key: cord-0993716-qilfjxkp
authors: SeyedAlinaghi, SeyedAhmad; Oliaei, Shahram; Kianzad, Shaghayegh; Afsahi, Amir Masoud; MohsseniPour, Mehrzad; Barzegary, Alireza; Mirzapour, Pegah; Behnezhad, Farzane; Noori, Tayebeh; Mehraeen, Esmaeil; Dadras, Omid; Voltarelli, Fabricio; Sabatier, Jean-Marc
title: Reinfection risk of novel coronavirus (COVID-19): A systematic ‎review of current evidence
date: 2020-12-15
journal: World J Virol
DOI: 10.5501/wjv.v9.i5.79
sha: 254340cfe7541bda73b20b11e7ba2b63cec38269
doc_id: 993716
cord_uid: qilfjxkp

BACKGROUND: There is recently a concern regarding the reinfection and reactivation of previously reCoVered coronavirus disease 2019 (CoVID-19) patients. AIM: To summarize the recent findings and reports of CoVID-19 reinfection in patients previously reCoVered from the disease. METHODS: This study was a systematic review of current evidence conducted in August 2020. The authors studied the probable reinfection risk of novel coronavirus (CoVID-19). We performed a systematic search using the keywords in online databases. The investigation adheres to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) checklist to ensure the reliability and validity of this study and results. RESULTS: We reviewed 31 studies. Eight studies described reCoVered patients with reinfection. Only one study reported reinfected patients who died. In 26 studies, there was no information about the status of the patients. Several studies indicated that reinfection is not probable and that post-infection immunity is at least temporary and short. CONCLUSION: Based on our review, we concluded that a positive polymerase chain reaction retest could be due to several reasons and should not always be considered as reinfection or reactivation of the disease. Most relevant studies in positive retest patients have shown relative and probably temporary immunity after the reCoVery of the disease.

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), a new strain of coronavirus, causes coronavirus disease 2019 (CoVID-19), which was first reported in China in late 2019 and then spread rapidly worldwide [1] [2] [3] [4] [5] . The symptoms of CoVID-19 are high temperature, dry cough, shortness of breath, headache, tiredness, loss of taste or smell, and gastrointestinal symptoms such as diarrhea, anorexia, nausea, and abdominal pain [6] [7] [8] . Increased liver enzyme and low counts of lymphocytes (lymphocytopenia) along with increased C-reactive protein (CRP) levels are often present in CoVD-19 patients [9] . It could eventually lead to acute respiratory distress syndrome (ARDS) and death [1, 10, 11] . Although there is currently no certainty in virus biological behavior and risk of recurrence in the human body, recent studies reported evidence of the virus reactivation following an asymptomatic CoVID-19 infection in a small group of patients [1, 12, 13] .

The risk factors of SARS-CoV-2 reactivation are related to the type of immunosuppressive therapies, factors in the host such as older age, gender, underlying diseases such as diabetes, heart disease, obesity, cancer, and virologic factors [1, 14] . Some viruses such as varicella-zoster can remain dormant in host cells for some time, not causing any illness and then reactivate and cause the disease. Recent evidence indicates that SARS-CoV-2 could present similar behavior and reactivate in patients with previously confirmed CoVID-19 infection and cause illness and person-to-person transmission [15] .

Recent studies reported that some reCoVered CoVID-19 patients tested positive for virus nucleic acid again [16, 17] . Elderly people with comorbidities are more likely to present with CoVID-19 reinfection [18] . Studies suggested that there are three major mechanisms for the reinfection of CoVID-19, including short-lived, ineffective, and strain-specific immune response [19, 20] .

The gold standard test for diagnosing SARS-CoV-2 infection is nasopharyngeal swab. Swabs from patients who reCoVered from CoVID-19 infection are negative, indicating full reCoVery from CoVID-19 infection. However, a certain number of individuals could be a false negative [17, 18] , because the samples for identifying SARS-CoV-2 viral load depend on the result of reverse transcription polymerase chain reaction (RT-PCR). SARS-CoV-2 uses angiotensin-converting enzyme-2 (ACE-2) as the receptor for cellular entry. The expression of ACE2 protein in the lungs is more than that in the upper respiratory tract. Therefore, it is important from which site the sample was taken in a patient with CoVID-19, as it may cause false-negative RT-PCR results [21] .

In recent studies, SARS-CoV-2 was detected in fecal and sputum specimens of patients who were discharged from the hospital with a negative pharyngeal swab after a couple of weeks [17, 22] . In other coronavirus pandemics such as Middle East respiratory syndrome (MERS) and severe acute respiratory syndrome (SARS), immunoglobulin levels in patients lasted for a minimum of 2 years, indicating that patients could be vulnerable to reinfection after 3 years [23, 24] . The tests that detect SARS-CoV-2 genetic material are very sensitive; however, in patients who have reCoVered from CoVID-19, virus fragments can persist in the body and can be detected by the test. This should not be considered as a new infection [23] .

The reinfection in patients reCoVered from CoVID-19 could create a serious challenge in tackling the CoVID-19 pandemic as the reCoVered patients could be a source of virus spread in society [19] . Previous studies have found a positive viral ribonucleic acid (RNA) test in some discharged CoVID-19 patients 10 to 27 d after reCoVery [1, 19] . Recurrence of CoVID-19 after reCoVery should be differentiated from secondary medical conditions such as super infection, pulmonary embolism, or persistent RNA virus that can be disCoVered in respiratory specimens in clinically cured CoVID-19 patients [25] . This review aims to provide a systematic compilation of SARS-CoV-2 reactivation in reCoVered CoVID-19 patients.

This study was a systematic literature review of current evidence conducted in August 2020. The authors studied the probable reinfection risk of novel coronavirus . Our study adheres to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) checklist to ensure the reliability and validity of this study and results.

By application of a systematic search and using the keywords in the online databases including PubMed, Scopus, Web of Science, and Science Direct, we extracted all the relevant papers and reports published in English from December 2019 through August December 15, 2020

Volume 9 Issue 5 2020. We included several combinations of keywords in the following orders to conduct the search strategy: (1) "Coronavirus" or "CoVID-19" or "SARS-CoV-2" or "Novel Coronavirus" or "2019-nCoV" [Title/Abstract]; (2) "Reactivation" or "Reinfection" or "Postinfection" [Title/Abstract]; and (1) and (2).

Three independent investigators retrieved the studies that were the most relevant by titles and abstracts. Subsequently, the full text of the retrieved papers was reviewed and the most relevant papers were chosen according to the eligibility criteria. Then, we extracted the relevant data and organized them in Tables. The original papers that were peer-reviewed and published in English and fulfilled the eligibility criteria were included in the final report. We considered the exclusion criteria for this study as follows: (1) Papers conveying non-human studies including in vitro observations or articles focusing on animal experiments, or discussing CoVID-19 as a whole subject, without citation of the keywords of this study; (2) Papers in which their full text were out of access; and (3) Any suspicious and duplicated results in the databases.

After summarizing, we transferred the information of the authors, type of article (e.g., case reports), publication date, country of origin, sample size, age, gender, and clinical symptoms to a data extraction sheet. Two independent investigators collected this information and subsequently organized them in the Tables. Finally, to ensure no duplications or overlap exist in the content, all the selected articles were cross-checked by other authors.

As aforementioned, we applied the PRISMA checklist to ensure the quality and reliability of selected articles. Two independent researchers evaluated the consistency and quality of the articles and the bias risk. In either case of discrepancy in viewpoints, a third independent researcher resolved the issue. The full text of selected articles was fully read, and the key findings were extracted.

In this study, 981 documents were identified using a systematic search strategy. After a primary review of retrieved articles, 498 duplicates were removed, and the title and abstract of the remaining 483 resources were reviewed. After applying the selection criteria, 552 articles were excluded, and only 31 articles met the inclusion criteria and were included in the final review ( Figure 1 ).

We have reviewed 35 studies. Eight studies described reCoVered patients with reinfection. Only one study reported reinfected patients who died. In 26 studies, there was no information about the status of the patients (Table 1) [2, 10, 16, 17, 20, [25] [26] [27] [28] .

Several studies indicated that reinfection is not probable and that postinfection immunity is at least temporarily and short; however, other studies, particularly from South Korea and China, reported some reinfection cases. South Korea reported that 116 reCoVered cases of CoVID-19 were found to be positive again [16] . Another study from South Korea reported that up to 163 patients who were presumed to have reCoVered from SARS-CoV-2 ended up testing positive again [20] . Several studies from China do not support reinfection [26] [27] [28] [29] . There is only one study from China that reported five cases of reactivation [5] .

The results of the present study showed that there are many factors that we need to take into account about reinfection. Some cases may have resulted in a false negative at discharge or patients did not completely meet discharge criteria. Although we should not forget that reinfection could be possible, because some studies have shown humoral immunity weakens over time.

Due to the widespread expansion of the CoVID-19 epidemic around the world, there are more and more infected cases, and of course, many people have reCoVered from this viral infection. However, there is recently a concern regarding the reinfection in [31] Editorial United States CoVID-19 in children

Limited data suggest that reCoVery might confer immunity 6 Hoang et al [32] Letter to the editor France Patients reCoVered from No No Yes Recurrence of SARS-CoV-2 in patients who had reCoVered from CoVID-19 has been described. However, it is possible that recurrences could actually be persistent infections in which the PCR resulted falsely negative at discharge 7 Inamo et al [33] Letter of biomedical and clinical research Japan Reinfection with SARS-CoV-2 seems unlikely taking into consideration our knowledge. We must maintain vigilance during the convalescence period and must take into consideration the probability of genetic mutations, as observed, rather than reinfection by the same strain 26 Steinchen et al [49] Case report Germany A case of rheumatoid arthritis and CoVID-19 patient Patients presenting with CoVID-19 associated post-infectious cytokine release syndrome appear to present with prolonged fever (5 d or greater) and GI symptoms with or without rash. This syndrome may overlap with features of Kawasaki Disease and Toxic Shock Syndrome. Patients who present with this clinical picture should have frequent vital signs and will require admission due to the potential for rapid deterioration 30 Tao et al [28] Research study China CoVID-19 patients Yes No No These results implied that the positive result is unlikely caused by the reinfection from others or the remained virus. Rather, it may derive from the remained virus transferred from the lower respiratory tract to the throat or nose with coughing. Accordingly, it is suggested that the specimen detection of bronchoalveolar lavage fluid from the lower respiratory tract should be used as the discharge criteria 31 Zhou et al [53] Review China CoVID-19 patients No No Yes Re-fever and positive nucleic acid test after discharge from the hospital might be due to the biological characteristics of 2019-nCoV, and might also be related to the basic disease, clinical status, glucocorticoid use, sampling, processing, and detecting of patients, and some even related to the reinfection or secondary bacterial virus infection previously reCoVered SARS-CoV-2 patients. In the present review, we summarized the recent findings and reports of CoVID-19 reinfection in patients previously reCoVered from the disease. This is important to inform the public regarding the possible risk of reinfection to restrain the transmission of SARS-CoV-2 and control the current epidemic [25] .

The findings from the current review of existing evidence suggest two possible scenarios for new infection in patients who were previously reCoVered from CoVD-19, including reinfection and reactivation. Studies have shown some cases of symptom recurrence such as fever, malaise, myalgia, and cough after discharge. The positive PCR test confirmed the infection and suggested reinfection. Although this has been attributed to the biological characteristics of CoVID-19 and other factors, such as underlying diseases, clinical status, glucocorticoid use, sample collection, patient detection, follow-up, and even secondary bacterial infection, it could be due to reinfection with 54] . Positive follow-up tests may also derive from the remained virus transferred from the lower respiratory tract to the throat and nose with coughing. Therefore, it is suggested that the fluid collected in the bronchoalveolar lavage of the lower respiratory tract should be tested and used as the discharge criteria in SARS-CoV-2 patients [28] . In fact, a retest can be positive due to several reasons; thus, it is difficult to distinguish between reinfection, reactivation, or other causes.

Among the reviewed studies, six studies emphasized short-term immunity following reCoVery [18, 19, 25, 26, 33, 35] . One study indicated that the antibodies and the immunity could last about 40 d and that there is a possibility of reinfection or reactivation of latent infection after this period. Therefore, reCoVery from CoVID-19 might not confer immunity against reinfection forever [38, 39] . Furthermore, previous studies related to other human coronavirus types suggested the possibility of reinfection by other members of the coronavirus family following reCoVery from a particular type [24] . Although there are previous studies that suggest the reinfection with SARS-CoV-2 is unlikely, we must maintain vigilance during the convalescence period and consider the probability of genetic mutations as observed rather than reinfection by the same strain [6, 29, 33, 34] .

The results of the present study showed that there are many factors that we need to take into account about reinfection. Some cases may have resulted in false negative at discharge or patients did not completely meet discharge criteria. We should not forget, however, that reinfection could be possible because some studies have shown humoral immunity weakens over time. The certainty regarding the reinfection in CoVID-19 patients is limited, and we strongly recommend further studies to explore the virological, immunological, and epidemiologic characteristics of SARS-CoV-2 to determine the biological behavior of the virus and describe the potential mechanisms of disease recurrences.

In conclusion, positive PCR retest results could be due to several reasons such as the type of specimen collection and technical errors associated with each component of swab testing, the methods used before discharging patients, prolonged viral shedding, and infection by mutated SARS-CoV-2. Thus, it should not always be considered as a reinfection or reactivation of the disease. Furthermore, most relevant studies on symptomatic and positive retest patients have shown relative and probably temporary immunity after the reCoVery of the disease, which means that immunity acquired following primary infection with SARS-CoV-2 may protect from subsequent exposure to the virus at least for a limited period. December 15, 2020

Volume 9 Issue 5

Due to the high rate of transmission of coronavirus disease 2019 (CoVID-19) , a large number of people around the world became infected with the virus. There is evidence of reinfection with this virus. Therefore, people who get the disease once may be reinfected after reCoVery. Further investigation of reinfection by CoVID-19 is one of the necessities for better management of current conditions.

There have been reports of reCoVered individuals who have a second positive coronary test. This has raised concerns that there is no guarantee that the body will be safe after corona disease, even in the short term.

The aim of the present study was to investigate the available evidence of reinfection in patients with CoVID-19 who have reCoVered.

This is a review study of different research types. Since there are myriads of publications released each and every day, with each trying to shed light on this pandemic from different perspectives, we aimed to summarize the very recent and of course the most trustworthy studies regarding the possibility of reinfection of CoVID-19 in this review in order to provide health care professionals and researchers imminent access to a multitude of these studies via a concise resource to save their invaluable time for other yet to do tasks.

The results have shown that there is a slight chance of reinfection. Though the duration of immunity is still unknown and needs to be determined; there is no guarantee that infected patients will not be infected again according to our results. These reinfections can be related to immunity system problems in cases of immunosuppressive disease or drugs that can misdirect our results, but there were many cases that got reinfected without any sign of the problems mentioned above.

Based on the available evidence, reinfection in improved patients has been proven. Still, there is not enough data to definitely distinguish reinfection, reactivation, or infection with a new mutated severe acute respiratory syndrome coronavirus 2. So, further studies are necessary to understand if a CoVID-19 recurrence is possible and whether it could be considered a real threat.

We strongly suggest further studies to follow up discharged CoVID-19 patients, check their course of symptoms periodically, and analyze related antibody levels; widespread virological studies are necessary to understand better this new global predicament.

Safety and effectiveness of azithromycin in patients with CoVID-19: An open-label randomised trial

Clinical recurrences of CoVID-19 symptoms after reCoVery: Viral relapse, reinfection or inflammatory rebound?

Retest positive for SARS-CoV-2 RNA of "reCoVered" patients with CoVID-19: Persistence, sampling issues, or re-infection

Is reinfection possible after reCoVery from CoVID-19?

Positive RT-PCR Test Results in Discharged CoVID-19 Patients: Reinfection or Residual?

Potential interventions for novel coronavirus in China: A systematic review

Clinical exacerbation of SARS-CoV-2 infection after fingolimod withdrawal

What Are the Newest Effects of CoVID-19 in Children?

Recurrence of positive SARS-CoV-2 in patients reCoVered from CoVID-19

How should we overcome the threat by the pandemic of 2019-nCoV?

A Generalized Overview of SARS-CoV-2: Where Does the Current Knowledge Stand?

Molecular characterization and amino acid homology of nucleocapsid (N) Protein in SARS-CoV-1, SARS-CoV-2, MERS-CoV, and bat coronavirus

Reinfection or relapse in sars-CoV-2-infected patients; does it occur?

Analysis of the mitigation strategies for COVID-19: From mathematical modelling perspective

The dynamics of humoral immune responses following SARS-CoV-2 infection and the potential for reinfection

CoVID-19 and Postinfection Immunity: Limited Evidence, Many Remaining Questions

CoVID-19: Time for precision epidemiology

Is Gradual and Controlled Approach to Herd Protection a Valid Strategy to Curb the CoVID-19 Pandemic?

T cells found in coronavirus patients 'bode well' for long-term immunity

Positive SARS-CoV-2 test in a woman with CoVID-19 at 22 days after hospital discharge: A case report

Establishment of a safety protocol for the administration of treatments in multiple sclerosis during the SARS-CoV-2 pandemic

Estimation of the Probability of Reinfection With CoVID-19 by the Susceptible-Exposed-Infectious-Removed-Undetectable-Susceptible Model

The CoVID-19 Pandemic in the US: A Clinical Update

Will we see protection or reinfection in CoVID-19?

Predicting the progress of CoVID-19: the case for Turkey

Biological therapy after CoVID-19 infection : No reactivation of a CoVID-19 infection with positive SARS-CoV-2 antibody status under biological therapy

Basic principles of replication and immunology of SARS-CoV-2

and demographic variation in CoVID-19 health care demand in England and Wales

Features of CoVID-19 post-infectious cytokine release syndrome in children presenting to the emergency department

Cause analysis and treatment strategies of "recurrence" with novel coronavirus pneumonia (CoVID-19) patients after discharge from hospital

Current meta-analysis does not support the possibility of CoVID-19 reinfections

The present study was conducted in collaboration with Khalkhal University of Medical Sciences, Iranian Institute for Reduction of High Risk Behaviors, Tehran University of Medical Sciences and Department of Global Health and Socioepidemiology, Kyoto University.