key: cord-0952474-htd7dmn9
authors: Gautret, Phillipe; Benkouiten, Samir; Al-Tawfiq, Jaffar A.; Memish, Ziad A.
title: Hajj-associated viral respiratory infections: A systematic review
date: 2015-12-31
journal: Travel Med Infect Dis
DOI: 10.1016/j.tmaid.2015.12.008
sha: 9a12c1852bf079e75fe2b1bb3186e468081a164e
doc_id: 952474
cord_uid: htd7dmn9

Respiratory tract infections (RTI) are the most common infections transmitted between Hajj pilgrims. The aim of this systematic review was to determine the prevalence of virus carriage potentially responsible for RTI among pilgrims before and after participating in the Hajj. A systematic search for relevant literature was conducted according to Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines. 31 studies were identified. Severe Acute Respiratory Syndrome coronavirus and Middle East Respiratory Syndrome coronavirus (MERS) were never isolated in Hajj pilgrims. The viruses most commonly isolated from symptomatic patients during the Hajj by PCR were rhinovirus (5.9–48.8% prevalence), followed by influenza virus (4.5–13.9%) and non-MERS coronaviruses (2.7–13.2%) with most infections due to coronavirus 229E; other viruses were less frequently isolated. Several viruses including influenza A, rhinovirus, and non-MERS coronaviruses had low carriage rates among arriving pilgrims and a statistically significant increase in their carriage rate was observed, following participation in the Hajj. Further research is needed to assess the role of viruses in the pathogenesis of respiratory symptoms and their potential role in the severity of the symptoms.

Summary Respiratory tract infections (RTI) are the most common infections transmitted between Hajj pilgrims. The aim of this systematic review was to determine the prevalence of virus carriage potentially responsible for RTI among pilgrims before and after participating in the Hajj. A systematic search for relevant literature was conducted according to Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines. 31 studies were identified. Severe Acute Respiratory Syndrome coronavirus and Middle East Respiratory Syndrome coronavirus (MERS) were never isolated in Hajj pilgrims. The viruses most commonly isolated from symptomatic patients during the Hajj by PCR were rhinovirus (5.9e48.8% prevalence), followed by influenza virus (4.5e13.9%) and non-MERS coronaviruses (2.7e13.2%) with most infections due to coronavirus 229E; other viruses were less frequently isolated. Several viruses including influenza A, rhinovirus, and non-MERS coronaviruses had low carriage rates among arriving pilgrims and a statistically significant increase in their carriage rate was observed, following participation in the Hajj. Further research is needed to assess the role of viruses in the pathogenesis of respiratory symptoms and their potential role in the severity of the symptoms. ª 2016 Elsevier Ltd. All rights reserved.

Every year, more than 10 million pilgrims from over 180 countries arrive in the Kingdom of Saudi Arabia for a pilgrimage to the holy places of Islam [1] . Around 2e3 million Muslims will perform the Hajj at fixed dates over a 6-day period, while the remaining pilgrims will participate in the Umrah, a shorter pilgrimage that can be done at anytime, although most pilgrims perform this activity during the month of Ramadan. The number of pilgrims undertaking the Hajj has increased by a factor 5 from 1920 to 2012 [1] .

The crowded conditions within a confined area and the close contact with others, particularly during the circumambulation of the Kaaba (Tawaf) inside the Grand Mosque in Makkah, lead to increased risk of pilgrims acquiring and spreading infectious diseases [2] . Respiratory tract infections are the most common infections transmitted between pilgrims, and the majority of pilgrims will develop one form of respiratory tract infection or another during their few weeks in Makkah and Madinah [3, 4] . Cough attack rates over 90% have been recorded among pilgrims from various nationalities [5e7]. Among ill pilgrims consulting at Mina primary health structures, 60% present with respiratory tract infection symptoms [8] . Respiratory tract infection is the leading cause of hospitalization in Saudi Hospitals during the Hajj, with a level as high as 57% in one study [9] . Pneumonia accounts for 20e40% of hospitalization in tertiary care structures [9, 10] and for 55e67% of admissions to intensive care units [11, 12] .

Several transmissible viral respiratory infections have been reported to cause upper respiratory tract infections in Hajj pilgrims [3, 13] . Published studies over recent years and including large panels of viruses tested by multiplex PCR provided new insights in the epidemiology of viral respiratory tract infections at the Hajj.

The objective of this paper is to summarize available data about the prevalence of virus carriage potentially responsible for respiratory tract infections among Hajj pilgrims as well as data about carriage acquisition and circulation of respiratory viruses among pilgrims before and after participating in the Hajj.

The systematic review was conducted according to Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines (http://www.prismastatement.org). The following databases were searched, attempting to identify all relevant studies published from January 1980 to April 2015: Scopus (http://www.scopus. com/), PubMed (http://www.ncbi.nlm.nih.gov/pubmed) and Google Scholar (http://scholar.google.fr/). The latest search was conducted on May 1, 2015. The topic search terms used for searching the databases were as follows: #1: "hadj" OR "hajj" OR "pilgrimage"; #2: "respiratory"; #3: "viral" OR "virus" OR "viruses" OR "pathogens" OR "infection" OR "infections"; #4: #1 AND #2 AND #3.

The Saudi Epidemiological Bulletin (http://seb. drupalgardens.com/) issues were systematically reviewed for relevant papers.

Only articles published in English were included based on common language charred by the authors.

For inclusion the article needed to fulfill the following criteria [1] : It needed to be related to the Hajj pilgrimage [2] , report on screening in asymptomatic or symptomatic participants [3] , present virological data and [4] report on virus carriage prevalence. We excluded case reports. The reference lists of reviews were screened to identify studies possibly missed by the search.

Two researchers (P.G. and S.B.) independently performed the screening of the abstracts. Any discordant result was discussed in consensus meetings. After screening the abstracts, the full text of the articles was assessed for eligibility by the same two researchers and selected or rejected for inclusion in the systematic review.

The following data (if available) were extracted from each article: year, study design, study population, type of sample, microbiological methods, pathogens investigated and their prevalence, influenza vaccination rates and its effect on influenza virus carriage prevalence. We made a distinction between surveys conducted among symptomatic patients only, most of whom were included when consulting for respiratory symptoms at medical structures or were included in other settings on the basis of suffering respiratory symptoms at the time of sampling and, broader surveys conducted among cohorts of pilgrims independently of their clinical status (i.e. symptomatic and asymptomatic individuals). In this latter group sampling in pilgrims presenting respiratory symptoms was not necessarily done at the time of symptoms.

As a result of the design of the studies (cross-sectional studies and cohort studies) and the heterogeneity in patient populations and diagnosis methods, a formal meta-analysis was not possible. Therefore, the study results were summarized to describe the main outcomes of interest (i.e. the prevalence of respiratory viruses before and/or after participation to the Hajj). If possible, percentages not presented in the articles were calculated from the available data.

A total of 95 articles were found from the search, eleven additional references were found through manual search. After screening of titles and summaries, 32 articles were selected for full-text assessment [6,7,14e43] . All 32 articles were included in the qualitative synthesis of the systematic review (Fig. 1 [20, 23] and one included additional pilgrims recruited at two airports [21] , -Three cross-sectional surveys conducted at Mina encampment (n Z 2) or during the stay in Saudi Arabia and upon returning to the UK (n Z 1) [22, 27, 28] . -Three airport cross-sectional surveys conducted at a Saudi airport among arriving pilgrims (n Z 1) or at an Iranian airport among returning pilgrims (n Z 2)

[24e26]. -One national study conducted in hospitals and medical centers in Austria among returning pilgrims [30] .

Most studies were conducted among mixed populations of pilgrims with different nationalities although some countries were predominant in several studies [14e18, 21, 26, 28, 29] . Some studies were conducted among specific populations including Iranian, British, Australian and Austrian pilgrims [19,20,22e25,27,30] .

Types of samples included were throat swabs, nasal swabs, naso-pharyngeal swabs, sputum, broncho-alveolar and naso-pharyngeal aspirates, gargled pharyngeal secretions and serum.

Early studies were based on cell culture/cytopathic effect and staining using virus-specific monoclonal antibodies or rapid tests for antigen detection (respiratory samples) and ELISA (serum samples) [14e17, 19,20,22e25] , while most recent studies used PCR (respiratory samples), [20,22e25,27e30 ].

Prevalence of influenza viruses was investigated in all 16 studies. Two distinct methods of detection were used in some studies, showing a higher sensitivity of ELISA compared to cell culture and of PCR compared to antigen detection and cell culture. When considering the results from the most sensitive methods in each study, the prevalence of influenza viruses ranged 4.5e15.8% (with the exception of one study involving 7 patients only, where it was 71.4% [30] ) with prevalence of influenza A ranging 0.6e15.8% and prevalence of influenza B ranging 0e11.5% (with the exception of one study involving 7 patients only, where it was 28.6% for influenza A and 42.9% for influenza B [30] ).

Selected analysis of a subset of seven recent studies with similar design using PCR in nasal and or throat swabs from patients suffering ILI or other upper respiratory tract Evidence of pulmonary consolidation on physical examination and radiograph. c Acute episode associated with respiratory symptoms and radiological evidence of airspace disease of less than 4 weeks' duration. d Fever and at least two of the following: headaches, myalgia, cough, sore throat or coryza. e Sore throat or fever 38.3 C, and cough, headache, runny nose, sneezing, or myalgia. f Fever of at least 38 C, started within 72 h of presentation; along with history of cough and/or sore throat. g Common cold defined by sore throat, rhinitis, fever, ILI defined by fever >38.5 C, myalgia, rhinitis and cough, sinubronchitis defined by headaches, purulent postnasal discharge or purulent sputum, cough and fever and pneumonia defined on radiographic findings. h Mainly Indian pilgrims. i Cough, sore throat, rhinorrhea and fever. j Cough, sore throat, rhinorrhea and fever within one week of the onset. k Cough, sore throat, rhinorrhea and fever. l Two of the following conditions: fever, cough, sore throat, congestion, and sinus pain within the past 3 weeks during the Hajj. m Cough, sore throat and fever. n Mainly from Indonesia, Turkey and Pakistan. o Fever and/or headaches and/or myalgia and at least of the following symptoms: runny nose, sneezing, sore throat, cough with or without sputum, difficulty of breathing.

p Subjective (or proven) fever plus one respiratory symptom (e.g. dry or productive cough, runny nose, sore throat, shortness of breath) for 3 days or less. q Mainly from Saudi Arabia. r Subjective (or proven) fever and at least one respiratory symptom such as cough, sore throat and rhinorrhea. s Mainly from Asia. t Fever and/or respiratory symptoms.

infection symptoms showed prevalence of influenza virus ranging 4.5e13.9%, prevalence of influenza A ranging 4.5e10.4% and prevalence of influenza B ranging 2.3e7.3% [20,22e25,27,28] . A PCR study of sputum from patients suffering bilateral pneumonia showed 15.8% prevalence of influenza viruses (all influenza A) [29] . In one additional small survey conducted among seven Austrian patients, two were infected with influenza A and three with influenza B [30] . Vaccination rates against influenza were documented in 10 studies ranging from 0 to 100%. Effect of vaccination on influenza detection prevalence was investigated in 6 studies and no statistically significant effect was observed with the following results: 7.7% in vaccinated pilgrims vs. 14 

Parainfluenza prevalence was investigated in nine studies using various methods of detection, four of which used PCR [14,15,17,19,23,24,27e29] . The prevalence of parainfluenza viruses ranged 0e7.9% with prevalence of parainfluenza 1 ranging 0e5.5%, that parainfluenza 2 ranging 0e1.7% and that of parainfluenza 3 ranging 0e2.6%. Parainfluenza 4 was investigated in one PCR-based study and was not detected.

Respiratory syncytial virus prevalence was investigated in nine studies [14, 15, 17, 19, 20, 23, 24, 26, 29] , four of which included PCR detection [20, 23, 24, 29] . The prevalence of respiratory syncitial virus detection ranged 0e4.5% overall and 0.4e4.5% in PCR-based studies.

Metapneumovirus was investigated in one PCR-based study and was not detected [29] .

Rhinovirus prevalence was investigated in six studies [23,24,27e30 ] all using PCR detection, in nasal and or throat swabs from patients suffering ILI or other upper respiratory tract infection symptoms in four studies, and in sputum from patients suffering bilateral pneumonia in one study. The prevalence of rhinovirus detection ranged 5.9e48.8%.

Adenovirus prevalence was investigated in seven studies [14, 15, 17, 19, 24, 28, 29] , three of which included PCR detection [24, 28, 29] . The prevalence of adenovirus detection ranged 0e36.2% overall and 0e5.5% in PCR-based studies.

Enterovirus prevalence was investigated in four studies [17, 24, 27, 29] , three of which included PCR detection [24, 27, 29] . The prevalence of enterovirus detection ranged 0e2.5%.

Coronaviruses prevalence was investigated in two PCRbased studies [28, 29] , with 2.7% and 13.2% prevalence. Only coronaviruses 229E and OC43 were detected.

Co-infection by more than 1 virus were documented in 8 studies [15,16,23,24,26e30 ] and ranged 0e28.9%. Bacterial infections were documented in 5 studies [14, 15, 19, 26, 29] , however, surinfection of viral infections by bacteria wad documented in two studies only its prevalence was 0 [15] and 44.7% [29] .

See Studies were conducted among mixed population of pilgrims from different nationalities [35, 37, 41, 43] or among specific populations including Egyptian, Iranian, British, French and Ghanaian pilgrims [6,7,31e34,37e40,42] . Type of samples included throat swabs, nasal swabs, nasopharyngeal swabs, and serum. Two studies were based on ELISA seroconversion [31, 32] , while other studies used PCR (respiratory samples) [6,7,33e43].

Prevalence of influenza viruses was investigated in 11 studies [6,7,31e40,42,43] . A 38.3% seroconversion rate was observed in one UK survey following participation in the Hajj (mostly due to influenza H3N2) while a 3.6% seroconversion rate was observed in one Iranian survey [34] . Differences in influenza vaccination coverage may have accounted for this discrepancy with 26.1% among UK pilgrims compared to 84.0% among Iranian pilgrims. The prevalence by PCR studies among arriving pilgrims ranged 0.6e7.5% and 0.5e7.8% after the Hajj, with most cases being influenza A. The prevalence of influenza after the Hajj was statistically higher than before the Hajj in two studies [39, 43] . Vaccination rates against influenza in these PCR-based studies ranged from 21.9 to 98.1%. Effect of vaccination on influenza detection prevalence was investigated in 5 studies and no statistically significant effect was observed with the following results: 30 [35] , no significant differences were observed in two study where details were not provided [38, 43] . Acquisition rate calculated from the largest paired cohort survey was 1.4% for influenza A/H1N1 and 1.9% for influenza A/H3N2 with an overall low 21.9% vaccination rate [43] . The dynamic of influenza carriage was well addressed in one paired cohort survey with 0.6% influenza carriage prevalence in arriving pilgrims (none symptomatic), 10.0% carriage during the Hajj among symptomatic pilgrims and 1.3% carriage after the Hajj (90.4% symptomatic during the Hajj prior sampling, 2.0% still symptomatic at sampling) [38] . In the one study conducted among health care workers, all samples were negative for influenza.

Parainfluenza prevalence was investigated in five studies using PCR [6,7,35,36,38e40,43] . The prevalence of parainfluenza virus detection among pilgrims ranged 0e3.3% before the Hajj and 0.1e0.8% after the Hajj. Acquisition rate calculated from the largest paired cohort survey was 0.1% [43] . In the one study conducted among health care workers, all samples were negative for parainfluenza [36] .

Respiratory syncytial virus prevalence was investigated in seven studies [6, 7, 32, 35, 38, 40, 42, 43] six of which including PCR detection [5,6,35,36,38e40,42,43] . The prevalence of respiratory virus detection among pilgrims ranged 0e0.6% before the Hajj and 0e5.1% after the Hajj in PCR-based studies. Acquisition rate calculated from the largest paired cohort survey was 0.7% [43] . In the one study conducted among health care worker, all samples were negative for respiratory syncytial virus [36] .

Metapneumovirus was investigated in five PCR-based study, [6,7,35,36,38e40,43] . The prevalence of respiratory virus detection among pilgrims ranged 0e1.7% before the Hajj and 0e0.8% after the Hajj. Acquisition rate calculated from the largest paired cohort survey was 0.1% [43] . In the one study conducted among health care worker, all samples were negative for metapneumovirus [36] .

Rhinovirus prevalence was investigated in six PCR studies [6,7,35,36,38e40,42,43] . The prevalence of rhinovirus detection among pilgrims ranged 2.2e14.0% before the Hajj and 8.4e34.4% after the Hajj. The prevalence of rhinovirus after the Hajj was statistically higher than before the Hajj in two studies [38, 43] . Acquisition rate calculated from the largest paired cohort survey was 34.1% [43] . The dynamic of rhinovirus carriage was well addressed in one paired cohort survey with 3.0% rhinovirus carriage prevalence in arriving pilgrims (none symptomatic), 27.1% carriage during the Hajj among symptomatic pilgrims and 8.4% carriage after the Hajj (90.4% symptomatic during the Hajj prior sampling, 2.0% still symptomatic at sampling) [38] . In the one study conducted among health care workers, 7.5% of individuals tested positive before the Hajj and 11.7% after the Hajj [36] .

Adenovirus prevalence was investigated in six studies [6,7,32,35,36,38e40,43] , five of which included PCR detection [6,7,35,36,38e40,43] . The prevalence of respiratory virus detection among pilgrims ranged 0e1.7% before the Hajj and 0e0.6% after the Hajj in PCR-based studies. Acquisition rate calculated from the largest paired cohort survey was 0.6% [43] . In the one study conducted among health care worker, all samples resulted negative for adenovirus [36] .

Enterovirus prevalence was investigated in three PCR studies [6,7,38e40,43] . The prevalence of enterovirus detection among pilgrims ranged 0.6e0.8% before the Hajj and 0.4e2.3% after the Hajj. Acquisition rate calculated from the largest paired cohort survey was 0.4% [43] .

Coronaviruses prevalence was investigated in seven PCR studies [6,7,35,36,38e43] . The prevalence of noncoronavirus detection among pilgrims ranged 0.2e1.7% before the Hajj and 1.0e20.9% after the Hajj, with most infections due to coronavirus 229-E. The prevalence of non MERS-coronaviruses after the hajj was statistically higher than before the Hajj in two studies [39, 43] . Acquisition rate calculated from the largest paired cohort survey was 4.9% [43] . In the one study conducted among health care worker, 0% individuals tested positive before the Hajj and 0.8% after the Hajj [36] . MERS coronavirus was never isolated.

Bocavirus was investigated in four PCR studies and detected among arriving pilgrims only in a few cases [7,35,36,38e40,43] .

Cytomegalovirus and parechovirus were investigated in two PCR studies and never detected [7,38e40,43 ].

The viruses primarily associated with upper respiratory tract infections commonly include rhinoviruses, enteroviruses, adenoviruses, parainfluenza viruses, influenza viruses, respiratory syncytial viruses and coronaviruses 229E and OC43. Non-respiratory viruses including measles virus, herpes simplex virus 1, varicella zoster virus and cytomegalovirus may occasionally be responsible for respiratory involvement. In recent years new human respiratory viruses have been reported including human metapneumovirus, bocavirus, new human coronaviruses including Severe Acute Respiratory Syndrome coronavirus, human coronavirus NL63, and HKU1 and Middle East Respiratory Syndrome coronavirus [44] and parechovirus [45] . New variants of viruses have also emerged including human adenovirus-14, variant swine-like influenza H3N2, avian influenza H7N9 and H10N8 [46] .

In this review we show that the viruses most commonly isolated from symptomatic patients during the Hajj are rhinovirus (5.9e48.8% prevalence), followed by influenza virus (4.5e13.9%) and coronaviruses (2.7e13.2%) with most infections due to coronavirus 229E; other viruses are less frequently isolated. We also show that these viruses have low carriage rates among arriving pilgrims while an increase is observed in the carriage rate following participation in the Hajj. This increase was statistically significant for several viruses in certain studies including influenza AH1N1 [43] , influenza AH3N2 [39] , rhinovirus [38, 43] , coronavirus 229E [39, 43] , coronavirus HKU1 and OC43 [43] . These cosmopolitan viruses are probably easily transmitted between pilgrims given the crowded conditions at the Holy Mosque and other religious sites around Mecca. The Holy Mosque's total capacity is 2 million and the average crowd density is at least four people per square meter and can reach levels of 6e8 people per square meter as people get closer to the Kaaba [47] . It is also likely that housing conditions at Mina encampment in tents of 50e100 pilgrims play a role in the transmission of respiratory viruses [27] . Overall, these results show an acquisition of viruses following the Hajj with high carriage prevalence among departing pilgrims. This suggests that an international mass gathering such as the Hajj may contribute to the globalization of common respiratory pathogens. Of note, emerging pathogens like SARS coronavirus and MERS coronavirus were not isolated from Hajj pilgrims until now, although rare cases of MERS have been reported among Umrah pilgrims [48] . Mixed viral infections were relatively rare; however it depends mostly on the number of viruses investigated. The proportion of mixed viral infections reached 10.4% in a study where 21 different viruses were tested [43] .

Since therapeutic options are limited in the context of respiratory viral infections [49] prevention is of paramount importance. Influenza vaccination is recommended to Hajj pilgrims by the Saudi Arabian Ministry of Health [50] . In this review, no significant effect of influenza vaccination was observed on the carriage of influenza virus in individual studies and the uptake of seasonal influenza vaccine was very variable. The apparent lake of efficacy of vaccination against influenza in the context of the Hajj may result of a mismatch of circulating strains with vaccine strains [51] . The effectiveness of influenza vaccine was assessed in pooled metadata from six studies included in the present review [16, 20, 21, 23, 30, 36] by other authors [51] ; influenza was significantly effective against laboratory-confirmed influenza (risk ratio 0.56; 95% CI 0.41e0.75; p < 0.001). However a definitive conclusion should be not drawn from this analysis [51] . Non-pharmaceutical interventions, such as hand hygiene, wearing a face mask, cough etiquette, social distancing, and contact avoidance can be effective in reducing the spread of respiratory viruses from person to person [52] and are therefore recommended to Hajj pilgrims by national public health agencies [50] . However, evidence of their effectiveness at the Hajj are limited and inconclusive and prospective cohort studies are required to confirm whether or not such non-pharmaceutical interventions are relevant for interrupting or reducing the spread of respiratory viruses during the annual Hajj pilgrimage [53] . A cluster-randomized controlled trial is being conducted to provide valuable evidence on the efficacy of facemasks in preventing viral respiratory tract infections during the Hajj [54] .

Our review was limited to papers written in English which may have been a source of bias. There was an in important heterogeneity in studies in regards of study populations, clinical criteria for respiratory infections and diagnostic methods applied. The design of surveys conducted so far among pilgrims does not allow us to ascertain the role of viruses in the pathogenesis of respiratory symptoms and their potential role in the severity of the symptoms. The frequency of secondary bacterial infection could not be evaluated from the available studies since most surveys only addressed virus carriage and the number of viruses investigated was limited in many studies. The role of co-infection with viruses and bacteria warrants further investigation using ideally a paired cohort-survey design, allowing assessment of acquisition rate of a large panel of pathogens with sequential sampling and careful recording of clinical data associated with the highly common "Hajj cough" [55] .

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No competing interest.

No funding source.