Ultra-Sensitive Detection of Plasmodium falciparum by Amplification of Multi-Copy Subtelomeric Targets

Hofmann, Natalie; Mwingira, Felista; Shekalaghe, Seif; Robinson, Leanne J.; Müeller, Ivo; Felger, Ingrid

doi:10.1371/journal.pmed.1001788

Cited by 334 publications

(384 citation statements)

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“…Recent studies in endemic areas have shown that more sensitive detection methods reveal larger reservoirs of asymptomatic P. falciparum infection than previously appreciated [44,45]. Therefore, it is possible that some subjects in this study had parasite densities below the detection limit of our PCR assay.…”

Section: Discussionmentioning

confidence: 80%

Treatment of Chronic Asymptomatic Plasmodium falciparum Infection Does Not Increase the Risk of Clinical Malaria Upon Reinfection

Portugal

Tran

Ongoïba

et al. 2016

Clinical Infectious Diseases

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Section: Discussionmentioning

confidence: 80%

Treatment of Chronic Asymptomatic Plasmodium falciparum Infection Does Not Increase the Risk of Clinical Malaria Upon Reinfection

Portugal

Tran

Ongoïba

et al. 2016

Clinical Infectious Diseases

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“…This may be due to degradation of nucleic acids that disproportionally affect RNA-based diagnostics 3 or to a limitation in sensitivity regardless of sample handling. Gametocytaemic individuals with sub-PCR infection were also found in a cross-sectional survey in Tanzania using a new ultra-sensitive PCR technique 12 . These findings illustrate that the available diagnostics do not detect all infections that are present in populations and that onward malaria transmission is possible (although with a low probability) from apparently parasite-negative individuals.…”

Section: Discussionmentioning

confidence: 88%

“…The advent of highly sensitive molecular methods that detect parasite DNA or RNA such as polymerase chain reaction (PCR) 12 and quantitative nucleic acid sequence based amplification (QT-NASBA) has highlighted that many infected individuals have parasite densities that are too low to be detected either by microscopy or RDTs 13,14 . However, even these methods do not detect all the infections that are present in infected human hosts 12,15 and they are currently not available as routine field diagnostic tests because they require high-level laboratory facilities for nucleic acid extraction, amplification and detection that are unavailable in many resource-poor endemic settings. Even the most operationally attractive molecular diagnostic available -loop-mediated isothermal amplification For each value of the x-axis we calculate the proportion of each density distribution (from a) that would be detected.…”

Section: S95mentioning

confidence: 99%

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Assessing the impact of next-generation rapid diagnostic tests on Plasmodium falciparum malaria elimination strategies

Slater

Ross

Ouédraogo

et al. 2015

Nature

129

143

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P lasmodium falciparum malaria was responsible for an estimated 584,000 (range 367,000-755,000) deaths in 2013, most of which occurred in young children in sub-Saharan Africa 1 . Although the burden has reduced in response to global efforts to increase the provision of proven malaria interventions such as insecticide-treated bed nets and access to health care and treatment 1 , it remains high. One of the challenges in reducing malaria transmission is the long duration of infection in the human host, which in semi-immune individuals may persist for a year or more 2 . In particular, although infection often leads to disease in naive individuals, those with sufficient acquired immunity can harbour parasites -and hence be onwardly infectious to mosquitoes -without exhibiting symptoms 3 . One option for speeding the decline in transmission could be to target the asymptomatic reservoir of infection 4 by providing either periodic mass-screen-and-treat (MSAT) programmes, focal MSAT or a reactive strategy in which individuals living in the vicinity of an identified clinical case are screened and treated. However, the extent to which such strategies are able to reduce the infectious reservoir will depend on the extent to which the diagnostic used to identify infected individuals also detects those who are onwardly infectious. Another form of targeting could take place at the population level (for example a village) where mass interventions are deployed if the population prevalence *These authors contributed equally.

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“…After confirmation of successful extraction via Qubit fluorescence (Thermo Fisher Scientific, Waltham, MA, USA), quantitative PCR was attempted to detect the P. falciparum LDH (PfLDH) loci (37). Upon amplification of positive controls but failure of experimental samples, the protocol was adjusted to accommodate an increase from the minimum 1 l of DNA to a maximum of 5 l. Following a second amplification failure, we changed assays to the ultrasensitive protocol targeting the var ATS sequence for qualitative detection to confirm the presence of P. falciparum DNA (38).…”

Section: Methodsmentioning

confidence: 99%

Improving the Specificity of Plasmodium falciparum Malaria Diagnosis in High-Transmission Settings with a Two-Step Rapid Diagnostic Test and Microscopy Algorithm

et al. 2017

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Poor specificity may negatively impact rapid diagnostic test (RDT)-based diagnostic strategies for malaria. We performed real-time PCR on a subset of subjects who had undergone diagnostic testing with a multiple-antigen (histidine-rich protein 2 and pan-lactate dehydrogenase pLDH [HRP2/pLDH]) RDT and microscopy. We determined the sensitivity and specificity of the RDT in comparison to results of PCR for the detection of Plasmodium falciparum malaria. We developed and evaluated a two-step algorithm utilizing the multiple-antigen RDT to screen patients, followed by confirmatory microscopy for those individuals with HRP2-positive (HRP2 ϩ )/ pLDH-negative (pLDH Ϫ ) results. In total, dried blood spots (DBS) were collected from 276 individuals. There were 124 (44.9%) individuals with an HRP2 ϩ /pLDH ϩ result, 94 (34.1%) with an HRP2 ϩ /pLDH Ϫ result, and 58 (21%) with a negative RDT result. The sensitivity and specificity of the RDT compared to results with real-time PCR were 99.4% (95% confidence interval [CI], 95.9 to 100.0%) and 46.7% (95% CI, 37.7 to 55.9%), respectively. Of the 94 HRP2 ϩ /pLDH Ϫ results, only 32 (34.0%) and 35 (37.2%) were positive by microscopy and PCR, respectively. The sensitivity and specificity of the two-step algorithm compared to results with real-time PCR were 95.5% (95% CI, 90.5 to 98.0%) and 91.0% (95% CI, 84.1 to 95.2), respectively. HRP2 antigen bands demonstrated poor specificity for the diagnosis of malaria compared to that of realtime PCR in a high-transmission setting. The most likely explanation for this finding is the persistence of HRP2 antigenemia following treatment of an acute infection. The two-step diagnostic algorithm utilizing microscopy as a confirmatory test for indeterminate HRP2 ϩ /pLDH Ϫ results showed significantly improved specificity with little loss of sensitivity in a high-transmission setting.KEYWORDS Plasmodium falciparum, antigen specificity, diagnostics, epidemiology, malaria, rapid tests S ince 2010, the World Health Organization (WHO) has recommended that all suspected malaria cases have a parasite-based diagnosis, either by microscopy or a rapid diagnostic test (RDT), prior to treatment with artemisinin-based combination therapy (ACT) (1). While light microscopy is the traditional reference standard for the diagnosis of malaria, RDTs are increasingly employed because they require minimal Improving the specificity of Plasmodium falciparum malaria diagnosis in hightransmission settings with a two-step rapid diagnostic test and microscopy algorithm. J

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Ultra-Sensitive Detection of Plasmodium falciparum by Amplification of Multi-Copy Subtelomeric Targets

Cited by 334 publications

References 73 publications

Treatment of Chronic Asymptomatic Plasmodium falciparum Infection Does Not Increase the Risk of Clinical Malaria Upon Reinfection

Treatment of Chronic Asymptomatic Plasmodium falciparum Infection Does Not Increase the Risk of Clinical Malaria Upon Reinfection

Assessing the impact of next-generation rapid diagnostic tests on Plasmodium falciparum malaria elimination strategies

Improving the Specificity of Plasmodium falciparum Malaria Diagnosis in High-Transmission Settings with a Two-Step Rapid Diagnostic Test and Microscopy Algorithm

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