list of excluded studies is available upon request.

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FIGURE 1.
PRISMA flowchart of study inclusions and exclusions

Critical appraisal of the included studies

We deemed all studies to be eligible to be included in the review (40 “include” and four “seek further info”) (Supplemental Table A3).

Description of studies

The studies’ characteristics are summarized in Supplemental Table A4. Studies varied widely in their size, methodology, and length of follow-up. The review included six prospective studies (¹²12. Swift J, Harris Z, Woodward A, O’Kelly NI, Barker C, Ghosh S. The implementation of a virtual ward using digital solutions informing community clinicians in early supported discharge of patients with SARS-Cov2 respiratory symptoms from an acute hospital setting. medRxiv. 2021:2021.03.29.21254548.–¹⁷17. UyaroĞlu OA, BaŞaran N, ÖziŞik L, Dŀzman GT, EroĞlu ŀ, Şahŀn TK, et al. Thirty-day readmission rate of COVID-19 patients discharged from a tertiary care university hospital in Turkey: an observational, single-center study. Int J Qual Health Care. 2021;33(1).) and 38 retrospective studies; 42 of the 44 studies were peer reviewed. Studies were from Australia, Canada, China, Germany, Republic of Korea, the Netherlands, Spain, Turkey, the United Kingdom, and the United States of America, and thus were distributed over four continents. Ten studies had fewer than 100 cases each, 22 studies included 100 to 1 000 cases each, 11 studies reported more than 1 000 COVID-19 patients each, and one study did not report a sample size. The two largest studies were from the United Kingdom and the United States of America, using national data to report 47 780 (⁷7. Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.) and 106 543 (¹⁸18. Lavery AM, Preston LE, Ko JY, Chevinsky JR, DeSisto CL, Pennington AF, et al. Characteristics of Hospitalized COVID-19 Patients Discharged and Experiencing Same-Hospital Readmission - United States, March-August 2020. MMWR Morb Mortal Wkly Rep. 2020;69(45):1695-9.) cases, respectively. Five studies used national data (⁷7. Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693., ¹⁸18. Lavery AM, Preston LE, Ko JY, Chevinsky JR, DeSisto CL, Pennington AF, et al. Characteristics of Hospitalized COVID-19 Patients Discharged and Experiencing Same-Hospital Readmission - United States, March-August 2020. MMWR Morb Mortal Wkly Rep. 2020;69(45):1695-9.–²¹21. Donnelly JP, Wang XQ, Iwashyna TJ, Prescott HC. Readmission and Death After Initial Hospital Discharge Among Patients With COVID-19 in a Large Multihospital System. JAMA. 2021;325(3):304-6.), of which four detailed long-term outcomes (>30 days), and the fifth was the only study from the Republic of Korea included in our review (²⁰20. Jeon WH, Seon JY, Park SY, Oh IH. Analysis of Risk Factors on Readmission Cases of COVID-19 in the Republic of Korea: Using Nationwide Health Claims Data. Int J Environ Res Public Health. 2020;17(16).). The mean and median age of patients ranged from 44.5 to 72 years, with a greater proportion of male than female patients in most studies. Studies were published in 2020 and 2021, but the reported index hospitalizations were mostly from the first half of 2020 (n = 36), with only three studies each reporting patients from mid and late 2020, and two studies not reporting the duration. Many were single-center studies (n = 23) and most took place at tertiary level/teaching hospitals (n = 18). All studies included patients diagnosed with COVID-19.

Three groups were analyzed according to the study sample and follow-up days: (¹1. Donzé J, Lipsitz S, Bates DW, Schnipper JL. Causes and patterns of readmissions in patients with common comorbidities: retrospective cohort study. BMJ. 2013;347:f7171.) 30-day readmissions following inpatient discharge of COVID-19 patients (n = 16); (²2. Artetxe A, Beristain A, Graña M. Predictive models for hospital readmission risk: A systematic review of methods. Comput Methods Programs Biomed. 2018;164:49-64.) >30-day follow-up readmissions following inpatient discharge of COVID-19 patients, including studies that did not report a follow-up duration (n = 23); and (³3. Graham KL, Wilker EH, Howell MD, Davis RB, Marcantonio ER. Differences between early and late readmissions among patients: a cohort study. Ann Intern Med. 2015;162(11):741-9.) inpatient admissions and re-presentations to ED following index presentation to ED for COVID-19 (n = 5).

Readmission of patients within 30 days following index inpatient admission for COVID-19

The readmission rates ranged from 1.9% to 14% in studies that followed patients for 30 days or less, with a median readmission rate of 7.1% (Figure 2). A 10-day follow-up study conducted during the peak of the pandemic in the United Kingdom reported a 10.2% (²²22. Chaudhry Z, Shawe-Taylor M, Rampling T, Cutfield T, Bidwell G, Chan XHS, et al. Short durations of corticosteroids for hospitalised COVID-19 patients are associated with a high readmission rate. J Infect. 2021;82(6):276-316.) readmission rate. Eight of 11 studies following patients for 30 days reported a 5% or higher readmission rate. The median times from discharge to readmission were reported in eight studies as 3 (²²22. Chaudhry Z, Shawe-Taylor M, Rampling T, Cutfield T, Bidwell G, Chan XHS, et al. Short durations of corticosteroids for hospitalised COVID-19 patients are associated with a high readmission rate. J Infect. 2021;82(6):276-316.), 4 (²³23. Ye S, Hiura G, Fleck E, Garcia A, Geleris J, Lee P, et al. Hospital Readmissions After Implementation of a Discharge Care Program for Patients with COVID-19 Illness. J Gen Intern Med. 2021;36(3):722-9.), 5 (²⁴24. Yeo I, Baek S, Kim J, Elshakh H, Voronina A, Lou MS, et al. Assessment of thirty-day readmission rate, timing, causes and predictors after hospitalization with COVID-19. J Intern Med. 2021;290(1):157-165., ²⁵25. Atalla E, Kalligeros M, Giampaolo G, Mylona EK, Shehadeh F, Mylonakis E. Readmissions among patients with COVID-19. Int J Clin Pract. 2020:e13700.), 6 (²⁶26. Parra LM, Cantero M, Morrás I, Vallejo A, Diego I, Jiménez-Tejero E, et al. Hospital Readmissions of Discharged Patients with COVID-19. Int J Gen Med. 2020;13:1359-66.), and 8.1 (¹⁷17. UyaroĞlu OA, BaŞaran N, ÖziŞik L, Dŀzman GT, EroĞlu ŀ, Şahŀn TK, et al. Thirty-day readmission rate of COVID-19 patients discharged from a tertiary care university hospital in Turkey: an observational, single-center study. Int J Qual Health Care. 2021;33(1).) days.

Table 1 presents factors associated with a 30-day or less readmission and reason for readmission in 11 studies. Advanced age, male gender, morbid obesity, and underlying comorbidities were factors for early and late readmissions. Operational factors such as a shorter index LOS, shorter index critical care duration, and early discharge in their illness course were significantly associated with early readmission (²²22. Chaudhry Z, Shawe-Taylor M, Rampling T, Cutfield T, Bidwell G, Chan XHS, et al. Short durations of corticosteroids for hospitalised COVID-19 patients are associated with a high readmission rate. J Infect. 2021;82(6):276-316., ²⁶26. Parra LM, Cantero M, Morrás I, Vallejo A, Diego I, Jiménez-Tejero E, et al. Hospital Readmissions of Discharged Patients with COVID-19. Int J Gen Med. 2020;13:1359-66., ²⁷27. Somani S, Richter F, Fuster V, De Freitas J, Naik N, Sigel K, et al. Characterization of Patients Who Return to Hospital Following Discharge from Hospitalization For COVID-19. medRxiv. 2020.); while Ye et al. reported a decrease in readmissions and ED visits when discharged patients were monitored in a remote care program (²³23. Ye S, Hiura G, Fleck E, Garcia A, Geleris J, Lee P, et al. Hospital Readmissions After Implementation of a Discharge Care Program for Patients with COVID-19 Illness. J Gen Intern Med. 2021;36(3):722-9.). Patients prescribed a shorter course of steroid (²²22. Chaudhry Z, Shawe-Taylor M, Rampling T, Cutfield T, Bidwell G, Chan XHS, et al. Short durations of corticosteroids for hospitalised COVID-19 patients are associated with a high readmission rate. J Infect. 2021;82(6):276-316.) and those who did not receive treatment-dose anticoagulation (²⁷27. Somani S, Richter F, Fuster V, De Freitas J, Naik N, Sigel K, et al. Characterization of Patients Who Return to Hospital Following Discharge from Hospitalization For COVID-19. medRxiv. 2020.) during the index admission were also at an increased risk of readmission.

The common reasons for readmission were respiratory distress/failure and dyspnea or fever (¹⁷17. UyaroĞlu OA, BaŞaran N, ÖziŞik L, Dŀzman GT, EroĞlu ŀ, Şahŀn TK, et al. Thirty-day readmission rate of COVID-19 patients discharged from a tertiary care university hospital in Turkey: an observational, single-center study. Int J Qual Health Care. 2021;33(1)., ²²22. Chaudhry Z, Shawe-Taylor M, Rampling T, Cutfield T, Bidwell G, Chan XHS, et al. Short durations of corticosteroids for hospitalised COVID-19 patients are associated with a high readmission rate. J Infect. 2021;82(6):276-316., ²⁴24. Yeo I, Baek S, Kim J, Elshakh H, Voronina A, Lou MS, et al. Assessment of thirty-day readmission rate, timing, causes and predictors after hospitalization with COVID-19. J Intern Med. 2021;290(1):157-165.–²⁸28. Saab FG, Chiang JN, Brook R, Adamson PC, Fulcher JA, Halperin E, et al. Discharge Clinical Characteristics and Post-Discharge Events in Patients with Severe COVID-19: A Descriptive Case Series. J Gen Intern Med. 2021;36(4):1017-22.). The diagnoses of thrombosis/emboli were seen in 100% (¹²12. Swift J, Harris Z, Woodward A, O’Kelly NI, Barker C, Ghosh S. The implementation of a virtual ward using digital solutions informing community clinicians in early supported discharge of patients with SARS-Cov2 respiratory symptoms from an acute hospital setting. medRxiv. 2021:2021.03.29.21254548.), 22.2% (²⁹29. Patel H, Virapongse A, Baduashvili A, Devitt J, Barr R, Bookman K. Implementing a COVID-19 Discharge Pathway to Improve Patient Safety. Am J Med Qual. 2021;36(2):84-9.), 13.1% (²⁶26. Parra LM, Cantero M, Morrás I, Vallejo A, Diego I, Jiménez-Tejero E, et al. Hospital Readmissions of Discharged Patients with COVID-19. Int J Gen Med. 2020;13:1359-66.), 12.5% (²⁴24. Yeo I, Baek S, Kim J, Elshakh H, Voronina A, Lou MS, et al. Assessment of thirty-day readmission rate, timing, causes and predictors after hospitalization with COVID-19. J Intern Med. 2021;290(1):157-165.), and 10.5% (²⁵25. Atalla E, Kalligeros M, Giampaolo G, Mylona EK, Shehadeh F, Mylonakis E. Readmissions among patients with COVID-19. Int J Clin Pract. 2020:e13700.) of readmitted cases.

The clinical course during second admission was more severe, with a bigger demand for intensive care compared with the index admission (Supplemental Table A5).

Readmissions in long-term follow-up studies (>30 days) for COVID-19 survivors and studies not reporting a follow-up duration

High readmission rates were seen in studies conducted during the first half of 2020, including 60-day follow-up studies in the United States (19.9%) (²¹21. Donnelly JP, Wang XQ, Iwashyna TJ, Prescott HC. Readmission and Death After Initial Hospital Discharge Among Patients With COVID-19 in a Large Multihospital System. JAMA. 2021;325(3):304-6.) and the United Kingdom (21.1%) (³⁰30. Islam N, Lewington S, Kharbanda RK, Davies J, Várnai KA, Lacey B. Sixty-day consequences of COVID-19 in patients discharged from hospital: an electronic health records study. Eur J Public Health. 2021;31(2):280-282.). Median times from discharge to readmission of 8 days (¹⁸18. Lavery AM, Preston LE, Ko JY, Chevinsky JR, DeSisto CL, Pennington AF, et al. Characteristics of Hospitalized COVID-19 Patients Discharged and Experiencing Same-Hospital Readmission - United States, March-August 2020. MMWR Morb Mortal Wkly Rep. 2020;69(45):1695-9.) and 11 days (³⁰30. Islam N, Lewington S, Kharbanda RK, Davies J, Várnai KA, Lacey B. Sixty-day consequences of COVID-19 in patients discharged from hospital: an electronic health records study. Eur J Public Health. 2021;31(2):280-282.) were observed (Figure 3). Studies with a longer follow-up period after discharge, which included a 180-day study in Germany (26.8%) (¹⁹19. Günster C, Busse R, Spoden M, Rombey T, Schillinger G, Hoffmann W, et al. 6-Month Follow Up of 8679 Hospitalized COVID-19 Patients in Germany: A Nationwide Cohort Study. medRxiv. 2021:2021.04.24.21256029.) and a 253-day study in the United Kingdom (29.4%) (⁷7. Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.), also reported high readmission rates compared with the other studies. Two studies, one from China (³¹31. Niu J, Sareli C, Sareli A. 514. Clinical features and outcomes of 112 patients with SARS-CoV-2 infections requiring intensive care in a public healthcare system in South Florida. Open Forum Infect Dis. 2020;7(Supplement_1):S323-S.) and the other from Australia (³²32. Louie T, Kwan B, Susanto C, Ng A. Respiratory failure, clinical course and community management of COVID-19 patients in a large Australian cohort. Intern Med J. 2021;51(3):334-40.), had 14% and 16% readmissions, respectively, although there was no study duration reported. Studies that did not report a readmission rate (n = 5) were not included in this analysis.

Advanced age, male gender, and underlying comorbidities were factors associated with late readmissions (¹⁸18. Lavery AM, Preston LE, Ko JY, Chevinsky JR, DeSisto CL, Pennington AF, et al. Characteristics of Hospitalized COVID-19 Patients Discharged and Experiencing Same-Hospital Readmission - United States, March-August 2020. MMWR Morb Mortal Wkly Rep. 2020;69(45):1695-9., ³⁰30. Islam N, Lewington S, Kharbanda RK, Davies J, Várnai KA, Lacey B. Sixty-day consequences of COVID-19 in patients discharged from hospital: an electronic health records study. Eur J Public Health. 2021;31(2):280-282., ³³33. Leijte WT, Wagemaker NMM, van Kraaij TDA, de Kruif MD, Mostard GJM, Leers MPG, et al. [Mortality and re-admission after hospitalization with COVID-19]. Ned Tijdschr Geneeskd. 2020;164., ³⁴34. Bowles KH, McDonald M, Barrón Y, Kennedy E, O'Connor M, Mikkelsen M. Surviving COVID-19 After Hospital Discharge: Symptom, Functional, and Adverse Outcomes of Home Health Recipients. Ann Intern Med. 2021;174(3):316-25.). Late readmissions were also dependent on the discharge location and the patients’ mental and functional capacities (¹⁸18. Lavery AM, Preston LE, Ko JY, Chevinsky JR, DeSisto CL, Pennington AF, et al. Characteristics of Hospitalized COVID-19 Patients Discharged and Experiencing Same-Hospital Readmission - United States, March-August 2020. MMWR Morb Mortal Wkly Rep. 2020;69(45):1695-9., ³³33. Leijte WT, Wagemaker NMM, van Kraaij TDA, de Kruif MD, Mostard GJM, Leers MPG, et al. [Mortality and re-admission after hospitalization with COVID-19]. Ned Tijdschr Geneeskd. 2020;164., ³⁴34. Bowles KH, McDonald M, Barrón Y, Kennedy E, O'Connor M, Mikkelsen M. Surviving COVID-19 After Hospital Discharge: Symptom, Functional, and Adverse Outcomes of Home Health Recipients. Ann Intern Med. 2021;174(3):316-25.) (Supplemental Table A6). Reasons for readmission were mostly related to COVID-19. A 253-day study in the United Kingdom showed that respiratory causes were the reason for 100% of readmissions (6 085 patients), with 21.5% new-onset respiratory symptoms (⁷7. Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.). Diagnoses of thrombosis/emboli were seen in 28.5% (³⁵35. Maghrabi F, Bazaz R, Wilson E, Reilly S, Calisti G, Richardson R, et al. The development and implementation of a virtual discharge ward for patients with covid-19 pneumonia: Data on the first 300 patients. Thorax. 2021;76(SUPPL 1):A35-A6.), 16% (³³33. Leijte WT, Wagemaker NMM, van Kraaij TDA, de Kruif MD, Mostard GJM, Leers MPG, et al. [Mortality and re-admission after hospitalization with COVID-19]. Ned Tijdschr Geneeskd. 2020;164.), 9.1% (³⁶36. McCarthy CP, Murphy S, Jones-O'Connor M, Olshan DS, Khambhati JR, Rehman S, et al. Early clinical and sociodemographic experience with patients hospitalized with COVID-19 at a large American healthcare system. EClinicalMedicine. 2020;26:100504.), and 0.3% (³⁷37. Loerinc LB, Scheel AM, Evans ST, Shabto JM, O'Keefe GA, O'Keefe JB. Discharge characteristics and care transitions of hospitalized patients with COVID-19. Healthc (Amst). 2021;9(1):100512.) of readmitted cases. Asymptomatic patients with a positive COVID-19 RT-PCR test were readmitted in three studies presenting data from the early phase of the pandemic in China (³⁸38. Li C, Luo F, Xie L, Gao Y, Zhang N, Wu B. Chest CT study of fifteen COVID-19 patients with positive RT-PCR retest results after discharge. Quantitative Imaging in Medicine and Surgery; Vol 10, No 6 (June 2020): Quant Imaging Med Surg. 2020;10(6):1318-1324., ³⁹39. Cao H, Ruan L, Liu J, Liao W. The clinical characteristic of eight patients of COVID-19 with positive RT-PCR test after discharge. J Med Virol. 2020;92(10):2159-64.) and Turkey (⁴⁰40. Durmus E, Guneysu F. Evaluation of re-hospitalized COVID-19 patients in a hospital. Rev Assoc Med Bras (1992). 2020;66(12):1690-5.).

The need for intensive care, including mechanical ventilation, was reported in COVID-19 survivors who required late readmissions (Supplemental Table A7).

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FIGURE 2.
Readmissions within 30 days following index admission for COVID-19

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TABLE 1.
Factors and reasons for readmission occurring within 30 days following discharge

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FIGURE 3.
Readmissions in long-term follow-up studies and in studies not reporting the duration of patient follow-up

Inpatient admission and emergency department re-presentations following initial discharge from an emergency department

Five studies from Spain (n = 3), the United Kingdom (n = 1), and the United States (n = 1)—four of which were based on data from tertiary care health facilities—detailed the clinical outcomes of COVID-19 patients who were initially seen in an ED and discharged. Three studies were prospective (¹⁴14. Hernández-Biette A, Sanz-Santos J, Boix-Palop L, Navarro Rolón A, Martínez-Palau M, de la Sierra Iserte A. Risk factors for later hospitalization of patients discharged from an emergency department with nonsevere COVID-19 symptoms. Emergencias. 2020;32(6):413-5.–¹⁶16. Lanham D, Roe J, Chauhan A, Evans R, Hillman T, Logan S, et al. COVID-19 emergency department discharges: an outcome study. Clin Med (Lond). 2021;21(2):e126-e31.), and all studies were conducted in different health facilities (Spain: Barcelona [2 of 3] and Madrid [1 of 3]; United Kingdom: London; United States: Pennsylvania and New Jersey) but during the first wave of the pandemic in their respective locations.

The ED re-presentation and inpatient admission frequencies for COVID-19 patients discharged from an index ED visit are presented in Supplemental Table A8. Four of the five studies had 20% or higher ED re-presentation rates. Hernández-Biette et al. reported a 26% rate of re-presentation to ED, with a median time of 3 days, and a 23% rate of inpatient admission (¹⁴14. Hernández-Biette A, Sanz-Santos J, Boix-Palop L, Navarro Rolón A, Martínez-Palau M, de la Sierra Iserte A. Risk factors for later hospitalization of patients discharged from an emergency department with nonsevere COVID-19 symptoms. Emergencias. 2020;32(6):413-5.). The discharge criteria for patients from the ED and telemonitoring of these patients were reported for two of the studies from Spain (Supplemental Table A9). The most common cause of re-presentation to the ED was COVID-19-related (¹⁵15. Teigell Muñoz FJ, García-Guijarro E, García-Domingo P, Pérez-Nieto G, Roque Rojas F, García-Peña M, et al. A safe protocol to identify low-risk patients with COVID-19 pneumonia for outpatient management. Intern Emerg Med. 2021:1-9., ⁴¹41. López-Barbeito B, García-Martínez A, Coll-Vinent B, Placer A, Font C, Vargas CR, et al. Factors associated with revisits by patients with SARS-CoV-2 infection discharged from a hospital emergency department. Emergencias. 2020;32(6):386-94.), and the proportion of patients treated in the ED with corticosteroids was statistically significant (⁴¹41. López-Barbeito B, García-Martínez A, Coll-Vinent B, Placer A, Font C, Vargas CR, et al. Factors associated with revisits by patients with SARS-CoV-2 infection discharged from a hospital emergency department. Emergencias. 2020;32(6):386-94.).

Discharge criteria and post-discharge interventions for all included studies

Twelve studies reported on the criteria applied when discharging patients (Supplemental Table A9), with one study implementing a risk prediction tool to assess high-risk patients at discharge (²⁹29. Patel H, Virapongse A, Baduashvili A, Devitt J, Barr R, Bookman K. Implementing a COVID-19 Discharge Pathway to Improve Patient Safety. Am J Med Qual. 2021;36(2):84-9.). The criteria for discharge were mostly based on the physician’s clinical judgement related to the patient’s clinical improvement. Fever and low oxygen saturation were the most reported symptoms at discharge.

Fifteen studies from the United States, United Kingdom, Spain, China, and the Netherlands detailed the interventions implemented to reduce readmission in COVID-19 survivors (Supplemental Table A10), which were telephone follow-up, virtual/remote app-based monitoring, patient education, home oxygen supplementation, medication interventions, provision of home diagnostics, home visits, scheduled follow-up, and provider continuity. Patel et al. stratified patients according to their risks (²⁹29. Patel H, Virapongse A, Baduashvili A, Devitt J, Barr R, Bookman K. Implementing a COVID-19 Discharge Pathway to Improve Patient Safety. Am J Med Qual. 2021;36(2):84-9.), while others provided post-discharge care according to the patient’s clinical profile at discharge. In four reports, home oxygen supplementation was provided to 621 (100%) (⁴²42. Banerjee J, Canamar CP, Voyageur C, Tangpraphaphorn S, Lemus A, Coffey C, Jr., et al. Mortality and Readmission Rates Among Patients With COVID-19 After Discharge From Acute Care Setting With Supplemental Oxygen. JAMA Netw Open. 2021;4(4):e213990.), 49 (100%) (⁴³43. van Herwerden MC, van Steenkiste J, El Moussaoui R, den Hollander JG, Helfrich G, I JAMV. [Home telemonitoring and oxygen therapy in COVID-19 patients: safety, patient satisfaction, and cost-effectiveness]. Ned Tijdschr Geneeskd. 2021;165.), 31 (31.3%) (²⁸28. Saab FG, Chiang JN, Brook R, Adamson PC, Fulcher JA, Halperin E, et al. Discharge Clinical Characteristics and Post-Discharge Events in Patients with Severe COVID-19: A Descriptive Case Series. J Gen Intern Med. 2021;36(4):1017-22.), and 75 (24.2%) (³⁷37. Loerinc LB, Scheel AM, Evans ST, Shabto JM, O'Keefe GA, O'Keefe JB. Discharge characteristics and care transitions of hospitalized patients with COVID-19. Healthc (Amst). 2021;9(1):100512.) discharged patients. Patients were also discharged with anticoagulants (²⁶26. Parra LM, Cantero M, Morrás I, Vallejo A, Diego I, Jiménez-Tejero E, et al. Hospital Readmissions of Discharged Patients with COVID-19. Int J Gen Med. 2020;13:1359-66., ³⁷37. Loerinc LB, Scheel AM, Evans ST, Shabto JM, O'Keefe GA, O'Keefe JB. Discharge characteristics and care transitions of hospitalized patients with COVID-19. Healthc (Amst). 2021;9(1):100512., ⁴³43. van Herwerden MC, van Steenkiste J, El Moussaoui R, den Hollander JG, Helfrich G, I JAMV. [Home telemonitoring and oxygen therapy in COVID-19 patients: safety, patient satisfaction, and cost-effectiveness]. Ned Tijdschr Geneeskd. 2021;165.) and corticosteroids (²²22. Chaudhry Z, Shawe-Taylor M, Rampling T, Cutfield T, Bidwell G, Chan XHS, et al. Short durations of corticosteroids for hospitalised COVID-19 patients are associated with a high readmission rate. J Infect. 2021;82(6):276-316., ²⁶26. Parra LM, Cantero M, Morrás I, Vallejo A, Diego I, Jiménez-Tejero E, et al. Hospital Readmissions of Discharged Patients with COVID-19. Int J Gen Med. 2020;13:1359-66., ⁴³43. van Herwerden MC, van Steenkiste J, El Moussaoui R, den Hollander JG, Helfrich G, I JAMV. [Home telemonitoring and oxygen therapy in COVID-19 patients: safety, patient satisfaction, and cost-effectiveness]. Ned Tijdschr Geneeskd. 2021;165.).

Oxygen requirement

Banerjee et al. reported that discharging 621 patients to an ambulatory setting with low levels of supplementary oxygen was associated with low all-cause mortality and low 30-day return admission rates (⁴²42. Banerjee J, Canamar CP, Voyageur C, Tangpraphaphorn S, Lemus A, Coffey C, Jr., et al. Mortality and Readmission Rates Among Patients With COVID-19 After Discharge From Acute Care Setting With Supplemental Oxygen. JAMA Netw Open. 2021;4(4):e213990.). Van Herwerden et al. reported a median duration of oxygen administration at home of 11 days per patient for 49 patients (⁴³43. van Herwerden MC, van Steenkiste J, El Moussaoui R, den Hollander JG, Helfrich G, I JAMV. [Home telemonitoring and oxygen therapy in COVID-19 patients: safety, patient satisfaction, and cost-effectiveness]. Ned Tijdschr Geneeskd. 2021;165.). The potential lying time saving was a total of 616 days. The implementation of the care path “home treatment” resulted in a total cost reduction of €146 736. Dexamethasone for up to 10 days and thromboprophylaxis was continued at home if oxygen was administered (Supplemental Table A11).

Length of hospital stay in index admission and readmission

The median LOS during the index hospitalization ranged from 3.5 days to 17 days (Figure 4) for all studies that reported this statistic. Most of the studies reported a 6-day median LOS during the index hospitalization among the readmitted patients, suggestive of non-severe cases.

Mortality

Twenty-four studies reported the percentage of mortality in post-discharged and/or readmitted patients (Table 2). A high post-discharge mortality of 9% was reported in studies analyzing national COVID-19 data: one from the United Kingdom (⁷7. Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.) and the other from the United States (²¹21. Donnelly JP, Wang XQ, Iwashyna TJ, Prescott HC. Readmission and Death After Initial Hospital Discharge Among Patients With COVID-19 in a Large Multihospital System. JAMA. 2021;325(3):304-6.). In a sample of mostly male patients (65%) during the first wave of the pandemic in the United States, Suleyman et al. reported mortalities of 20% in post-discharge patients and 13.7% in readmitted patients (⁴⁴44. Suleyman G, Fadel RA, Malette KM, Hammond C, Abdulla H, Entz A, et al. Clinical Characteristics and Morbidity Associated With Coronavirus Disease 2019 in a Series of Patients in Metropolitan Detroit. JAMA Netw Open. 2020;3(6):e2012270.). Two large studies (n > 1 000 each) reported 14.7% (Spain) (²⁶26. Parra LM, Cantero M, Morrás I, Vallejo A, Diego I, Jiménez-Tejero E, et al. Hospital Readmissions of Discharged Patients with COVID-19. Int J Gen Med. 2020;13:1359-66.) and 22.9% (New York, United States) (²⁴24. Yeo I, Baek S, Kim J, Elshakh H, Voronina A, Lou MS, et al. Assessment of thirty-day readmission rate, timing, causes and predictors after hospitalization with COVID-19. J Intern Med. 2021;290(1):157-165.) mortality among readmitted patients, wherein the study durations coincided with the initial surge of COVID-19 cases in their respective countries. Increased death rates were seen in studies with a higher percentage of patients who were male or had advanced age, one or more comorbidities (hypertension, obesity, diabetes, cardiovascular disease, chronic lung disease, immunodeficiencies), or national or public health insurance coverage. All these studies were conducted during the first, second, or third wave of the COVID-19 pandemic in their respective countries.

DISCUSSION

COVID-19 has caused an unprecedented health crisis, resulting in substantial pressure on health care systems to meet the escalating demands. Our study is the most comprehensive review characterizing the frequency, causes, risk factors for readmissions, and outcomes of COVID-19 patients discharged from a health facility or an ED. Our review found that readmission of COVID-19 survivors is frequent, and post-discharge mortality is significant in specific populations.

The overall median 30-day readmission rate of 7.1% was below nationally reported rates for patients 65 years and older in the United Kingdom (15%) (⁴⁵45. Oliver D. David Oliver: Who is to blame for older people’s readmission? BMJ. 2015;351:h4244.) and Medicaid patients in the United States (13.7%) (⁴⁶46. Bailey MK WA, Barrett ML, Jiang HJ. Characteristics of 30-Day Readmissions, 2010-2016. Agency for Healthcare Research and Quality: Rockville; 2019.) but similar to those of privately insured patients in the United States (8.2%). Although the 30-day readmission rates for seasonal influenza (14%) (⁴⁷47. Dobrzynski DM, Ndi DN, Zhu Y, Markus T, Schaffner W, Talbot HK. Hospital Readmissions After Laboratory-Confirmed Influenza Hospitalization. J Infect Dis. 2020;222(4):583-9., ⁴⁸48. Unplanned Hospital Visits - National Data. [Internet]. 2021 [cited 06/17/2021]. Available from: https://data.cms.gov/provider-data/topics/hospitals/unplanned-hospital-visits/.
https://data.cms.gov/provider-data/topic... ), pneumonia (18.3%) (⁴⁹49. Dharmarajan K, Hsieh AF, Lin Z, Bueno H, Ross JS, Horwitz LI, et al. Diagnoses and timing of 30-day readmissions after hospitalization for heart failure, acute myocardial infarction, or pneumonia. JAMA. 2013;309(4):355-63.), and heart failure (23.0%) (⁵⁰50. Go AS, Mozaffarian D, Roger VL, Benjamin EJ, Berry JD, Borden WB, et al. Heart Disease and Stroke Statistics—2013 Update. Circulation. 2013;127(1):e6-e245.) appear higher than for COVID-19, half of the COVID-19 readmissions occurred within 2 to 8 days after discharge, suggestive of a period of increased risk of clinical deterioration during this time (²²22. Chaudhry Z, Shawe-Taylor M, Rampling T, Cutfield T, Bidwell G, Chan XHS, et al. Short durations of corticosteroids for hospitalised COVID-19 patients are associated with a high readmission rate. J Infect. 2021;82(6):276-316.–²⁶26. Parra LM, Cantero M, Morrás I, Vallejo A, Diego I, Jiménez-Tejero E, et al. Hospital Readmissions of Discharged Patients with COVID-19. Int J Gen Med. 2020;13:1359-66.). A study on 1 853 severe COVID-19 patients aged 18–29 from Texas, United States, reported a 14% (n = 268) return to the hospital following discharge for additional reasons within 30 days (⁵¹51. Sandoval M, Nguyen DT, Vahidy FS, Graviss EA. Risk factors for severity of COVID-19 in hospital patients age 18–29 years. PLOS One. 2021;16(7):e0255544.). Late readmissions were less related to the index hospitalization but were more susceptible to comorbidities, social determinants of health, and geodemographic characteristics (⁶6. Herrin J, St Andre J, Kenward K, Joshi MS, Audet A-MJ, Hines SC. Community factors and hospital readmission rates. Health Serv Res. 2015;50(1):20-39.). High readmission rates in long-term follow-up studies (⁷7. Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693., ¹⁹19. Günster C, Busse R, Spoden M, Rombey T, Schillinger G, Hoffmann W, et al. 6-Month Follow Up of 8679 Hospitalized COVID-19 Patients in Germany: A Nationwide Cohort Study. medRxiv. 2021:2021.04.24.21256029.) highlight the need for continuous, longer ambulatory monitoring of COVID-19 survivors and an in-depth understanding of COVID-19 sequelae/post-COVID-19 conditions. COVID-19 patients who were readmitted had a lower LOS on index admission (²⁰20. Jeon WH, Seon JY, Park SY, Oh IH. Analysis of Risk Factors on Readmission Cases of COVID-19 in the Republic of Korea: Using Nationwide Health Claims Data. Int J Environ Res Public Health. 2020;17(16)., ²⁵25. Atalla E, Kalligeros M, Giampaolo G, Mylona EK, Shehadeh F, Mylonakis E. Readmissions among patients with COVID-19. Int J Clin Pract. 2020:e13700., ²⁸28. Saab FG, Chiang JN, Brook R, Adamson PC, Fulcher JA, Halperin E, et al. Discharge Clinical Characteristics and Post-Discharge Events in Patients with Severe COVID-19: A Descriptive Case Series. J Gen Intern Med. 2021;36(4):1017-22., ⁵²52. Rokadiya S, Gil E, Stubbs C, Bell D, Herbert R. COVID-19: Outcomes of patients with confirmed COVID-19 re-admitted to hospital. J Infect. 2020;81(3):e18-e9.) compared with the LOS for the total index inpatients; this observation in our review merits further study.

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FIGURE 4.
Median length of hospitalization in index admission, index admission in readmitted patients, and in readmission

Many studies in which the study durations coincided with the surge of COVID-19 cases in the respective countries, including two large studies (n > 1 000 each), reported high mortality in discharged patients and readmitted patients (¹⁷17. UyaroĞlu OA, BaŞaran N, ÖziŞik L, Dŀzman GT, EroĞlu ŀ, Şahŀn TK, et al. Thirty-day readmission rate of COVID-19 patients discharged from a tertiary care university hospital in Turkey: an observational, single-center study. Int J Qual Health Care. 2021;33(1)., ²⁴24. Yeo I, Baek S, Kim J, Elshakh H, Voronina A, Lou MS, et al. Assessment of thirty-day readmission rate, timing, causes and predictors after hospitalization with COVID-19. J Intern Med. 2021;290(1):157-165., ³⁰30. Islam N, Lewington S, Kharbanda RK, Davies J, Várnai KA, Lacey B. Sixty-day consequences of COVID-19 in patients discharged from hospital: an electronic health records study. Eur J Public Health. 2021;31(2):280-282., ⁴⁴44. Suleyman G, Fadel RA, Malette KM, Hammond C, Abdulla H, Entz A, et al. Clinical Characteristics and Morbidity Associated With Coronavirus Disease 2019 in a Series of Patients in Metropolitan Detroit. JAMA Netw Open. 2020;3(6):e2012270.). The risk factors associated with mortality were being male, having advanced age, having one or more comorbidities, and the type of health insurance. COVID-19 survivors had an almost 60% increased risk of death over the six months following their index discharge compared with the general population (⁵³53. Al-Aly Z, Xie Y, Bowe B. High-dimensional characterization of post-acute sequelae of COVID-19. Nature. 2021;594(7862):259-64.). These later deaths due to long-term complications of SARS-CoV-2 infection are not necessarily recorded as deaths due to COVID-19. The mortality rates we observed in our review suggest that the deaths were due to the immediate viral infection and therefore reported rates are only the tip of the iceberg.

The ED re-presentation rates appear similar in the context of national ED re-presentation average in the United Kingdom (14.0%) (⁵⁴54. Public Health England. Public Health Profiles. 2021. Available from: https://fingertips.phe.org.uk.
https://fingertips.phe.org.uk... ). Patients presenting to the ED were discharged using observation criteria (¹⁶16. Lanham D, Roe J, Chauhan A, Evans R, Hillman T, Logan S, et al. COVID-19 emergency department discharges: an outcome study. Clin Med (Lond). 2021;21(2):e126-e31.), but studies have indicated that patients with mild symptoms of COVID-19 might worsen days after the onset of symptoms, defying expectations for their prognosis (⁵⁵55. Kilaru AS, Lee K, Snider CK, Meisel ZF, Asch DA, Mitra N, et al. Return Hospital Admissions Among 1419 COVID-19 Patients Discharged from Five U.S. Emergency Departments. Acad Emerg Med. 2020;27(10):1039-42.). It should also be noted that in the United States the primary portal of entry for hospital admission for uninsured and publicly insured patients that may provide the only readily available care is the ED (⁵⁶56. Weiss AJ (Truven Health Analytics) WLTHA, Stocks C (AHRQ), Blanchard J (RAND). Overview of Emergency Department Visits in the United States, 2011. HCUP Statistical Brief #174, 2014.).

Efforts have been made to reduce early readmissions, both at the national and subnational levels. Studies have shown that simple interventions such as a telephone contact, home visits, app-based monitoring, and provision of home diagnostics were effective at reducing readmissions (⁵⁷57. Scott IA. Preventing the rebound: improving care transition in hospital discharge processes. Aust Health Rev. 2010;34(4):445-51.–⁵⁹59. Dudas V, Bookwalter T, Kerr KM, Pantilat SZ. The impact of follow-up telephone calls to patients after hospitalization. Dis Mon. 2002;48(4):239-48.), but our review did not include randomized controlled trials. The findings of our review are consistent with these studies (²³23. Ye S, Hiura G, Fleck E, Garcia A, Geleris J, Lee P, et al. Hospital Readmissions After Implementation of a Discharge Care Program for Patients with COVID-19 Illness. J Gen Intern Med. 2021;36(3):722-9., ³²32. Louie T, Kwan B, Susanto C, Ng A. Respiratory failure, clinical course and community management of COVID-19 patients in a large Australian cohort. Intern Med J. 2021;51(3):334-40., ⁶⁰60. Gordon WJ, Henderson D, DeSharone A, Fisher HN, Judge J, Levine DM, et al. Remote Patient Monitoring Program for Hospital Discharged COVID-19 Patients. Appl Clin Inform. 2020;11(5):792-801.). Risk of venous thromboembolism in patients with COVID-19 has been established previously, in whom venous thromboembolism usually appears progressively during the four weeks after the first hospital presentation (⁶¹61. Klok FA, Kruip M, van der Meer NJM, Arbous MS, Gommers D, Kant KM, et al. Confirmation of the high cumulative incidence of thrombotic complications in critically ill ICU patients with COVID-19: An updated analysis. Thromb Res. 2020;191:148-50.), which may explain venous thromboembolism as a common cause of readmission; therefore, COVID-19 patients at high risk of venous thromboembolism could benefit from prophylactic heparin (⁶²62. Demelo-Rodríguez P, Cervilla-Muñoz E, Ordieres-Ortega L, Parra-Virto A, Toledano-Macías M, Toledo-Samaniego N, et al. Incidence of asymptomatic deep vein thrombosis in patients with COVID-19 pneumonia and elevated D-dimer levels. Thromb Res. 2020;192:23-6.). To ensure health workers have control of care beyond the immediate post-discharge period, virtual wards have been set up which supported the remote management of respiratory conditions in COVID-19 patients (¹²12. Swift J, Harris Z, Woodward A, O’Kelly NI, Barker C, Ghosh S. The implementation of a virtual ward using digital solutions informing community clinicians in early supported discharge of patients with SARS-Cov2 respiratory symptoms from an acute hospital setting. medRxiv. 2021:2021.03.29.21254548.).

Implications for health systems and services

Developing and validating clear guidelines and protocols for COVID-19 inpatient and outpatient health facilities should be considered. Establishment of virtual wards, telemonitoring, or app-based monitoring of discharged patients for a short term (critical period of 7 days after discharge) and medium term, provision of home diagnostics and/or home oxygen supplementation for continued respiratory support, with periodic monitoring by the health care team and technicians, could be considered. Further research is needed to evaluate the effectiveness of these interventions alone or in combination. There is a need for local health systems to coordinate and collaborate with external partners for the continued provision of home oxygen therapy. Follow-up clinics are recommended for discharged patients, especially those with continued symptoms and uninsured patients, as well as patients with non-severe symptoms who are referred from primary care services. These clinics should be integrated with a multidisciplinary team with a focus on post-COVID-19 conditions.

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TABLE 2.
Mortality in COVID-19 survivors after discharge and after readmission

Limitations

Our review has some limitations. It should be noted that COVID-19 is a recent disease and the available studies on readmissions are limited; thus, the included studies had heterogenous methodologies, resulting in a risk of bias and low quality of evidence. Most of the studies were retrospective. Most studies were conducted in tertiary level/academic teaching hospitals, which have the capacity to care for severe and critical COVID-19 patients and are therefore likely to have a higher readmission rate. Some studies did not provide the duration of follow-up of the patients following discharge, and there was a lack in detailing the discharge procedure and readmission criteria for these patients. We also had limited data on the cause and risk factors for readmission of these patients.

Conclusion

In this comprehensive systematic review characterizing the readmissions of COVID-19 patients discharged from a health facility or an ED, we found an overall 30-day median readmission rate of 7.1%. Readmissions varied with the length of follow-up. Home oxygen supplementation, telemonitoring, and virtual wards were among the reported strategies to reduce readmissions. The findings from this study are pertinent both to clinical research and health care planning to further examine underlying reasons for readmission of COVID-19 patients.

Data sharing.

The protocol and detailed assessment of each eligible study is available upon request from the corresponding author (LR), and data supporting the findings of this study are available within the article and/or its supplementary material.

Disclaimer.

Authors hold sole responsibility for the views expressed in the manuscript, which may not necessarily reflect the opinion or policy of the RPSP/PAJPH and/or those of the Pan American Health Organization (PAHO).

Acknowledgments.

We would like to thank Dr. Ariel Izcovich for his advice on the presentation of results when drafting the manuscript and Dr. Gisela Alarcón for her comments and suggestions on the results and discussion sections. Editorial support was provided by Bryan Tutt, Scientific Editor, Research Medical Library, MD Anderson Cancer Center.

Author contributions.
LR conceived the study, verified the data, and oversaw the whole process. LR and SP designed the study. SP and LR screened titles. SP and VS extracted data. SP, LR, JN, JT, YLH, and OS analyzed and interpreted the results. SP and VS assessed the studies. SP wrote the first draft, which all authors revised for critical content. All authors had full access to the data in this study and reviewed and approved the final manuscript. LR and SA are the guarantors. The corresponding author attests that all listed authors meet authorship criteria and that no others meeting the criteria have been omitted.
Conflict of interest.
None declared.

REFERENCES

^1.
Donzé J, Lipsitz S, Bates DW, Schnipper JL. Causes and patterns of readmissions in patients with common comorbidities: retrospective cohort study. BMJ. 2013;347:f7171.
^2.
Artetxe A, Beristain A, Graña M. Predictive models for hospital readmission risk: A systematic review of methods. Comput Methods Programs Biomed. 2018;164:49-64.
^3.
Graham KL, Wilker EH, Howell MD, Davis RB, Marcantonio ER. Differences between early and late readmissions among patients: a cohort study. Ann Intern Med. 2015;162(11):741-9.
^4.
Jencks SF, Williams MV, Coleman EA. Rehospitalizations among Patients in the Medicare Fee-for-Service Program. New Eng J Med. 2009;360(14):1418-28.
^5.
Goldfield N, McCullough E, Hughes J, Tang A, Eastman B, Rawlins L, et al. Identifying Potentially Preventable Readmissions. Health Care Financ Rev. 2008;30:75-91.
^6.
Herrin J, St Andre J, Kenward K, Joshi MS, Audet A-MJ, Hines SC. Community factors and hospital readmission rates. Health Serv Res. 2015;50(1):20-39.
^7.
Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.
^8.
COVID-19 Dashboard [Internet]. 2022 Available from: https://covid19.who.int/
» https://covid19.who.int/
^9.
Leppin AL, Gionfriddo MR, Kessler M, Brito JP, Mair FS, Gallacher K, et al. Preventing 30-day hospital readmissions: a systematic review and meta-analysis of randomized trials. JAMA Intern Med. 2014;174(7):1095-107.
^10.
van Walraven C, Bennett C, Jennings A, Austin PC, Forster AJ. Proportion of hospital readmissions deemed avoidable: a systematic review. CMAJ. 2011;183(7):E391-402.
^11.
JBI. JBI Manual for evidence synthesis: JBI 2020. Available from: https://wiki.jbi.global/display/MANUAL/7.3.6.3+Assessment+of+methodological+quality
» https://wiki.jbi.global/display/MANUAL/7.3.6.3+Assessment+of+methodological+quality
^12.
Swift J, Harris Z, Woodward A, O’Kelly NI, Barker C, Ghosh S. The implementation of a virtual ward using digital solutions informing community clinicians in early supported discharge of patients with SARS-Cov2 respiratory symptoms from an acute hospital setting. medRxiv. 2021:2021.03.29.21254548.
^13.
Wang X, Xu H, Jiang H, Wang L, Lu C, Wei X, et al. Clinical features and outcomes of discharged coronavirus disease 2019 patients: a prospective cohort study. QJM. 2020;113(9):657-65.
^14.
Hernández-Biette A, Sanz-Santos J, Boix-Palop L, Navarro Rolón A, Martínez-Palau M, de la Sierra Iserte A. Risk factors for later hospitalization of patients discharged from an emergency department with nonsevere COVID-19 symptoms. Emergencias. 2020;32(6):413-5.
^15.
Teigell Muñoz FJ, García-Guijarro E, García-Domingo P, Pérez-Nieto G, Roque Rojas F, García-Peña M, et al. A safe protocol to identify low-risk patients with COVID-19 pneumonia for outpatient management. Intern Emerg Med. 2021:1-9.
^16.
Lanham D, Roe J, Chauhan A, Evans R, Hillman T, Logan S, et al. COVID-19 emergency department discharges: an outcome study. Clin Med (Lond). 2021;21(2):e126-e31.
^17.
UyaroĞlu OA, BaŞaran N, ÖziŞik L, Dŀzman GT, EroĞlu ŀ, Şahŀn TK, et al. Thirty-day readmission rate of COVID-19 patients discharged from a tertiary care university hospital in Turkey: an observational, single-center study. Int J Qual Health Care. 2021;33(1).
^18.
Lavery AM, Preston LE, Ko JY, Chevinsky JR, DeSisto CL, Pennington AF, et al. Characteristics of Hospitalized COVID-19 Patients Discharged and Experiencing Same-Hospital Readmission - United States, March-August 2020. MMWR Morb Mortal Wkly Rep. 2020;69(45):1695-9.
^19.
Günster C, Busse R, Spoden M, Rombey T, Schillinger G, Hoffmann W, et al. 6-Month Follow Up of 8679 Hospitalized COVID-19 Patients in Germany: A Nationwide Cohort Study. medRxiv. 2021:2021.04.24.21256029.
^20.
Jeon WH, Seon JY, Park SY, Oh IH. Analysis of Risk Factors on Readmission Cases of COVID-19 in the Republic of Korea: Using Nationwide Health Claims Data. Int J Environ Res Public Health. 2020;17(16).
^21.
Donnelly JP, Wang XQ, Iwashyna TJ, Prescott HC. Readmission and Death After Initial Hospital Discharge Among Patients With COVID-19 in a Large Multihospital System. JAMA. 2021;325(3):304-6.
^22.
Chaudhry Z, Shawe-Taylor M, Rampling T, Cutfield T, Bidwell G, Chan XHS, et al. Short durations of corticosteroids for hospitalised COVID-19 patients are associated with a high readmission rate. J Infect. 2021;82(6):276-316.
^23.
Ye S, Hiura G, Fleck E, Garcia A, Geleris J, Lee P, et al. Hospital Readmissions After Implementation of a Discharge Care Program for Patients with COVID-19 Illness. J Gen Intern Med. 2021;36(3):722-9.
^24.
Yeo I, Baek S, Kim J, Elshakh H, Voronina A, Lou MS, et al. Assessment of thirty-day readmission rate, timing, causes and predictors after hospitalization with COVID-19. J Intern Med. 2021;290(1):157-165.
^25.
Atalla E, Kalligeros M, Giampaolo G, Mylona EK, Shehadeh F, Mylonakis E. Readmissions among patients with COVID-19. Int J Clin Pract. 2020:e13700.
^26.
Parra LM, Cantero M, Morrás I, Vallejo A, Diego I, Jiménez-Tejero E, et al. Hospital Readmissions of Discharged Patients with COVID-19. Int J Gen Med. 2020;13:1359-66.
^27.
Somani S, Richter F, Fuster V, De Freitas J, Naik N, Sigel K, et al. Characterization of Patients Who Return to Hospital Following Discharge from Hospitalization For COVID-19. medRxiv. 2020.
^28.
Saab FG, Chiang JN, Brook R, Adamson PC, Fulcher JA, Halperin E, et al. Discharge Clinical Characteristics and Post-Discharge Events in Patients with Severe COVID-19: A Descriptive Case Series. J Gen Intern Med. 2021;36(4):1017-22.
^29.
Patel H, Virapongse A, Baduashvili A, Devitt J, Barr R, Bookman K. Implementing a COVID-19 Discharge Pathway to Improve Patient Safety. Am J Med Qual. 2021;36(2):84-9.
^30.
Islam N, Lewington S, Kharbanda RK, Davies J, Várnai KA, Lacey B. Sixty-day consequences of COVID-19 in patients discharged from hospital: an electronic health records study. Eur J Public Health. 2021;31(2):280-282.
^31.
Niu J, Sareli C, Sareli A. 514. Clinical features and outcomes of 112 patients with SARS-CoV-2 infections requiring intensive care in a public healthcare system in South Florida. Open Forum Infect Dis. 2020;7(Supplement_1):S323-S.
^32.
Louie T, Kwan B, Susanto C, Ng A. Respiratory failure, clinical course and community management of COVID-19 patients in a large Australian cohort. Intern Med J. 2021;51(3):334-40.
^33.
Leijte WT, Wagemaker NMM, van Kraaij TDA, de Kruif MD, Mostard GJM, Leers MPG, et al. [Mortality and re-admission after hospitalization with COVID-19]. Ned Tijdschr Geneeskd. 2020;164.
^34.
Bowles KH, McDonald M, Barrón Y, Kennedy E, O'Connor M, Mikkelsen M. Surviving COVID-19 After Hospital Discharge: Symptom, Functional, and Adverse Outcomes of Home Health Recipients. Ann Intern Med. 2021;174(3):316-25.
^35.
Maghrabi F, Bazaz R, Wilson E, Reilly S, Calisti G, Richardson R, et al. The development and implementation of a virtual discharge ward for patients with covid-19 pneumonia: Data on the first 300 patients. Thorax. 2021;76(SUPPL 1):A35-A6.
^36.
McCarthy CP, Murphy S, Jones-O'Connor M, Olshan DS, Khambhati JR, Rehman S, et al. Early clinical and sociodemographic experience with patients hospitalized with COVID-19 at a large American healthcare system. EClinicalMedicine. 2020;26:100504.
^37.
Loerinc LB, Scheel AM, Evans ST, Shabto JM, O'Keefe GA, O'Keefe JB. Discharge characteristics and care transitions of hospitalized patients with COVID-19. Healthc (Amst). 2021;9(1):100512.
^38.
Li C, Luo F, Xie L, Gao Y, Zhang N, Wu B. Chest CT study of fifteen COVID-19 patients with positive RT-PCR retest results after discharge. Quantitative Imaging in Medicine and Surgery; Vol 10, No 6 (June 2020): Quant Imaging Med Surg. 2020;10(6):1318-1324.
^39.
Cao H, Ruan L, Liu J, Liao W. The clinical characteristic of eight patients of COVID-19 with positive RT-PCR test after discharge. J Med Virol. 2020;92(10):2159-64.
^40.
Durmus E, Guneysu F. Evaluation of re-hospitalized COVID-19 patients in a hospital. Rev Assoc Med Bras (1992). 2020;66(12):1690-5.
^41.
López-Barbeito B, García-Martínez A, Coll-Vinent B, Placer A, Font C, Vargas CR, et al. Factors associated with revisits by patients with SARS-CoV-2 infection discharged from a hospital emergency department. Emergencias. 2020;32(6):386-94.
^42.
Banerjee J, Canamar CP, Voyageur C, Tangpraphaphorn S, Lemus A, Coffey C, Jr., et al. Mortality and Readmission Rates Among Patients With COVID-19 After Discharge From Acute Care Setting With Supplemental Oxygen. JAMA Netw Open. 2021;4(4):e213990.
^43.
van Herwerden MC, van Steenkiste J, El Moussaoui R, den Hollander JG, Helfrich G, I JAMV. [Home telemonitoring and oxygen therapy in COVID-19 patients: safety, patient satisfaction, and cost-effectiveness]. Ned Tijdschr Geneeskd. 2021;165.
^44.
Suleyman G, Fadel RA, Malette KM, Hammond C, Abdulla H, Entz A, et al. Clinical Characteristics and Morbidity Associated With Coronavirus Disease 2019 in a Series of Patients in Metropolitan Detroit. JAMA Netw Open. 2020;3(6):e2012270.
^45.
Oliver D. David Oliver: Who is to blame for older people’s readmission? BMJ. 2015;351:h4244.
^46.
Bailey MK WA, Barrett ML, Jiang HJ. Characteristics of 30-Day Readmissions, 2010-2016. Agency for Healthcare Research and Quality: Rockville; 2019.
^47.
Dobrzynski DM, Ndi DN, Zhu Y, Markus T, Schaffner W, Talbot HK. Hospital Readmissions After Laboratory-Confirmed Influenza Hospitalization. J Infect Dis. 2020;222(4):583-9.
^48.
Unplanned Hospital Visits - National Data. [Internet]. 2021 [cited 06/17/2021]. Available from: https://data.cms.gov/provider-data/topics/hospitals/unplanned-hospital-visits/
» https://data.cms.gov/provider-data/topics/hospitals/unplanned-hospital-visits/
^49.
Dharmarajan K, Hsieh AF, Lin Z, Bueno H, Ross JS, Horwitz LI, et al. Diagnoses and timing of 30-day readmissions after hospitalization for heart failure, acute myocardial infarction, or pneumonia. JAMA. 2013;309(4):355-63.
^50.
Go AS, Mozaffarian D, Roger VL, Benjamin EJ, Berry JD, Borden WB, et al. Heart Disease and Stroke Statistics—2013 Update. Circulation. 2013;127(1):e6-e245.
^51.
Sandoval M, Nguyen DT, Vahidy FS, Graviss EA. Risk factors for severity of COVID-19 in hospital patients age 18–29 years. PLOS One. 2021;16(7):e0255544.
^52.
Rokadiya S, Gil E, Stubbs C, Bell D, Herbert R. COVID-19: Outcomes of patients with confirmed COVID-19 re-admitted to hospital. J Infect. 2020;81(3):e18-e9.
^53.
Al-Aly Z, Xie Y, Bowe B. High-dimensional characterization of post-acute sequelae of COVID-19. Nature. 2021;594(7862):259-64.
^54.
Public Health England. Public Health Profiles. 2021. Available from: https://fingertips.phe.org.uk
» https://fingertips.phe.org.uk
^55.
Kilaru AS, Lee K, Snider CK, Meisel ZF, Asch DA, Mitra N, et al. Return Hospital Admissions Among 1419 COVID-19 Patients Discharged from Five U.S. Emergency Departments. Acad Emerg Med. 2020;27(10):1039-42.
^56.
Weiss AJ (Truven Health Analytics) WLTHA, Stocks C (AHRQ), Blanchard J (RAND). Overview of Emergency Department Visits in the United States, 2011. HCUP Statistical Brief #174, 2014.
^57.
Scott IA. Preventing the rebound: improving care transition in hospital discharge processes. Aust Health Rev. 2010;34(4):445-51.
^58.
Vernon D, Brown JE, Griffiths E, Nevill AM, Pinkney M. Reducing readmission rates through a discharge follow-up service. Future Healthc J. 2019;6(2):114-7.
^59.
Dudas V, Bookwalter T, Kerr KM, Pantilat SZ. The impact of follow-up telephone calls to patients after hospitalization. Dis Mon. 2002;48(4):239-48.
^60.
Gordon WJ, Henderson D, DeSharone A, Fisher HN, Judge J, Levine DM, et al. Remote Patient Monitoring Program for Hospital Discharged COVID-19 Patients. Appl Clin Inform. 2020;11(5):792-801.
^61.
Klok FA, Kruip M, van der Meer NJM, Arbous MS, Gommers D, Kant KM, et al. Confirmation of the high cumulative incidence of thrombotic complications in critically ill ICU patients with COVID-19: An updated analysis. Thromb Res. 2020;191:148-50.
^62.
Demelo-Rodríguez P, Cervilla-Muñoz E, Ordieres-Ortega L, Parra-Virto A, Toledano-Macías M, Toledo-Samaniego N, et al. Incidence of asymptomatic deep vein thrombosis in patients with COVID-19 pneumonia and elevated D-dimer levels. Thromb Res. 2020;192:23-6.

Publication Dates

Publication in this collection
19 May 2023
Date of issue
2022

History

Received
06 Dec 2021
Accepted
06 July 2022

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[1] Author contributions.
LR conceived the study, verified the data, and oversaw the whole process. LR and SP designed the study. SP and LR screened titles. SP and VS extracted data. SP, LR, JN, JT, YLH, and OS analyzed and interpreted the results. SP and VS assessed the studies. SP wrote the first draft, which all authors revised for critical content. All authors had full access to the data in this study and reviewed and approved the final manuscript. LR and SA are the guarantors. The corresponding author attests that all listed authors meet authorship criteria and that no others meeting the criteria have been omitted.

[2] Conflict of interest.
None declared.

Article	Factors associated with readmissions			Reason for readmission
Article	Clinical	Operational	Sociodemographic	Reason for readmission
Chaudhry et al., 2021 (²²22. Chaudhry Z, Shawe-Taylor M, Rampling T, Cutfield T, Bidwell G, Chan XHS, et al. Short durations of corticosteroids for hospitalised COVID-19 patients are associated with a high readmission rate. J Infect. 2021;82(6):276-316.)	Shorter courses of steroids (median 2 d vs 5 d, p < 0.001)	Shorter LOS (median 2 d vs 5 d, p = 0.005), discharged earlier in their illness course (median 8 d vs 13 d, p = 0.005)	NA	Oxygen requirement 85%, RF 30%
Ye et al., 2021 (²³23. Ye S, Hiura G, Fleck E, Garcia A, Geleris J, Lee P, et al. Hospital Readmissions After Implementation of a Discharge Care Program for Patients with COVID-19 Illness. J Gen Intern Med. 2021;36(3):722-9.)	HTN (67.7% vs 36.8%, p < 0.001), CKD (38.7% vs 12.2%, p < 0.001), CAD (32.3%vs 13.5%, p = 0.01), HF (19.4% vs 8.7%, p = 0.10)	Remote monitoring had fewer ED visits (OR 0.60, p = 0.12) and readmissions (OR 1.15, p = 0.73)	Older (66.3 y vs 56.6 y, p = 0.002)	NA
Somani et al., 2020 (²⁷27. Somani S, Richter F, Fuster V, De Freitas J, Naik N, Sigel K, et al. Characterization of Patients Who Return to Hospital Following Discharge from Hospitalization For COVID-19. medRxiv. 2020.)	COPD, HTN, absent index treatment-dose anticoagulation (aP = 0.06).	Shorter index LOS (aP = 0.006), less index ICU (aP = 0.001).	NA	Respiratory distress 50%
Parra et al., 2020 (²⁶26. Parra LM, Cantero M, Morrás I, Vallejo A, Diego I, Jiménez-Tejero E, et al. Hospital Readmissions of Discharged Patients with COVID-19. Int J Gen Med. 2020;13:1359-66.)	Immunocompromised (p = 0.04), HTN (p = 0.07), fever 48 h prior to discharge	Shorter LOS	NA	Pneumonia 55.7%, PTE 13.1%, HF 9.8%, bacterial infection 6.6%, AKF 3.3%, DVT 1.6%, lower arterial thrombosis 1.6%
Saab et al., 2021 (²⁸28. Saab FG, Chiang JN, Brook R, Adamson PC, Fulcher JA, Halperin E, et al. Discharge Clinical Characteristics and Post-Discharge Events in Patients with Severe COVID-19: A Descriptive Case Series. J Gen Intern Med. 2021;36(4):1017-22.)	Absolute lymphocyte count (p = 0.004)	NA	NA	Post-COVID-19 related 100% (5/5)
Atalla et al., 2020 (²⁵25. Atalla E, Kalligeros M, Giampaolo G, Mylona EK, Shehadeh F, Mylonakis E. Readmissions among patients with COVID-19. Int J Clin Pract. 2020:e13700.)	HTN (p = 0.038), diabetes (p = 0.021), CLD (e.g., COPD, asthma) (p < 0.001), liver disease (p = 0.001), cancer (p = 0.03)	NA	Alcohol (p < 0.001), drug abuse (p = 0.027)	12 d or <12 d respiratory distress, thrombotic episodes; >12 d psychiatric illness exacerbations and falls
UyaroĞlu et al., 2021 (¹⁷17. UyaroĞlu OA, BaŞaran N, ÖziŞik L, Dŀzman GT, EroĞlu ŀ, Şahŀn TK, et al. Thirty-day readmission rate of COVID-19 patients discharged from a tertiary care university hospital in Turkey: an observational, single-center study. Int J Qual Health Care. 2021;33(1).)	Malignancy (p = 0.04), HTN (p = 0.02)	NA	NA	Prolonged fever 45.5%, persistent cough 45.5%
Yeo et al., 2021 (²⁴24. Yeo I, Baek S, Kim J, Elshakh H, Voronina A, Lou MS, et al. Assessment of thirty-day readmission rate, timing, causes and predictors after hospitalization with COVID-19. J Intern Med. 2021;290(1):157-165.)	Obese (20%), HTN (68.6%), diabetes (39.6%), CHF (10.4%), CAD (16.7%), AF (10.4%), CKD (27.1%), COPD/asthma (14.6%), higher index PCT 0.3 ng/mL, troponin 0.04 ng/mL, index peak creatinine ≥1.29 mg/dL (aOR 2.41)	NA	Non-Hispanic white (27.8%), discharged to a facility	Respiratory failure 68.8%, TE 12.5%, sepsis 6.3%
Swift et al., 2021 (¹²12. Swift J, Harris Z, Woodward A, O’Kelly NI, Barker C, Ghosh S. The implementation of a virtual ward using digital solutions informing community clinicians in early supported discharge of patients with SARS-Cov2 respiratory symptoms from an acute hospital setting. medRxiv. 2021:2021.03.29.21254548.)	NA	NA	NA	Clotting disorder 100%
Patel et al., 2021 (²⁹29. Patel H, Virapongse A, Baduashvili A, Devitt J, Barr R, Bookman K. Implementing a COVID-19 Discharge Pathway to Improve Patient Safety. Am J Med Qual. 2021;36(2):84-9.)	NA	NA	NA	New/propagating VTE 22.2%
Wang et al., 2020 (¹³13. Wang X, Xu H, Jiang H, Wang L, Lu C, Wei X, et al. Clinical features and outcomes of discharged coronavirus disease 2019 patients: a prospective cohort study. QJM. 2020;113(9):657-65.)	NA	NA	NA	Fever/positive PCR re-test 2.3%

Article	Country	Mortality after discharge	Characteristics of discharged patients	Readmission rate	Mortality after readmission	Characteristics of readmitted patients
Louie et al., 2021 (³²32. Louie T, Kwan B, Susanto C, Ng A. Respiratory failure, clinical course and community management of COVID-19 patients in a large Australian cohort. Intern Med J. 2021;51(3):334-40.)	Australia	5%	54 y (mean), 53% male, 79% comorbidity	16%	NA	NA
Leijte et al., 2020 (³³33. Leijte WT, Wagemaker NMM, van Kraaij TDA, de Kruif MD, Mostard GJM, Leers MPG, et al. [Mortality and re-admission after hospitalization with COVID-19]. Ned Tijdschr Geneeskd. 2020;164.)	Netherlands	6.4%	NA	11.7%	NA	NA
van Herwerden et al., 2021 (⁴¹41. López-Barbeito B, García-Martínez A, Coll-Vinent B, Placer A, Font C, Vargas CR, et al. Factors associated with revisits by patients with SARS-CoV-2 infection discharged from a hospital emergency department. Emergencias. 2020;32(6):386-94.)	Netherlands	0%	56 y (mean), 51% male	12.2%	NA	NA
Parra et al., 2020 (²⁶26. Parra LM, Cantero M, Morrás I, Vallejo A, Diego I, Jiménez-Tejero E, et al. Hospital Readmissions of Discharged Patients with COVID-19. Int J Gen Med. 2020;13:1359-66.)	Spain	NA	Obesity 9.8%, DM 22.9%, HTN 55.4%, CVD 26.2%, COPD 19.7%, neoplasia 19.7%, immunosuppression 16.4%	4.4%	14.7%	67 y (mean), 73.8% male
Durmus et al., 2020 (⁴⁰40. Durmus E, Guneysu F. Evaluation of re-hospitalized COVID-19 patients in a hospital. Rev Assoc Med Bras (1992). 2020;66(12):1690-5.)	Turkey	NA	NA	NA	6.6%	57 y (mean), 43.3% male, 1 or more comorbidities (68.3%)
UyaroĞlu et al., 2021 (¹⁷17. UyaroĞlu OA, BaŞaran N, ÖziŞik L, Dŀzman GT, EroĞlu ŀ, Şahŀn TK, et al. Thirty-day readmission rate of COVID-19 patients discharged from a tertiary care university hospital in Turkey: an observational, single-center study. Int J Qual Health Care. 2021;33(1).)	Turkey	NA	44.5 y (mean), 50% male	7.1%	18.1%	49 y (mean), 54.5% male
Islam et al., 2021 (³⁰30. Islam N, Lewington S, Kharbanda RK, Davies J, Várnai KA, Lacey B. Sixty-day consequences of COVID-19 in patients discharged from hospital: an electronic health records study. Eur J Public Health. 2021;31(2):280-282.)	UK	7.2%	65 y (median), 52% male, 68% comorbidities	21.1%	NA	NA
Ayoubkhani et al., 2021 (⁷7. Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.)	UK	9%	National data, 64.5 y (mean), 55% male	29.4%	NA	NA
Maghrabi et al., 2021 (³⁵35. Maghrabi F, Bazaz R, Wilson E, Reilly S, Calisti G, Richardson R, et al. The development and implementation of a virtual discharge ward for patients with covid-19 pneumonia: Data on the first 300 patients. Thorax. 2021;76(SUPPL 1):A35-A6.)	UK	NA	66.7% male, 71% comorbidity	9.3%	7.1%	NA
Loerinc et al., 2021 (³⁷37. Loerinc LB, Scheel AM, Evans ST, Shabto JM, O'Keefe GA, O'Keefe JB. Discharge characteristics and care transitions of hospitalized patients with COVID-19. Healthc (Amst). 2021;9(1):100512.)	USA	0.6%	58 y (mean), 49% male, HTN 64.5%, BMI ≥ 30 44.5%, DM 36.1%; Insurance: 14.6% private, 36.5% Medicare, 4.2% Medicaid, 6.8% uninsured, 11.9% unknown	5.2%	NA	56% male, HTN 56.3%, CKD 50.0%, BMI ≥ 30 43.8%, DM 43.8%, immunosuppression 18.8%
McCarthy et al., 2020 (³⁶36. McCarthy CP, Murphy S, Jones-O'Connor M, Olshan DS, Khambhati JR, Rehman S, et al. Early clinical and sociodemographic experience with patients hospitalized with COVID-19 at a large American healthcare system. EClinicalMedicine. 2020;26:100504.)	USA	1.9%	NA	10.3%	NA	NA
Donnelly et al., 2021 (²¹21. Donnelly JP, Wang XQ, Iwashyna TJ, Prescott HC. Readmission and Death After Initial Hospital Discharge Among Patients With COVID-19 in a Large Multihospital System. JAMA. 2021;325(3):304-6.)	USA	9.1%	National veterans hospitals data, 71 y (mean)	19.9%	NA	95.5% male, 52.5% Black
Ye et al., 2021 (²³23. Ye S, Hiura G, Fleck E, Garcia A, Geleris J, Lee P, et al. Hospital Readmissions After Implementation of a Discharge Care Program for Patients with COVID-19 Illness. J Gen Intern Med. 2021;36(3):722-9.)	USA	NA	57.3 y (mean), 60% male, HTN 39.1%, DM 26.2%	7.6%	1.7%	66.3 y (mean), 61% male
Somani et al., 2020 (²⁷27. Somani S, Richter F, Fuster V, De Freitas J, Naik N, Sigel K, et al. Characterization of Patients Who Return to Hospital Following Discharge from Hospitalization For COVID-19. medRxiv. 2020.)	USA	NA	NA	1.9%	5.4%	66.1 y (mean), 43.9% male
Atalla et al., 2020 (²⁵25. Atalla E, Kalligeros M, Giampaolo G, Mylona EK, Shehadeh F, Mylonakis E. Readmissions among patients with COVID-19. Int J Clin Pract. 2020:e13700.)	USA	NA	61 y (median), 56.3% male, CHF 9.4%, arrythmias 18.9%, HTN 45.4%	6.8%	10.5%	58 y (median), 63.2% male; commercial insurance 10.5%, Medicaid 31.6%, Medicare 57.9%, self-pay 0%,
Yeo et al., 2021 (²⁴24. Yeo I, Baek S, Kim J, Elshakh H, Voronina A, Lou MS, et al. Assessment of thirty-day readmission rate, timing, causes and predictors after hospitalization with COVID-19. J Intern Med. 2021;290(1):157-165.)	USA	NA	56.5 y (mean), 59.50% male	4.5%	22.9%	68.5 y (mean), 52.10% male
Bowles et al., 2021 (³⁴34. Bowles KH, McDonald M, Barrón Y, Kennedy E, O'Connor M, Mikkelsen M. Surviving COVID-19 After Hospital Discharge: Symptom, Functional, and Adverse Outcomes of Home Health Recipients. Ann Intern Med. 2021;174(3):316-25.)	USA	1%	67 y (median), 51% male, HTN 69%, diabetes 41%, CLD 16%; Insurance: Medicare 46%, Medicaid 15%, Medicaid + Medicare 12%, other 27.5%	10%	2.0%	NA
Banerjee et al., 2021 (⁴⁷47. Dobrzynski DM, Ndi DN, Zhu Y, Markus T, Schaffner W, Talbot HK. Hospital Readmissions After Laboratory-Confirmed Influenza Hospitalization. J Infect Dis. 2020;222(4):583-9.)	USA	1.3%	51 y (median), 65.1% male; Medicaid 76%	8.5%	15.0%	NA
Anesi et al., 2021 (⁵⁰50. Go AS, Mozaffarian D, Roger VL, Benjamin EJ, Berry JD, Borden WB, et al. Heart Disease and Stroke Statistics—2013 Update. Circulation. 2013;127(1):e6-e245.)	USA	6.8%	Critical patients 100%	10.8%	NA	NA
Lavery et al., 2020 (¹⁸18. Lavery AM, Preston LE, Ko JY, Chevinsky JR, DeSisto CL, Pennington AF, et al. Characteristics of Hospitalized COVID-19 Patients Discharged and Experiencing Same-Hospital Readmission - United States, March-August 2020. MMWR Morb Mortal Wkly Rep. 2020;69(45):1695-9.)	USA	NA	National data, 60-day follow-up	9%	<0.1%	51.6% male
Suleyman et al, 2020 (⁴⁹49. Dharmarajan K, Hsieh AF, Lin Z, Bueno H, Ross JS, Horwitz LI, et al. Diagnoses and timing of 30-day readmissions after hospitalization for heart failure, acute myocardial infarction, or pneumonia. JAMA. 2013;309(4):355-63.)	USA	20%	NR	11.2%	13.7%	NA
Hernández-Biette et al., 2020 (¹⁴14. Hernández-Biette A, Sanz-Santos J, Boix-Palop L, Navarro Rolón A, Martínez-Palau M, de la Sierra Iserte A. Risk factors for later hospitalization of patients discharged from an emergency department with nonsevere COVID-19 symptoms. Emergencias. 2020;32(6):413-5.)*	Spain	NA	ED discharged, 54.6 y (mean)	23%	4%	65.5 y (mean), 52% male
López-Barbeito et al., 2020 (⁴⁵45. Oliver D. David Oliver: Who is to blame for older people’s readmission? BMJ. 2015;351:h4244.)*	Spain	NA	ED discharged, 57 y (mean), 51% male	7.1%	4.5%	NA
Teigell et al., 2021 (¹⁵15. Teigell Muñoz FJ, García-Guijarro E, García-Domingo P, Pérez-Nieto G, Roque Rojas F, García-Peña M, et al. A safe protocol to identify low-risk patients with COVID-19 pneumonia for outpatient management. Intern Emerg Med. 2021:1-9.)*	Spain	0%	ED discharged, 45 y (mean), 47.5% male, 29.9% 1 or more comorbidities	6.4%	0%	46.5 y (mean), 60% male, 40% 1 or more comorbidities

Saúde Pública

Saúde Pública

Hospital readmissions and emergency department re-presentation of COVID-19 patients: a systematic review

Reingreso de pacientes con COVID-19 a salas de hospitalización y servicios de urgencias: una revisión sistemática

Reinternação hospitalar e retorno ao pronto-socorro de pacientes com COVID-19: revisão sistemática

ABSTRACT

Objective.

Methods.

Results.

Conclusions.

RESUMEN

Objetivo.

Métodos.

Resultados.

Conclusión.

RESUMO

Objetivo.

Métodos.

Resultados.

Conclusões.

MATERIALS AND METHODS

Search strategy

Study selection

Data extraction

Assessment of methodological quality

Data synthesis

RESULTS

Critical appraisal of the included studies

Description of studies

Readmission of patients within 30 days following index inpatient admission for COVID-19

Readmissions in long-term follow-up studies (>30 days) for COVID-19 survivors and studies not reporting a follow-up duration

Inpatient admission and emergency department re-presentations following initial discharge from an emergency department

Discharge criteria and post-discharge interventions for all included studies

Oxygen requirement

Length of hospital stay in index admission and readmission

Mortality

DISCUSSION

Implications for health systems and services

Limitations

Conclusion

Data sharing.

Disclaimer.

Acknowledgments.

REFERENCES

Publication Dates

History