First External Quality Assessment of Molecular and Serological Detection of Rift Valley Fever in the Western Mediterranean Region

Rift Valley fever (RVF) is a mosquito-borne viral zoonosis which affects humans and a wide range of domestic and wild ruminants. The large spread of RVF in Africa and its potential to emerge beyond its geographic range requires the development of surveillance strategies to promptly detect the disease outbreaks in order to implement efficient control measures, which could prevent the widespread of the virus to humans. The Animal Health Mediterranean Network (REMESA) linking some Northern African countries as Algeria, Egypt, Libya, Mauritania, Morocco, Tunisia with Southern European ones as France, Italy, Portugal and Spain aims at improving the animal health in the Western Mediterranean Region since 2009. In this context, a first assessment of the diagnostic capacities of the laboratories involved in the RVF surveillance was performed. The first proficiency testing (external quality assessment—EQA) for the detection of the viral genome and antibodies of RVF virus (RVFV) was carried out from October 2013 to February 2014. Ten laboratories participated from 6 different countries (4 from North Africa and 2 from Europe). Six laboratories participated in the ring trial for both viral RNA and antibodies detection methods, while four laboratories participated exclusively in the antibodies detection ring trial. For the EQA targeting the viral RNA detection methods 5 out of 6 laboratories reported 100% of correct results. One laboratory misidentified 2 positive samples as negative and 3 positive samples as doubtful indicating a need for corrective actions. For the EQA targeting IgG and IgM antibodies methods 9 out of the 10 laboratories reported 100% of correct results, whilst one laboratory reported all correct results except one false-positive. These two ring trials provide evidence that most of the participating laboratories are capable to detect RVF antibodies and viral RNA thus recognizing RVF infection in affected ruminants with the diagnostic methods currently available.     

黄热病现状及其疫苗的研究与应用

黄热病(yellow fever,YF)是一种经由伊蚊叮咬传播的急性出血性传染病,流行区主要集中在非洲西部、南美洲等热带地区,临床症状包括高热、恶心、呕吐、黄疸、出血等。黄热病的病原体为黄热病毒(yellow fever virus, YFV),是黄病毒科黄病毒属的单股正链RNA病毒。目前,YF治疗尚无特效药物,以对症治疗和支持治疗为主,接种YF-17D减毒活疫苗是最有效的预防方法。尽管YF-17D已被全球认可,但是疫苗接种所致的不良反应时有报道。本文对近年黄热病的流行情况、疫苗研究进展和应用进行综述。     

Out of Africa: a molecular perspective on the introduction of yellow fever virus into the Americas

Yellow fever virus (YFV) remains the cause of severe morbidity and mortality in South America and Africa. To determine the evolutionary history of this important reemerging pathogen, we performed a phylogenetic analysis of the largest YFV data set compiled to date, representing the prM/E gene region from 133 viral isolates sampled from 22 countries over a period of 76 years. We estimate that the currently circulating strains of YFV arose in Africa within the last 1,500 years and emerged in the Americas following the slave trade approximately 300-400 years ago. These viruses then spread westwards across the continent and persist there to this day in the jungles of South America. We therefore illustrate how gene sequence data can be used to test hypotheses of viral dispersal and demographics, and document the role of human migration in the spread of infectious disease.     

Evaluation of Whatman FTA cards for the preservation of yellow fever virus RNA for use in molecular diagnostics

Yellow fever virus (YFV) is a flavivirus that frequently causes outbreaks of hemorrhagic fever in Africa and South America and is considered a reemerging public health threat. Accurate diagnosis of yellow fever (YF) disease is critical as one confirmed case constitutes an outbreak and may trigger a mass vaccination campaign. Highly sensitive and specific molecular diagnostics have been developed; however, these assays require maintenance of cold-chain during transport of specimens to prevent the degradation of viral RNA prior to testing. Such cold-chain requirements are difficult to meet in some regions. In this study, we investigated Whatman FTA cards as an alternative stabilization method of YFV RNA for use in molecular diagnosis. Using contrived specimens, linear regression analysis showed that RNA detection from a single 6mm FTA card punch was significantly less sensitive than traditional RNA extraction; however, pooling RNA extracted from two FTA punches significantly lowered the limit of detection to be equal to that of the traditional RNA extraction gold standard. In experiments addressing the ability of FTA card methodology to stabilize YFV RNA at variable temperature, RNA could be detected for more than two weeks following storage at 25°C. Even more promising, YFV RNA was detectable on cards held at 37°C from two days to over two weeks depending on viral input. FTA cards were also shown to stabilize YFV RNA at high humidity if cards were desiccated prior to inoculation. These results support that FTA cards could be cost effective and easy to use in molecular diagnosis of YF, preserving viral RNA to allow for positive diagnoses in situations where maintaining cold-chain is not feasible.     

International External Quality Assessment Study for Molecular Detection of Lassa Virus

Lassa virus (LASV) is a causative agent of hemorrhagic fever in West Africa. In recent years, it has been imported several times to Europe and North America. The method of choice for early detection of LASV in blood is RT-PCR. Therefore, the European Network for Diagnostics of ‘Imported’ Viral Diseases (ENIVD) performed an external quality assessment (EQA) study for molecular detection of LASV. A proficiency panel of 13 samples containing various concentrations of inactivated LASV strains Josiah, Lib-1580/121, CSF, or AV was prepared. Samples containing the LASV-related lymphocytic choriomeningitis virus (LCMV) and negative sera were included as specificity controls. Twenty-four laboratories from 17 countries (13 European, one African, one Asian, two American countries) participated in the study. Thirteen laboratories (54%) reported correct results, 4 (17%) laboratories reported 1 to 2 false-negative results, and 7 (29%) laboratories reported 3 to 5 false-negative results. This EQA study indicates that most participating laboratories have a good or acceptable performance in molecular detection of LASV. However, several laboratories need to review and improve their diagnostic procedures.     

Host-cell interaction of attenuated and wild-type strains of yellow fever virus can be differentiated at early stages of hepatocyte infection

Yellow fever (YF) virus is currently found in tropical Africa and South America, and is responsible for a febrile to severe illness characterized by organ failure and shock. The attenuated YF 17D strain, used in YF vaccine, was derived from the wild-type strain Asibi. Although studies have been done on genetic markers of YF virulence, differentiation of the two strains in terms of host-cell interaction during infection remains elusive. As YF wild-type strains are hepatotropic, we chose a hepatic cell line (HepG2) to study YF virus-host cell interaction. HepG2 cells rapidly produced high titres of infectious viral particles for 17D and Asibi YF strains. However, HepG2 cells were more susceptible to the attenuated 17D virus infection, and only this virus strain induced early apoptosis in these cells. Molecular markers specific for the 17D virus were identified by microarray analysis and confirmed by quantitative RT-PCR analysis. As early as 1h postinfection, three genes, (IEX-1, IRF-1, DEC-1) all implicated in apoptosis pathways, were upregulated. Later in infection (48 h) two other genes (HSP70-1A and 1B), expressed in cases of cellular stress, were highly upregulated in 17D-infected HepG2 cells. The early specific upregulation of these cellular genes in HepG2 cells may be considered markers of the 17D virus. This study on the YF attenuated strain gives a new approach to the analysis of the factors involved in virus attenuation.     

Phylogenetic and Evolutionary Relationships among Yellow Fever Virus Isolates in Africa

Previous studies with a limited number of strains have indicated that there are two genotypes of yellow fever (YF) virus in Africa, one in west Africa and the other in east and central Africa. We have examined the prM/M and a portion of the E protein for a panel of 38 wild strains of YF virus from Africa representing different countries and times of isolation. Examination of the strains revealed a more complex genetic relationship than previously reported. Overall, nucleotide substitutions varied from 0 to 25.8% and amino acid substitutions varied from 0 to 9.1%. Phylogenetic analysis using parsimony and neighbor-joining algorithms identified five distinct genotypes: central/east Africa, east Africa, Angola, west Africa I, and west Africa II. Extensive variation within genotypes was observed. Members of west African genotype II and central/east African genotype differed by 2.8% or less, while west Africa genotype I varied up to 6.8% at the nucleotide level. We speculate that the former two genotypes exist in enzootic transmission cycles, while the latter is genetically more heterogeneous due to regular human epidemics. The nucleotide sequence of the Angola genotype diverged from the others by 15.7 to 23.0% but only 0.4 to 5.6% at the amino acid level, suggesting that this genotype most likely diverged from a progenitor YF virus in east/central Africa many years ago, prior to the separation of the other east/central African strains analyzed in this study, and has evolved independently. These data demonstrate that there are multiple genotypes of YF virus in Africa and suggest independent evolution of YF virus in different areas of Africa.     

Identification of priority areas in South America for exploration of natural enemies for classical biological control of Tetranychus evansi (Acari: Tetranychidae) in Africa

The red spider mite Tetranychus evansi Baker and Pritchard is a pest of tomato in East and Southern Africa. It is probably native to South America. Three models were established to identify priority areas for the search of natural enemies in South America for classical biological control of this pest in Africa. The models were based on the concept of “fundamental ecological niche”, predicting regions in South America that have similar environmental conditions to areas where the mite is a problem in Africa, using Desktop-GARP (Genetic Algorithm for Rule-set Production). Based on the model established with data sets from Kenya and Zimbabwe, it was determined that priority areas include areas in Brazil, Argentina, Paraguay and Uruguay, as well as some restricted areas in other South American countries.     

Rapid Molecular Assays for the Detection of Yellow Fever Virus in Low-Resource Settings

Background

Yellow fever (YF) is an acute viral hemorrhagic disease transmitted by Aedes mosquitoes. The causative agent, the yellow fever virus (YFV), is found in tropical and subtropical areas of South America and Africa. Although a vaccine is available since the 1930s, YF still causes thousands of deaths and several outbreaks have recently occurred in Africa. Therefore, rapid and reliable diagnostic methods easy to perform in low-resources settings could have a major impact on early detection of outbreaks and implementation of appropriate response strategies such as vaccination and/or vector control.

Methodology

The aim of this study was to develop a YFV nucleic acid detection method applicable in outbreak investigations and surveillance studies in low-resource and field settings. The method should be simple, robust, rapid and reliable. Therefore, we adopted an isothermal approach and developed a recombinase polymerase amplification (RPA) assay which can be performed with a small portable instrument and easy-to-use lyophilized reagents. The assay was developed in three different formats (real-time with or without microfluidic semi-automated system and lateral-flow assay) to evaluate their application for different purposes. Analytical specificity and sensitivity were evaluated with a wide panel of viruses and serial dilutions of YFV RNA. Mosquito pools and spiked human plasma samples were also tested for assay validation. Finally, real-time RPA in portable format was tested under field conditions in Senegal.

Conclusion/Significance

The assay was able to detect 20 different YFV strains and demonstrated no cross-reactions with closely related viruses. The RPA assay proved to be a robust, portable method with a low detection limit (<21 genome equivalent copies per reaction) and rapid processing time (<20 min). Results from real-time RPA field testing were comparable to results obtained in the laboratory, thus confirming our method is suitable for YFV detection in low-resource settings.     

Limitations of direct estradiol and testosterone immunoassay kits

Estradiol (E2) and testosterone (T) are biologically active hormones that serve as important diagnostic markers in serum of premenopausal and postmenopausal women and in men. These hormones are measured frequently by immunoassay in clinical laboratories and the test results are used in the diagnosis and treatment of patients. For measuring the hormones by immunoassay, most laboratories utilize commercially available reagents that are packaged in the form of a kit and are used either in an automated instrument or manually. However, both the diagnostic kit manufacturer and testing laboratory seldom thoroughly validate the assay methods generated with these kits. This deficiency may lead to unreliable test results that could affect clinical evaluation and treatment of patients. The purpose of the present study was to assess the reliability of immunoassays that quantify serum E2 and T levels with commercial diagnostic kits. The data generally show wide differences in the apparent levels of each hormone in a given sample obtained with kits from different manufacturers. This was especially true when measuring postmenopausal E2 and T levels. However, a purification step, which included organic solvent extraction, prior to radioimmunoassay (RIA) of E2 gave values that compared well with those obtained by conventional RIA (with preceding extraction/chromatographic steps). Our results point out the importance of more thoroughly validating assays performed with commercial immunoassay kits, especially with respect to sensitivity and specificity, prior to their use for measuring hormone levels in patient samples.     

Comparison of LCI studies in South Africa and Germany

This article investigates the possibilities for and potential applications of Life Cycle Assessments (LCA’s) and specifically of Life Cycle Inventories (LCI’s) in developing countries (e.g. South Africa). The situation in South Africa is compared to that prevailing in Germany, a highly developed country. Although South Africa is unique concerning the different degrees of development within the industry, most of the principles discussed in this article can be applied similarly to other developing countries. No significant full LCI studies have yet been performed in South Africa. Although the immediate local needs for the South Africa enonomy are solving labour problems, creating jobs, building houses, the industries should seriously consider performing LCA and related studies for their products. The concept of quality should be extended to include the environmental performance of a product, process or service.     

Determination of ochratoxin A in liquorice products using HPLC based analytical methods. Part I: proficiency test of methods commonly used by the confectionary industry

A European proficiency test series was accomplished on behalf of the CAOBISCO (Association of the Chocolate, Biscuit and Confectionery Industries of the EU) expert group on ochratoxin A to assess the performance of laboratories in measuring ochratoxin A in samples of various liquorice products. In addition, the impact of the extraction type (mainly with or without the use of halogenated solvents) was to be evaluated. Four different test samples (two liquorice powders and two liquorice pastes) were tested for sufficient homogeneity and distributed to 15 laboratories in 8 countries in Europe. The results were analysed using standard proficiency testing statistical procedures and laboratories were awarded z-scores on the basis of their reported results. The overall evaluation of the results shows a distinct variation between the participating laboratories. Based on a target standard deviation (σ-value) taken from the Horwitz equation, of the 14 laboratories that reported results, satisfactory results (z-score: |Z| ≤ 2.0) were obtained by 60% and 27% of the laboratories, respectively, for the two liquorice powders and by 93% and 53% of the laboratories, respectively, for the two liquorice pastes. Approximately equal numbers of laboratories used extraction types with and without the use of halogenated solvents. ANOVA testing of the results indicates there was no evident trend using different extraction solvents.     

Studies on Serological Cross-Reaction in Sequential Flavivirus Infections

Acute- and convalescent-phase sera from patients with dengue (DEN) hemorrhagic fever (DHF) and Japanese encephalitis (JE) that contained pre-existing flavivirus antibodies were tested for cross-reacting antibodies to DEN, JE and yellow fever (YF) viruses by a neutralization (N) test. A fourfold or greater rise in N antibody titer in the convalescent-phase was considered significant. Of 39 DHF cases, obtained at Chiang Mai University Hospital, Thailand, 15 (38.5%) showed a rise in DEN antibody titer, while another 15 (38.5%) showed a significant rise in both DEN and JE N antibody titers. On the other hand, eight (61.5%) of 13 JE cases obtained at the same Hospital, showed a significant rise in JE antibody titer, while two (15.4%) showed a significant rise in both DEN and JE antibody titers. Sucrose gradient centrifugation and fractionation of these two cross-reactive JE sera revealed that IgM class antibody was specific for JE, while IgG class antibody was cross-reactive. Of three JE cases with pre-existing YF antibody obtained in Okinawa, Japan, two showed a significant rise in YF and JE antibodies. Both IgM and IgG class antibodies to YF virus were elevated. These results indicate that the cross-reactivity among flaviviruses in different subgroups (complexes), was observed quite often, even by the N test, in sequential flavivirus infection.     

Seasonal and inter-annual drivers of yellow fever transmission in South America

In the last 20 years yellow fever (YF) has seen dramatic changes to its incidence and geographic extent, with the largest outbreaks in South America since 1940 occurring in the previously unaffected South-East Atlantic coast of Brazil in 2016–2019. While habitat fragmentation and land-cover have previously been implicated in zoonotic disease, their role in YF has not yet been examined. We examined the extent to which vegetation, land-cover, climate and host population predicted the numbers of months a location reported YF per year and by each month over the time-period. Two sets of models were assessed, one looking at interannual differences over the study period (2003–2016), and a seasonal model looking at intra-annual differences by month, averaging over the years of the study period. Each was fit using hierarchical negative-binomial regression in an exhaustive model fitting process. Within each set, the best performing models, as measured by the Akaike Information Criterion (AIC), were combined to create ensemble models to describe interannual and seasonal variation in YF. The models reproduced the spatiotemporal heterogeneities in YF transmission with coefficient of determination (R²) values of 0.43 (95% CI 0.41–0.45) for the interannual model and 0.66 (95% CI 0.64–0.67) for the seasonal model. For the interannual model, EVI, land-cover and vegetation heterogeneity were the primary contributors to the variance explained by the model, and for the seasonal model, EVI, day temperature and rainfall amplitude. Our models explain much of the spatiotemporal variation in YF in South America, both seasonally and across the period 2003–2016. Vegetation type (EVI), heterogeneity in vegetation (perhaps a proxy for habitat fragmentation) and land cover explain much of the trends in YF transmission seen. These findings may help understand the recent expansions of the YF endemic zone, as well as to the highly seasonal nature of YF.     

Asymptomatic Malaria in Refugees Living in a Non-Endemic South African City

Background

Asymptomatic malaria infection in refugees is both a threat to the lives of the individuals and the public in the host country. Although South Africa has been experiencing an unprecedented influx of refugees since 1994, data on malaria infection among refugees is lacking. Such information is critical since South Africa is among the countries that have planned to eliminate malaria. The objective of this study was to determine prevalence of asymptomatic malaria infection among a refugee population living in a city of KwaZulu-Natal province, South Africa.

Methods and Findings

A survey was conducted on adult refugee participants who attended a faith-based facility offering social services in a city of KwaZulu-Natal province, South Africa. The participants were screened for the presence of malaria using rapid diagnostic tests and microscopy. Demographic data for the participants were obtained using a closed ended questionnaire. Data was obtained for 303 participants consisting of 51.5% females and 47.5% males, ranging from 19 to 64 years old. More than 95% of them originated from sub-Saharan African countries. Two hundred and ninety participants provided a blood sample for screening of malaria. Of these, 3.8% tested positive for rapid diagnostic test and 5.9% for microscopy. The majority of malaria infections were due to Plasmodium falciparum.

Conclusions

The study confirms the presence of asymptomatic malaria infections among a refugee population residing in a city of KwaZulu-Natal province that is not endemic for malaria. The results have important implications for both public health and malaria control in South Africa, particularly since the country has decided to eliminate malaria by 2018. To achieve this goal, South Africa needs to expand research, surveillance and elimination activities to include non-endemic areas, particularly with high refugee populations. We further recommend use of powerful diagnostic tests such as PCR for these interventions.     

The epidemiology of yellow fever in Africa

Yellow fever (YF) is still a major public heath problem, particularly in Africa, despite the availability of a very efficacious vaccine. The World Health Organization estimates that there are 200,000 cases of YF annually, including 30,000 deaths, of which over 90% occur in Africa. In the past 15 years, the number of YF cases has increased tremendously, with most of the YF activity in West Africa. This increase in YF activity is in part due to a breakdown in YF vaccination and mosquito control programs. Five genotypes of YF virus have been found in Africa, and each genotype circulates in a distinct geographical region. West Africa genotype I, found in Nigeria and surrounding areas, is associated with frequent epidemics, whereas the three genotypes in East and Central Africa are in regions where YF outbreaks are rare. Other factors, including genetic and behavioral variation among vector species, are also thought to play a role in the epidemiology of YF in Africa.     

Usefulness of immunoenzyme diagnostic kits and latex tests for isolation of rotaviruses

The aim of this study was to compare characteristic parameters of 4 diagnostic kits available in Poland-immunoenzymatic Rotazyme II and Enzygnost kits and latex kits Rotalex and Slidex. Studies were performed on 67 samples of feces of children treated because of diarrhea. The sensitivity, specificity, frequency of positive tests, false positives and false negatives and the accuracy of the tests under evaluation were determined. The results obtained were further verified using a reference test electrophoresis of RNA of rotavirus. The highest sensitivity was found for Enzygnost, Rotazyme II and Rotalex, 97%, 92% and 90%, respectively, and the lowest for Slidex- 79%, while the specificity was higher for latex kits than for immunoenzymatic kits. The accuracy of the results was highest for Rotalex kit (92%), next for Enzygnost kit (88%), Rotazyme (87%), and Slidex (84%). The significant correlation between OD value readings in spectrophotometer in Rotazyme II kit and the results of visual reading in latex test was found. All tested kits were found to be useful for diagnostic purposes. Rotalex kit due to the high accuracy of the results obtained, methodological simplicity, short time of testing and relatively low price could be a based test in hospital laboratories.     

Significance of Isolated Positive IgM Serologic Results by Enzyme Immunoassay for Coccidioidomycosis

Serologic testing is important for diagnosis of coccidioidomycosis. Many methods are available for diagnostic testing. Enzyme immunoassay (EIA) can be performed quickly and locally but has the potential for false-positive results in patients manifesting a positive EIA for immunoglobulin M (IgM) antibodies and a negative EIA for immunoglobulin G (IgG). We retrospectively reviewed the charts of 405 patients with coccidioidal serologic testing performed between 1999 and 2003. Of 706 EIAs, 37 (5%) produced test results for 28 patients that showed isolated IgM positivity. Among these 28 patients, 24 (86%) had positive serologic findings by other methods (complement fixation or immunodiffusion or both), and 7 (25%) had positive microbiologic or histopathologic findings. All 4 (14%) patients without other positive serologic results had diagnostic tests with positive microbiologic or histopathologic results. No false-positive IgM assays were observed. We conclude that the false-positive rate of the EIA IgM is low, and that an isolated positive EIA IgM should prompt further follow-up and diagnostic testing. J. T. Currier was a Visiting Research Trainee at the Division of Infectious Diseases, Mayo Clinic, Scottsdale, AZ.     

Results of the National External Quality Assessment for Toxoplasmosis Serological Testing in China

Background

Toxoplasmosis is typically diagnosed by serologic testing. External quality assessment (EQA) of clinical laboratories could ensure the accuracy and reliability of serological tests. We assessed the quality of toxoplasma serological assays in Chinese clinical laboratories by an EQA performed between 2004 and 2013 by the National Center for Clinical Laboratories.

Methodology and Findings

EQA panels were prepared and shipped at room temperature to participating laboratories that employed toxoplasma IgG and IgM serological detection. By 2013, 5,384 EQA test reports for toxoplasma-specific IgM and 2,666 reports for toxoplasma-specific IgG were collected. Enzyme-linked immunosorbent (ELISA) and chemical immunofluorescent assays were the most commonly used detection methods. The overall coincidence rates of negative samples were better than those of positive samples. The overall EQA score for toxoplasma-specific IgM detection ranged between 84.3% and 99.6%. The ratio of laboratories that achieved correct IgG detection ranged from 61.1% to 99.3%. However, the inter- and intra-assay variabilities were found to be considerable. The most common problem was failure to detect low titers of antibody.

Conclusion

The EQA scheme showed an improvement in toxoplasma serological testing in China. However, further optimization of assay sensitivity to detect challenging samples remains a future challenge.     

A Novel IgM‐capture enzyme‐linked immunosorbent assay using recombinant Vag8 fusion protein for the accurate and early diagnosis of Bordetella pertussis infection

An ELISA that measures anti‐PT IgG antibody has been used widely for the serodiagnosis of pertussis; however, the IgG‐based ELISA is inadequate for patients during the acute phase of the disease because of the slow response of anti‐PT IgG antibodies. To solve this problem, we developed a novel IgM‐capture ELISA that measures serum anti‐Bordetella pertussis Vag8 IgM levels for the accurate and early diagnosis of pertussis. First, we confirmed that Vag8 was highly expressed in all B. pertussis isolates tested (n = 30), but little or none in other Bordetella species, and that DTaP vaccines did not induce anti‐Vag8 IgG antibodies in mice (i.e. the antibody level could be unaffected by the vaccination). To determine the immune response to Vag8 in B. pertussis infection, anti‐Vag8 IgM levels were compared between 38 patients (acute phase of pertussis) and 29 healthy individuals using the anti‐Vag8 IgM‐capture ELISA. The results revealed that the anti‐Vag8 IgM levels were significantly higher in the patients compared with the healthy individuals (P < 0.001). ROC analysis also showed that the anti‐Vag8 IgM‐capture ELISA has higher diagnostic accuracy (AUC, 0.92) than a commercial anti‐PT IgG ELISA kit. Moreover, it was shown that anti‐Vag8 IgM antibodies were induced earlier than anti‐PT IgG antibodies on sequential patients’ sera. These data indicate that our novel anti‐Vag8 IgM‐capture ELISA is a potentially useful tool for making the accurate and early diagnosis of B. pertussis infection.