Clinical Evaluation of a Loop-Mediated Amplification Kit for Diagnosis of Imported Malaria

Background. Diagnosis of malaria relies on parasite detection by microscopy or antigen detection; both fail to detect low-density infections. New tests providing rapid, sensitive diagnosis with minimal need for training would enhance both malaria diagnosis and malaria control activities. We determin...

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Published in	The Journal of infectious diseases Vol. 208; no. 4; pp. 637 - 644
Main Authors	Polley, Spencer D., González, Iveth J., Mohamed, Deqa, Daly, Rosemarie, Bowers, Kathy, Watson, Julie, Mewse, Emma, Armstrong, Margaret, Gray, Christen, Perkins, Mark D., Bell, David, Kanda, Hidetoshi, Tomita, Norihiro, Kubota, Yutaka, Mori, Yasuyoshi, Chiodini, Peter L., Sutherland, Colin J.
Format	Journal Article
Language	English
Published	Oxford Oxford University Press 15.08.2013
Subjects	Adult Biological and medical sciences Blood - parasitology Female Fundamental and applied biological sciences. Psychology Human protozoal diseases Humans Infectious diseases Major and Brief Reports Malaria Malaria, Falciparum - diagnosis Male Medical sciences Microbiology Microscopy Molecular Diagnostic Techniques - methods Nucleic Acid Amplification Techniques - methods PARASITES Parasitic diseases Parasitology - methods Plasmodium falciparum - genetics Plasmodium falciparum - isolation & purification Protozoal diseases Reagent Kits, Diagnostic Sensitivity and Specificity Travel Medicine - methods Amplification Infection Protozoal disease Imported disease Malaria Parasitosis Diagnosis malaria diagnostics LAMP
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Abstract	Background. Diagnosis of malaria relies on parasite detection by microscopy or antigen detection; both fail to detect low-density infections. New tests providing rapid, sensitive diagnosis with minimal need for training would enhance both malaria diagnosis and malaria control activities. We determined the diagnostic accuracy of a new loop-mediated amplification (LAMP) kit in febrile returned travelers. Methods. The kit was evaluated in sequential blood samples from returned travelers sent for pathogen testing to a specialist parasitology laboratory. Microscopy was performed, and then malaria LAMP was performed using Plasmodium genus and Plasmodium falciparum-speciñc tests in parallel. Nested polymerase chain reaction (PCR) was performed on all samples as the reference standard. Primary outcome measures for diagnostic accuracy were sensitivity and specificity of LAMP results, compared with those of nested PCR. Results. A total of 705 samples were tested in the primary analysis. Sensitivity and specificity were 98.4% and 98.1%, respectively, for the LAMP P. falciparum primers and 97.0% and 99.2%, respectively, for the Plasmodium genus primers. Post hoc repeat PCR analysis of all 15 tests with discrepant results resolved 4 results in favor of LAMP, suggesting that the primary analysis had underestimated diagnostic accuracy. Conclusions. Malaria LAMP had a diagnostic accuracy similar to that of nested PCR, with a greatly reduced time to result, and was superior to expert microscopy.
AbstractList	Background. Diagnosis of malaria relies on parasite detection by microscopy or antigen detection; both fail to detect low-density infections. New tests providing rapid, sensitive diagnosis with minimal need for training would enhance both malaria diagnosis and malaria control activities. We determined the diagnostic accuracy of a new loop-mediated amplification (LAMP) kit in febrile returned travelers. Methods. The kit was evaluated in sequential blood samples from returned travelers sent for pathogen testing to a specialist parasitology laboratory. Microscopy was performed, and then malaria LAMP was performed using Plasmodium genus and Plasmodium falciparum –specific tests in parallel. Nested polymerase chain reaction (PCR) was performed on all samples as the reference standard. Primary outcome measures for diagnostic accuracy were sensitivity and specificity of LAMP results, compared with those of nested PCR. Results. A total of 705 samples were tested in the primary analysis. Sensitivity and specificity were 98.4% and 98.1%, respectively, for the LAMP P. falciparum primers and 97.0% and 99.2%, respectively, for the Plasmodium genus primers. Post hoc repeat PCR analysis of all 15 tests with discrepant results resolved 4 results in favor of LAMP, suggesting that the primary analysis had underestimated diagnostic accuracy. Conclusions. Malaria LAMP had a diagnostic accuracy similar to that of nested PCR, with a greatly reduced time to result, and was superior to expert microscopy. BACKGROUNDDiagnosis of malaria relies on parasite detection by microscopy or antigen detection; both fail to detect low-density infections. New tests providing rapid, sensitive diagnosis with minimal need for training would enhance both malaria diagnosis and malaria control activities. We determined the diagnostic accuracy of a new loop-mediated amplification (LAMP) kit in febrile returned travelers. METHODSThe kit was evaluated in sequential blood samples from returned travelers sent for pathogen testing to a specialist parasitology laboratory. Microscopy was performed, and then malaria LAMP was performed using Plasmodium genus and Plasmodium falciparum-specific tests in parallel. Nested polymerase chain reaction (PCR) was performed on all samples as the reference standard. Primary outcome measures for diagnostic accuracy were sensitivity and specificity of LAMP results, compared with those of nested PCR. RESULTSA total of 705 samples were tested in the primary analysis. Sensitivity and specificity were 98.4% and 98.1%, respectively, for the LAMP P. falciparum primers and 97.0% and 99.2%, respectively, for the Plasmodium genus primers. Post hoc repeat PCR analysis of all 15 tests with discrepant results resolved 4 results in favor of LAMP, suggesting that the primary analysis had underestimated diagnostic accuracy. CONCLUSIONSMalaria LAMP had a diagnostic accuracy similar to that of nested PCR, with a greatly reduced time to result, and was superior to expert microscopy. Background. Diagnosis of malaria relies on parasite detection by microscopy or antigen detection; both fail to detect low-density infections. New tests providing rapid, sensitive diagnosis with minimal need for training would enhance both malaria diagnosis and malaria control activities. We determined the diagnostic accuracy of a new loop-mediated amplification (LAMP) kit in febrile returned travelers. Methods. The kit was evaluated in sequential blood samples from returned travelers sent for pathogen testing to a specialist parasitology laboratory. Microscopy was performed, and then malaria LAMP was performed using Plasmodium genus and Plasmodium falciparum-speciñc tests in parallel. Nested polymerase chain reaction (PCR) was performed on all samples as the reference standard. Primary outcome measures for diagnostic accuracy were sensitivity and specificity of LAMP results, compared with those of nested PCR. Results. A total of 705 samples were tested in the primary analysis. Sensitivity and specificity were 98.4% and 98.1%, respectively, for the LAMP P. falciparum primers and 97.0% and 99.2%, respectively, for the Plasmodium genus primers. Post hoc repeat PCR analysis of all 15 tests with discrepant results resolved 4 results in favor of LAMP, suggesting that the primary analysis had underestimated diagnostic accuracy. Conclusions. Malaria LAMP had a diagnostic accuracy similar to that of nested PCR, with a greatly reduced time to result, and was superior to expert microscopy. Diagnosis of malaria relies on parasite detection by microscopy or antigen detection; both fail to detect low-density infections. New tests providing rapid, sensitive diagnosis with minimal need for training would enhance both malaria diagnosis and malaria control activities. We determined the diagnostic accuracy of a new loop-mediated amplification (LAMP) kit in febrile returned travelers. The kit was evaluated in sequential blood samples from returned travelers sent for pathogen testing to a specialist parasitology laboratory. Microscopy was performed, and then malaria LAMP was performed using Plasmodium genus and Plasmodium falciparum-specific tests in parallel. Nested polymerase chain reaction (PCR) was performed on all samples as the reference standard. Primary outcome measures for diagnostic accuracy were sensitivity and specificity of LAMP results, compared with those of nested PCR. A total of 705 samples were tested in the primary analysis. Sensitivity and specificity were 98.4% and 98.1%, respectively, for the LAMP P. falciparum primers and 97.0% and 99.2%, respectively, for the Plasmodium genus primers. Post hoc repeat PCR analysis of all 15 tests with discrepant results resolved 4 results in favor of LAMP, suggesting that the primary analysis had underestimated diagnostic accuracy. Malaria LAMP had a diagnostic accuracy similar to that of nested PCR, with a greatly reduced time to result, and was superior to expert microscopy.
Author	Armstrong, Margaret Daly, Rosemarie Mewse, Emma Kubota, Yutaka Bowers, Kathy Sutherland, Colin J. Mori, Yasuyoshi Kanda, Hidetoshi González, Iveth J. Gray, Christen Chiodini, Peter L. Watson, Julie Polley, Spencer D. Perkins, Mark D. Mohamed, Deqa Bell, David Tomita, Norihiro
AuthorAffiliation	4 Department of Immunology and Infection , London School of Hygiene and Tropical Medicine , United Kingdom 1 Department of Clinical Parasitology 5 Foundation for Innovative New Diagnostics , Geneva , Switzerland 6 Eiken Chemical , Ohtawara , Japan 3 HPA Malaria Reference Laboratory 2 Outpatients Department, Walk-in Clinic , Hospital for Tropical Diseases, University London Colleges NHS Foundation Trust
AuthorAffiliation_xml	– name: 4 Department of Immunology and Infection , London School of Hygiene and Tropical Medicine , United Kingdom – name: 3 HPA Malaria Reference Laboratory – name: 6 Eiken Chemical , Ohtawara , Japan – name: 5 Foundation for Innovative New Diagnostics , Geneva , Switzerland – name: 2 Outpatients Department, Walk-in Clinic , Hospital for Tropical Diseases, University London Colleges NHS Foundation Trust – name: 1 Department of Clinical Parasitology
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Keywords	Amplification Infection Protozoal disease Imported disease Malaria Parasitosis Diagnosis malaria diagnostics LAMP
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Snippet	Background. Diagnosis of malaria relies on parasite detection by microscopy or antigen detection; both fail to detect low-density infections. New tests... Diagnosis of malaria relies on parasite detection by microscopy or antigen detection; both fail to detect low-density infections. New tests providing rapid,... BACKGROUNDDiagnosis of malaria relies on parasite detection by microscopy or antigen detection; both fail to detect low-density infections. New tests providing... Background. Diagnosis of malaria relies on parasite detection by microscopy or antigen detection; both fail to detect low-density infections. New tests...
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SubjectTerms	Adult Biological and medical sciences Blood - parasitology Female Fundamental and applied biological sciences. Psychology Human protozoal diseases Humans Infectious diseases Major and Brief Reports Malaria Malaria, Falciparum - diagnosis Male Medical sciences Microbiology Microscopy Molecular Diagnostic Techniques - methods Nucleic Acid Amplification Techniques - methods PARASITES Parasitic diseases Parasitology - methods Plasmodium falciparum - genetics Plasmodium falciparum - isolation & purification Protozoal diseases Reagent Kits, Diagnostic Sensitivity and Specificity Travel Medicine - methods
Title	Clinical Evaluation of a Loop-Mediated Amplification Kit for Diagnosis of Imported Malaria
URI	https://www.jstor.org/stable/42580640 https://www.ncbi.nlm.nih.gov/pubmed/23633403 https://search.proquest.com/docview/1412504658 https://pubmed.ncbi.nlm.nih.gov/PMC3719897
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