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- Copyright: © 2021 Tamarozzi et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Data Availability: All relevant data are within the manuscript and its Supporting Information files. Funding: This work was partly supported by the Italian Ministry of Health “Fondi Ricerca Corrente" - L3P2 to IRCCS Sacro Cuore Don Calabria Hospital. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. Competing interests: The authors have declared that no competing interests exist.
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Abstract
OPENACCESS Citation: Tamarozzi F, Silva R, Fittipaldo VA, Background Buonfrate D, Gottstein B, Siles-Lucas M (2021) The diagnosis of cystic echinococcosis (CE) is primarily based on imaging, while serology Serology for the diagnosis of human hepatic cystic echinococcosis and its relation with cyst staging: A should be applied when imaging is inconclusive. CE cyst stage has been reported among systematic review of the literature with meta- the most important factors influencing the outcome of serodiagnosis. We performed a sys- analysis. PLoS Negl Trop Dis 15(4): e0009370. tematic review and meta-analysis of the relation between cyst stage of hepatic CE and diag- https://doi.org/10.1371/journal.pntd.0009370 nostic sensitivity of serological tests, to evaluate whether their relation is a consistent finding Editor: Marı´a-Gloria Basa ´ñez, Imperial College and provide guidance for the interpretation of results of serological tests. London, Faculty of Medicine, School of Public Health, UNITED KINGDOM Methodology/Principal findings Received: July 13, 2020 st MEDLINE, EMBASE, CENTRAL, and Lilacs databases were searched on December 1 Accepted: April 7, 2021 2019. Original studies published after 2003 (year of publication of the CE cyst classification), Published: April 28, 2021 reporting sensitivity of serological tests applied to the diagnosis of human hepatic CE, as Copyright:© 2021 Tamarozzi et al. This is an open diagnosed and staged by imaging, were included. The quality of studies was assessed access article distributed under the terms of the using the Newcastle-Ottawa Scale. Data from 14 studies were included in the meta-analy- Creative Commons Attribution License, which permits unrestricted use, distribution, and sis. Summary estimates of sensitivities and 95% confidence intervals were obtained using reproduction in any medium, provided the original random effects meta-analysis. Overall, test sensitivity was highest in the presence of CE2 author and source are credited. and CE3 (CE3a and/or CE3b), and lowest in the presence of CE5 and CE4 cysts. ELISA, Data Availability Statement: All relevant data are ICT and WB showed the highest sensitivities, while IHA performed worst. within the manuscript and its Supporting Information files. Conclusions/Significance Funding: This work was partly supported by the Italian Ministry of Health “Fondi Ricerca Corrente" - The results of our study confirm the presence of a clear and consistent relation between L3P2 to IRCCS Sacro Cuore Don Calabria Hospital. cyst stage and serological tests results. Limitations of evidence included the heterogeneity The funders had no role in study design, data of the antigenic preparations used, which prevented to determine whether the relation collection and analysis, decision to publish, or preparation of the manuscript. between cyst stage and sensitivity was influenced by the type of antigenic preparation, the PLOS Neglected Tropical Diseases | https://doi.org/10.1371/journal.pntd.0009370 April 28, 2021 1 / 13 PLOS NEGLECTED TROPICAL DISEASES Serology for cystic echinococcosis and relation to cyst staging Competing interests: The authors have declared paucity of studies testing the same panel of sera with different assays, and the lack of stud- that no competing interests exist. ies assessing the performance of the same assay in both field and hospital-based settings. Our results indicate the absolute need to consider cyst staging when evaluating serological results of patients with hepatic CE. Author summary Cystic echinococcosis is a neglected zoonosis induced by the development of parasitic cysts in intermediate hosts, including humans, mostly in the liver. The diagnosis of CE is based on imaging. As CE cysts may assume different aspects (stages), the range of differ- ential diagnoses is broad, from harmless simple cysts to neoplasms. Serological assays for the detection of serum antibodies are applied when imaging is inconclusive, but their per- formance depend on a number of factors, among which cyst stage has been reported as important. If this was a robust finding, it would be absolutely required to interpret sero- logical findings in the light of CE cyst staging. The results of our systematic review and meta-analysis of the relation between cyst stage of hepatic CE and diagnostic sensitivity of serological tests confirmed that such relation is clear and consistent, and indicate the absolute need to consider cyst staging when evaluating serology results of patients with hepatic CE. Introduction Cystic echinococcosis (CE) is a neglected zoonosis caused by infection with the larval stage of the cestode Echinococcus granulosus sensu lato [1]. The parasite is transmitted between canid definitive hosts and livestock, mainly sheep, as intermediate hosts [2]. Humans are dead-end intermediate hosts, in whom the larval stage develops as fluid-filled cysts mainly in liver and lungs [3]. It has been estimated that around 1 million Disability-Adjusted Life Years are lost due to human CE [4], but the prevalence and number of infected people, on which to base dis- ease burden calculations, are difficult to quantify. Hampering the implementation of compre- hensive population-wide studies on CE are in part the peculiar socio-epidemiological features of the infection [5], and in part the fact that current diagnostic tools are not suitable for an effi- cient mapping of infection distribution at population level [6]. This, however, is one of the crit- ical actions indicated by the WHO for echinococcosis in the recently issued “2021–2030 road map for neglected tropical diseases” [7]. In the same document, to “define target product profile and develop optimal diagnostic for humans” is indicated as a critical action required, in order to reach disease-specific targets. Furthermore, the diagnosis of CE is often difficult also in the clinical setting [3,8–10]. The primary diagnosis of CE is based on imaging, while serology for the detection of circu- lating serum antibodies is a complementary tool [8]; at present no circulating antigen-detec- tion test is commercially available. Ultrasonography (US) is the reference technique for the diagnosis and characterization of CE cysts in US-accessible organs [8,11], especially the liver, which is the affected organ in >70% of cases. Along their evolution, CE cysts change in struc- ture and appearance on imaging, and these stages are currently classified by the WHO Infor- mal Working Group on Echinococcosis (WHO-IWGE) classification [8,12]. This classification is also important to guide the clinical management of infected patients [8,13]. The availability of portable, relatively cheap US machines has offered the possibility to apply this technique as PLOS Neglected Tropical Diseases | https://doi.org/10.1371/journal.pntd.0009370 April 28, 2021 2 / 13 PLOS NEGLECTED TROPICAL DISEASES Serology for cystic echinococcosis and relation to cyst staging a point-of-care exam also in remote rural areas. However, the lack of instruments and expertise is still an issue in many endemic countries. Clearly, a robust and accurate serological assay, e.g. in the format of a rapid diagnostic test, would allow more easily the implementation of population-based epidemiological studies. Unfortunately, currently available serodiagnostic tests for CE are not standardized and their performances are not suitable for application in population-based studies [6,9]. Furthermore, even in the clinical setting, serology should be applied only after a lesion suspect of CE is visu- alized on imaging, and its results should be interpreted with caution [8,10]. Test-related, set- ting-related (prevalence/pre-test probability), and cyst-related factors influence the outcome and interpretation of serodiagnostic tests for CE. Among the latter, several studies found that sensitivity was higher in cases of hepatic as compared to extra-hepatic localization, in case of multiple and large cysts, and in case of a recent pharmacological and/or interventional treat- ment; but the most consistent factor associated with serological results for hepatic CE has been reported to be the cyst stage [14,15]. In this light, the distribution of cyst stages in a population, as well as the definition of cyst stage for the differential diagnosis of evocative lesions at an individual patient’s level is crucial for the interpretation of serological results. On the other hand, knowing how serological tests perform in relation to different cyst stages is crucial, but seldom investigated and applied. We performed a systematic review and meta-analysis of the relation between cyst stage of liver CE and diagnostic sensitivity of serological tests, to provide an overall guidance for the interpretation of results of serological tests for the diagnosis of hepatic CE. Methods Search strategy The review protocol was submitted to PROSPERO international prospective register of sys- tematic reviews (Registration Number CRD420201656630). MEDLINE (PubMed), EMBASE, st CENTRAL (Cochrane Library), and Lilacs (Bireme) databases were searched on December 1 2019. The databases were searched using database-specific strings based on the following key- words: Echinococcus granulosus, Echinococcus infection, echinococcosis, cystic echinococcosis, hydatidosis, hydatid cyst, hydatid disease, serology, serological test, serological investigations, serodiagnosis. The detailed strategy is available in S1 Text. No language restriction was applied. Merged search results were screened for potentially relevant publication, based on title and abstract, after removal of duplicates. The reference list of all potentially eligible studies and of the review papers were searched for other potentially eligible studies. Eligible papers were restricted to those published from 2003 onwards, i.e. following the publication of the first WHO-IWGE ultrasound cyst classification. The work is presented according to Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) recommendations [16] (S1 PRISMA Checklist). Inclusion/exclusion criteria, study selection, and data extraction Original studies reporting sensitivity of serological tests applied to the diagnosis of human CE were included in the review. No restriction was applied regarding publication type (research paper or conference report) or setting (field or clinical setting). Two authors (FT and MSL) independently selected the studies for inclusion in the systematic review, first on the basis of title and abstract, and then of the full text, if retrieved. The selection procedure was carried out using EndNote X7.7 software (Thomson Reuters, Toronto, Ontario, Canada). Inclusion criteria were: i) presenting original data; ii) cross-sectional, cohort, and case-con- trol diagnostic accuracy study type (i.e. case reports were excluded); iii) including cases with at PLOS Neglected Tropical Diseases | https://doi.org/10.1371/journal.pntd.0009370 April 28, 2021 3 / 13 PLOS NEGLECTED TROPICAL DISEASES Serology for cystic echinococcosis and relation to cyst staging least one hepatic CE cyst assessed by imaging and staged (or stageable) according to the WHO-IWGE ultrasound classification (CE1, CE2, CE3, CE3a CE3b, CE4, CE5 [8]); v) report- ing results (positive/negative) and characteristics of anti-echinococcal antibody assay(s). Potentially eligible studies were excluded if: i) full text and abstract were both unavailable or only abstract was available but did not convey the needed data or data were not extractable for analysis; ii) diagnosis was not based on imaging; iii) staging was not performed/not reported and/or staging could not be defined based on reported information or images; iv) information regarding the serological assay were not provided or the diagnostic test was not eligible; v) CE cysts localization was extra-hepatic or not specified; vi) study duplication. The same two authors independently performed the data extraction using a pre-designed data extraction form (Excel file). Data extracted were: i) study type; ii) treatment status of the tested patients; iii) number of patients tested per each CE cyst stage; iv) number of positive individuals per each CE cyst stage; v) serological test(s) characteristics (test format, antigenic preparation). At all review steps, a third author (DB) was in charge of facilitating discussion and reaching consensus in case of disagreement between the reviewers. Quality assessment An adapted version of the Newcastle-Ottawa Scale (NOS) for assessing the quality of observa- tional studies was applied [17]. The quality of each included paper was assessed in three domains (selection, comparability, outcome). S2 Text summarizes the items included in each domain and the characteristics for the attribution of the “stars” (scoring system). Studies scor- ing 1 to 3 stars were ranked as “low quality”; 4 or 5 stars as “high quality”, and 6 or 7 stars as “very high quality”. Data analysis Collected data from included studies were aggregated, stratified by type of test or setting, to obtain summary estimates of sensitivities and 95% confidence intervals (CI) using random effects meta-analysis. The analysis was carried out both including all studies and excluding low-quality studies. DerSimonian and Laird method [18] was used for parameters estimations with the estimate of heterogeneity, measured by the I statistic, obtained from the Mantel- Haenszel model [19]. Meta-analyses were performed using metan package from STATA soft- ware version 14 (StataCorp. 2015. Stata Statistical Software: Release 14. College Station, TX: StataCorp LP.). SAS software version 9.4 (SAS Institute, Inc., Cary, NC, USA) and GraphPad- Prism8 (GraphPad Software, San Diego, CA, USA) were used for forest plots and bar graphs respectively. Statistical significance level was fixed at 0.05. Results Bibliographic search The literature search and selection of studies to be included are schematized in Fig 1. The data- bases search retrieved a total of 4261 records, leaving 3387 records after duplicates were removed. A total of 1531 records published after year 2003 were potentially eligible based on title and abstract. Upon evaluation of the full text, 14 articles were selected from which data were extracted (Table 1). The quality assessment of each item included in the three NOS domains is shown in S1 Table. The selected studies were divided into three groups, depending on the setting: field studies for CE cases detected by imaging in population survey campaigns, hospital studies for CE PLOS Neglected Tropical Diseases | https://doi.org/10.1371/journal.pntd.0009370 April 28, 2021 4 / 13 PLOS NEGLECTED TROPICAL DISEASES Serology for cystic echinococcosis and relation to cyst staging Fig 1. Flow diagram of the literature search. https://doi.org/10.1371/journal.pntd.0009370.g001 PLOS Neglected Tropical Diseases | https://doi.org/10.1371/journal.pntd.0009370 April 28, 2021 5 / 13 PLOS NEGLECTED TROPICAL DISEASES Serology for cystic echinococcosis and relation to cyst staging Table 1. Main characteristics of the papers included in the meta-analysis. Publication Setting Study design Data analysis only of untreated patients Evaluated serology assay format and Quality§ possible number Tiaoying, L. 2005 [21] Field Cross-sectional Yes 1 ELISA Low Yang, Y. 2007 [22] Field Cross-sectional Yes 1 ELISA Low Li, T. 2011 [23] Field Cohort Yes 1 ELISA High Schweiger, A. 2012 [24] Laboratory Diagnostic No 1 ELISA, 1 EITB Low accuracy Hernandez-Gonzalez, A. 2012 Laboratory Diagnostic No 3 ELISA, 1 IHA High [25] accuracy Tamarozzi, F. 2013 [26] Laboratory Diagnostic Yes 2 ELISA High accuracy Piccoli, L. 2014 [27] Hospital Cohort Yes 1 ELISA High Lissandrin, R. 2016 [15] Laboratory Diagnostic Yes 1 ELISA Very accuracy high Tamarozzi, F. 2016 [28] Laboratory Diagnostic No 1 ELISA, 3 ICT Very accuracy high Vola, A. 2018 [20] Laboratory Diagnostic Yes 2 ICT High accuracy Hernandez-Gonzalez, A. 2018 Laboratory Diagnostic No 3 ELISA, 2 ICT High [14] accuracy Pagnozzi, D. 2018 [29] Laboratory Diagnostic No 2 ELISA Low accuracy Han, X. 2019 [30] Field Cross-sectional Yes 5 ELISA Very high Vola, A. 2019 [10] Hospital Cohort Yes 1 ELISA, 1 IHA, 1 WB Very high ELISA = enzyme-linked immunosorbent assay; EITB = enzyme-linked immunoelectrotransfer blot; IHA = indirect hemagglutination; ICT = immunochromatographic test. WB = western blot. EITB and WB are basically identical methods and are analyzed together. §Based on an adapted version of the Newcastle-Ottawa Scale for assessing the quality of observational studies (S2 Text and S1 PRISMA Checklist). https://doi.org/10.1371/journal.pntd.0009370.t001 cases detected by imaging in the clinical setting and analysed as cohorts, and laboratory studies for CE cases detected in clinical setting and including a control group for test accuracy evalua- tion. The majority (11/14) of the evaluated studies included seroassays detecting total IgG, in one case (Vola et al 2018 [20]) the study included two serological tests, one detecting IgG and one detecting IgG4, and in two studies (Tiaoying et al 2005; Yang et al 2007 [21,22]) the anti- body isotype detected was not specified. The antigenic preparations used in the seroassays included hydatid cyst fluid, purified native antigens, recombinant antigens, synthetic antigens, and their variable combinations. The extraction data sheet is available as S2 Table. Results of analysis concerning only untreated cysts, in all settings First, we analyzed the sensitivity of diagnostic tests applied to samples of patients untreated for CE, irrespective of the study setting. In cases where samples were tested using more than one assay of the same format, the assay with the best sensitivity was included in the meta-analysis. Fig 2 summarizes the estimated sensitivity of ELISA, ICT, IHA, and WB assays by cyst stage. The Forest plots of the analyses are presented in S1 Fig. Overall, and granted the higher num- ber of studies using ELISA as compared to other assay formats, tests sensitivity was highest in the presence of CE2 and CE3 (CE3a and/or CE3b), and lowest in the presence of CE5 and CE4 cysts. This trend was maintained when the analysis of ELISA was carried out without low PLOS Neglected Tropical Diseases | https://doi.org/10.1371/journal.pntd.0009370 April 28, 2021 6 / 13 PLOS NEGLECTED TROPICAL DISEASES Serology for cystic echinococcosis and relation to cyst staging Fig 2. Sensitivity (%) of different serology tests for the diagnosis of untreated hepatic CE cysts according to cyst stage. “CE3 all” = data from CE3a + CE3b + CE3 not divided into CE3a and CE3b. “CE inactive” = data from CE4 + CE5 + CE4 and CE5 not divided into CE4 and CE5. LQS = Low Quality Studies. Data from papers referring to the field or to the hospital/lab setting were included. In case more than one assay per type was investigated in the same paper (e.g. more than one ELISA test), the one with the best sensitivity was used for the meta-analysis. Error bars represent 95% CI. https://doi.org/10.1371/journal.pntd.0009370.g002 quality studies. Among tests, ELISA and ICT showed the highest sensitivities, while IHA per- formed worst. The summary of results for ELISA assays is shown in Table 2. Analysis of ELISA results regarding untreated cysts, per study setting The setting in which the evaluation of serological tests is carried out may influence test results as it may favor the inclusion of patients with particular characteristics, and in turn influence the probability of a test being seropositive. For example, it is conceivable that untreated patients accessing the hospital setting may be more often symptomatic than subject enrolled in population-based field studies, possibly due to cyst characteristics (e.g. size, loss of integrity of the cyst wall) which in turn influence test performance. We therefore evaluated the sensitivity of ELISAs grouped by study setting (field, laboratory + hospital, laboratory, and hospital). In Table 2. Estimated sensitivity (Se %) with 95%CI of ELISA test with best performance. Cyst Only untreated cysts Treated and untreated cysts stage All settings Field setting Laboratory Laboratory Hospital All settings + hospital setting Se setting Se% (95% setting Se% All studies No low-quality All studies No low-quality All studies No low-quality % (95%CI) CI) (95%CI) Se% (95% studies Se% Se% (95% studies Se% Se% (95% studies Se% CI) (95%CI) CI) (95%CI) CI) (95%CI) CE1 75 (58–92) 64 (36–92) 85 (71–100) 75 (38–100) 50 (23–76) 57 (18–90)^ 40 (5–85)^ 82 (71–92) 79 (64–93) CE2 94 (85–100) 89 (78–100) 95 (74–100) 95 (74–100)^ 83 (67–98) 88 (62–98)^ 70 (35–97)^ 97 (92–100) 94 (88–100) CE3a 97 (85–100) 97 (85–100)˚ - - - - - 99 (94–100) 99 (94–100)˚ CE3b 89 (65–100) 89 (65–100)˚ - - - - - 93 (87–100) 93 (87–100)˚ CE3 91 (82–92) 87 (75–100) 99 (95–100) 100 (88–100)^ 82 (74–90) 82 (71–91)^ 81 (65–92)^ 92 (87–98) 91 (85–98) CE4 57 (34–81) 56 (19–92) 71 (47–96) 91 (71–99)^ 38 (26–50) 40 (25–56)^ 36 (19–56)^ 60 (42–77) 59 (36–82) CE5 56 (24–88) 54 (18–89) 73 (36–100) 83 (62–100) 24 (1–47) 14 (5–29)^ 38 (19–59)^ 53 (30–75) 48 (24–73) Inactive§ 53 (34–72) 51 (29–73) 73 (50–97) 90 (75–99) 34 (25–43) 36 (17–56) 33 (22–43) 53 (38–69) 51 (33–69) CE3 = CE3a+CE3b+CE3 not divided into the two sub-stages. Inactive = CE4+CE5+CE4/5 inactive stages not divided into the two sub-stages. ˚The papers scored as low quality were not investigating this group stage. ^Only one paper included. https://doi.org/10.1371/journal.pntd.0009370.t002 PLOS Neglected Tropical Diseases | https://doi.org/10.1371/journal.pntd.0009370 April 28, 2021 7 / 13 PLOS NEGLECTED TROPICAL DISEASES Serology for cystic echinococcosis and relation to cyst staging Fig 3. Sensitivity (%) of ELISA tests for the diagnosis of untreated hepatic CE cysts according to cyst stage and setting (field vs lab and/or hospital). “CE3 all” = data from CE3a + CE3b + CE3 not divided into CE3a and CE3b. “CE inactive” = data from CE4 + CE5 + CE4 and CE5 not divided into CE4 and CE5. LQS = Low Quality Studies. In case more than one assay per type was investigated in the same paper (e.g. more than one ELISA test), the one with the best sensitivity was used for the meta-analysis. Error bars represent 95% CI. https://doi.org/10.1371/journal.pntd.0009370.g003 cases where samples were tested by using more than one ELISA, the assay with the best sensi- tivity was included in the meta-analysis. Results are shown in Fig 3 and Table 2. The Forest plots of the analyses are presented in S2 Fig. Even divided by setting, sensitivity results mir- rored those of the previous general analysis, with highest sensitivities observed for CE2 and CE3 (CE3a and CE3b) cysts and lowest sensitivities for CE5 cysts. Interestingly, higher sensi- tivities were reported by studies applied in the field compared to the laboratory and/or hospital setting. Analysis of tests results regarding cysts independently of treatment, in all settings Often the putative previous treatment status of a patient is not known, or uncertain. Therefore, we investigated the sensitivity of diagnostic tests independently from the study setting and treatment status of the patients included in the cohorts. Fig 4 summarizes the estimated sensi- tivity of ELISA, ICT, IHA, and WB by cyst stage. In the cases where samples were tested by more than one ELISA, the assay with the best sensitivity was included in the meta-analysis. Fig 4. Sensitivity (%) of ELISA tests for the diagnosis of hepatic CE cysts, irrespective of previous treatment and setting. “CE3 all” = data from CE3a + CE3b + CE3 not divided into CE3a and CE3b. “CE inactive” = data from CE4 + CE5 + CE4 and CE5 not divided into CE4 and CE5. LQS = Low Quality Studies. In case more than one assay per type was investigated in the same paper (e.g. more than one ELISA test), the one with the best sensitivity was used for the meta-analysis. Error bars represent 95% CI. https://doi.org/10.1371/journal.pntd.0009370.g004 PLOS Neglected Tropical Diseases | https://doi.org/10.1371/journal.pntd.0009370 April 28, 2021 8 / 13 PLOS NEGLECTED TROPICAL DISEASES Serology for cystic echinococcosis and relation to cyst staging Fig 5. Sensitivity (%) of different assays using a variety of antigenic preparations, as reported by three example recent studies, showing the same pattern according to cyst stage. https://doi.org/10.1371/journal.pntd.0009370.g005 The Forest plots of the analyses are presented in S3 Fig. Sensitivity results by cyst stage and type of test mirrored, and were overall comparable with those obtained by the analysis of sam- ples only from untreated subjects. The summary of results for ELISA is shown in Table 2. Due to the limited number of eligible studies, based on extremely heterogeneous antigenic preparations, it was not possible to determine whether the relation between cyst stage and sensi- tivity was influenced by the type of antigenic preparation used in the assays. However, studies using different antigenic preparations to test the same panel of sera, although obtaining different values of sensitivity, reported the same pattern of seropositivity according to cyst stage (Fig 5). Discussion Ultrasonography is the tool of reference for diagnosing abdominal CE, both for population screening and individual diagnosis. Moreover, US-based cyst staging is pivotal for clinical PLOS Neglected Tropical Diseases | https://doi.org/10.1371/journal.pntd.0009370 April 28, 2021 9 / 13 PLOS NEGLECTED TROPICAL DISEASES Serology for cystic echinococcosis and relation to cyst staging decision-making in the presence of uncomplicated hepatic CE cysts [8,13], which is the most common presentation of CE in a population. However, good quality US machines and/or spe- cific expertise on the recognition of pathognomonic CE characteristics are not widely avail- able. Serology is used to support imaging in doubtful cases, while currently available serological tests are not suitable, alone, for application in population-based prevalence studies [6,9]. Also in the clinical setting, the correct interpretation of serological results may be chal- lenging [10]. Several factors, among which CE cyst stage is prominent, have been reported to influence the outcome of serological tests, resulting in a variable rate of false negative results [14,15]. Unfortunately, however, cyst stages are infrequently reported and taken into account when results of serology are evaluated in both everyday clinical practice and in scientific works. Of the 173 potentially eligible studies retrieved in this systematic review, 87 (50%) were excluded because they did not describe cyst staging. We performed this systematic review and meta-analysis with the aims of (i) evaluating whether the relation between cyst stage of hepatic CE and sensitivity of serology test was a robust finding, and (ii) to provide an overall guidance for the interpretation of results of serol- ogy for the diagnosis of hepatic CE. The results of our study confirm the presence of a clear relation between cyst stage and serology tests results, independently of the seroassay format, study setting, and inclusion of samples from only untreated or both treated and untreated patients. Unfortunately, due to the heterogeneity of the antigenic preparations described in the included papers, it was not possible to formally assess whether this relation was influenced by the type of antigenic preparation. However, in agreement with a previous study [15], this seems not the case, thus the relation between seropositivity rate and cyst stage, with the highest values in the presence of CE2 and CE3 (generally CE3a>CE3b), and lowest in the presence of CE5 and CE4 cysts, appears a robust finding. Overall, our results indicate that ELISA and ICT were the most sensitive test formats, fol- lowed by WB, while IHA had the lowest sensitivity. However, this result should be taken with caution as only one study included in this study [10] investigated different test formats using the same, comprehensive panel of sera, finding that WB had the highest sensitivity while IHA and ELISA were comparable. Finally, we observed that sensitivity was apparently lower when tests were applied in diag- nostic accuracy and hospital-based cohorts compared to the field setting. This finding was unexpected, as intuitively one would have forecasted that untreated patients accessing the hos- pital setting might be more often symptomatic, and therefore had cysts with characteristics (e.g. large size, loss of integrity of the cyst wall) that are positively correlated with seropositiv- ity. Furthermore, three of the four field-based studies used tests based on recombinant anti- gens, which are known to yield a lower sensitivity when compared to native antigens. It must be noted, however, that no study evaluated in this review investigated the same test in both field and clinical setting, making also this observation to be taken with caution. In this regard, a study by Gavidia et al. [31] describing an US-based survey for CE coupled with two WB assays, one containing hydatid cyst fluid and the other a recombinant antigen (rEpC1-GST), showed that the WB based on rEpC1-GST had a sensitivity of 16.7% when samples from all individuals with hepatic CE were included, and of 29.4% when calcified cysts were excluded. The same recombinant antigen was tested on sera from 324 surgically confirmed CE patients (of which 116 obtained before surgery), yielding an overall sensitivity of 92.2% [32]. Thus, the unusually high sensitivity reported for serology in the field assays analyzed in this review remains difficult to explain, and may also derive from the limited number of studies included in the analysis. Furthermore, other factors that influence serology results, such as cysts number and size [14,15], were not analyzed in this work; these factors, which may have had a different distribution in the patient cohorts of the papers included in this analysis, might have PLOS Neglected Tropical Diseases | https://doi.org/10.1371/journal.pntd.0009370 April 28, 2021 10 / 13 PLOS NEGLECTED TROPICAL DISEASES Serology for cystic echinococcosis and relation to cyst staging influenced the results of our study. However, these results highlight the need to evaluate all ser- odiagnostic tests in different settings and using multiple cohorts, to obtain a more comprehen- sive assessment of their performances. In conclusion, the results of our systematic review and meta-analysis, although based on a limited number of eligible studies, show that a consistent pattern exists between the cyst stage of hepatic CE and serological tests results, independently of the seroassay format, study setting, and inclusion of samples from only untreated or both treated and untreated patients, with the highest sensitivity obtained in the presence of CE2 and CE3 and the lowest in the presence of inactive cysts. These results indicate the absolute need to describe and take into account cyst staging when evaluating serological results of patients with hepatic CE, in both the clinical set- ting and in research work. Supporting information S1 PRISMA Checklist. (DOC) S1 Text. Literature search strategy. (DOCX) S2 Text. Adapted Newcastle-Ottawa Scale for study quality assessment. (DOCX) S1 Table. Quality assessment of the included studies. (DOCX) S2 Table. Data extraction sheet. (XLSX) S1 Fig. Forest plots of sensitivity of CE serology from publications including patients with untreated cysts, in all settings. (TIF) S2 Fig. Forest plots of sensitivity of CE ELISA serology from publications including patients with untreated cysts, according to the study settings. (TIF) S3 Fig. Forest plots of sensitivity of CE serology from publications including patients with untreated and treated cysts, in all settings. (TIF) Author Contributions Conceptualization: Francesca Tamarozzi, Mar Siles-Lucas. Data curation: Francesca Tamarozzi, Dora Buonfrate, Mar Siles-Lucas. Formal analysis: Ronaldo Silva. Funding acquisition: Dora Buonfrate. Investigation: Francesca Tamarozzi. Methodology: Francesca Tamarozzi, Ronaldo Silva, Veronica Andrea Fittipaldo. Resources: Veronica Andrea Fittipaldo. Supervision: Bruno Gottstein, Mar Siles-Lucas. 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Published: Apr 28, 2021