UMLS:C0024530 - FACTA Search

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Query: UMLS:C0024530 (malaria)
44,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The objective of this study is to develop and evaluate a simple, cheap, and stable positive control for the quality control and quality assurance (QA) of rapid diagnostic tests (RDT) for the diagnosis of malaria. Plasmodium falciparum in vitro culture of known parasite concentrations was dried on a protein saver card, that is, dried blood spots (DBSs). The cards were stored at temperatures ranging from 27 to 60 degrees C from 1 day up to 6 months. Antigens were subsequently eluted from the card giving final concentrations ranging from 30 000 parasites to 300 parasites/microL and tested for stability against RDT based on the antigens parasite lactate dehydrogenase (pLDH), aldolase, and histidine-rich protein 2 (HRP-2). HRP-2 antigens were stable throughout the whole study and yielded positive results irrespective of parasite concentration, storage duration, or temperature, although band intensity differences could be observed when high parasites were compared with low parasite densities. Aldolase was able to generate positive signals for up to 4 weeks irrespective of the storage conditions. Thereafter, intensities decreased proportionally to increasing temperature and storage duration. Thirty thousand parasites per liter could give a signal up to 16 weeks when stored at a temperature of maximum 45 degrees C. However, densities of 300 parasites/microL were not able to generate a signal during the study. pLDH, the least stable of the 3 antigens, was not able to generate a signal after 1 week of storage. The DBS method yields a very stable positive control for quality control and QA of RDTs based on HRP-2. RDTs based on aldolase may also benefit from this method although to a lesser extent because that particular antigen is less stable in the DBS system.
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PMID:Development of a stable positive control to be used for quality assurance of rapid diagnostic tests for malaria. 1937 69

Although highly accurate rapid diagnostic tests (RDT) for Plasmodium falciparum [based on identification of histidine-rich protein-2 (PfHRP2)] have been developed, the accuracy of non-falciparum tests is relatively poor. Recently, a Plasmodium vivax-specific RDT [based on identification of species-specific lactate dehydrogenase (PvLDH)] became available, which along with PfHRP2 may improve malaria diagnosis by identifying the species correctly. A cross-sectional hospital-based study was designed to evaluate the diagnostic accuracy of FalciVax, a commercially available PfHRP2- and PvLDH-based RDT (index test), using malaria microscopy as a reference standard. All consecutive inpatients who presented with fever underwent both the index test and the reference standard. The study sample included 657 patients and the overall sensitivity and specificity of the RDT for diagnosis of any malarial species were 92.9% and 98.4%, respectively. The diagnostic accuracy estimates for correct species identification were lower (sensitivity 91.8%, specificity 96.8%). The accuracy of the PvLDH test to detect P. vivax was low (sensitivity 76.6%, specificity 98.1%).
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PMID:Accuracy of a multispecies rapid diagnostic test kit for detection of malarial parasite at the point of care in a low endemicity region. 1947 76

Plasmodium knowlesi has a relatively broad host range extending to humans, in whom it causes zoonotic malaria. Recent studies have shown that human infection with P. knowlesi is widely distributed in forested areas of Southeast Asia. In the present study, we evaluated commercial rapid diagnostic tests (RDTs) for human malaria to assess their reactivity and sensitivity in detecting P. knowlesi parasites using blood samples obtained from infected monkeys. The blood samples were assayed using two commercial RDTs based on immunochromatographic assays: (i) the OptiMAL-IT, designed to detect parasite lactate dehydrogenase (pLDH) of both P. falciparum and other plasmodia, and (ii) the Entebe Malaria Cassette (MC), designed to detect P. falciparum-specific histidine-rich protein 2 (PfHRP2) and P. vivax-specific pLDH. Interestingly, when the P. knowlesi-infected blood samples were examined with the RDTs, OptiMAL test results were interpreted as falciparum malaria-positive, while Entebe MC test results were interpreted as vivax malaria-positive. The sensitivities of both tests in detecting P. knowlesi parasite were similar to those for P. falciparum and higher than P. vivax. Thus, commercial RDTs based on detection of pLDH should be used with great caution, and should not replace conventional microscopy in the diagnosis of suspected cases of P. knowlesi malaria.
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PMID:Cross-reactivity in rapid diagnostic tests between human malaria and zoonotic simian malaria parasite Plasmodium knowlesi infections. 1952 97

The emergence and wide dissemination of drug-resistant malarial parasites underscore the need to prevent post-transfusion malaria. In Nigeria, as in most of sub-Saharan Africa, however, blood donors are not routinely screened for malarial infection. Recently, 391 consecutive potential blood donors in a malaria-endemic area of south-western Nigeria were each checked for malarial parasitaemia using three methods: microscopy (all samples), OptiMAL (315 samples) and/or the Clinotech Malaria Cassette (142 samples). OptiMAL detects parasite-specific lactate dehydrogenase whereas the Clinotech test detects the surface proteins of merozoites and sporozoites. Microscopy revealed parasitaemias in 79 (20.2%) of the potential donors, the levels of parasitaemia varying from 34 to 6289 asexual parasites/microl (mean=445/microl). The prevalence of malarial parasitaemia, as detected by microscopy, was significantly higher during the rainy season than in the dry season (27.3% v. 5.5%; P<0.0001). There was no significant association between patent parasitaemia and fever (i.e. an axillary temperature > or =37.5 degrees C), blood group, gender or anaemia. The corresponding prevalences of malarial parasitaemia detected using the rapid diagnostic tests were 3.8% (12/315) for OptiMAL and 57.8% (82/142) for the Clinotech. With the results of the microscopy used as the 'gold standard', OptiMAL gave a sensitivity of only 16.0% but a specificity of 98.5%. The corresponding values for the Clinotech tests were 69.2% and 50.0%, respectively. It would clearly be beneficial to include screening for malaria parasitaemia in the routine investigation of potential blood donors in Nigeria, especially during the rainy season, when the risk of transfusion-transmitted malaria appears relatively high.
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PMID:Blood banking in a malaria-endemic area: evaluating the problem posed by malarial parasitaemias. 1958 9

The malaria parasite thrives on anaerobic fermentation of glucose for energy. Earlier studies from our laboratory have demonstrated that a cytosolic malate dehydrogenase (PfMDH) with striking similarity to lactate dehydrogenase (PfLDH) might complement PfLDH function in Plasmodium falciparum. The N-terminal glycine motif, which forms a characteristic Rossman dinucleotide-binding fold in the co-substrate binding pocket, differentiates PfMDH (GlyXGlyXXGly) from other eukaryotic and prokaryotic malate dehydrogenases (GlyXXGlyXXGly). The amino acids lining the co-substrate binding pocket are completely conserved in MDHs from different species of human, primate and rodent malaria parasites. Based on this knowledge and conserved domains among prokaryotic and eukaryotic MDH, the role of critical amino acids lining the co-substrate binding pocket was analyzed in catalytic functions of PfMDH using site-directed mutagenesis. Insertion of Ala at the 9th or 10th position, which converts the N-terminal GlyXGlyXXGly motif (characteristic of malarial MDH and LDH) to GlyXXGlyXXGly (as in bacterial and eukaryotic MDH), uncoupled regulation of the enzyme through substrate inhibition. The dinucleotide fold GlyXGlyXXGly motif seems not to be responsible for the distinct affinity of PfMDH to 3-acetylpyridine-adenine dinucleotide (APAD, a synthetic analog of NAD), since Ala9 and Ala10 insertion mutants still utilized APADH. The Gln11Met mutation, which converts the signature glycine motif in PfMDH to that of PfLDH, did not change the enzyme function. However, the Gln11Gly mutant showed approximately a 5-fold increase in catalytic activity, and higher susceptibility to inhibition with gossypol. Asn119 and His174 participate in binding of both co-substrate and substrate. The Asn119Gly mutant exhibited approximately a 3-fold decrease in catalytic efficiency, while mutation of His174 to Asn or Ala resulted in an inactive enzyme. These studies provide critical insights into the co-substrate binding pocket of PfMDH, which may be important in design of selective PfMDH/PfLDH inhibitors as potential antimalarials.
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PMID:Structure and function of Plasmodium falciparum malate dehydrogenase: role of critical amino acids in co-substrate binding pocket. 1977 85

In many different species, lactate dehydrogenase (LDH) constitutes a major checkpoint of anaerobic glycolysis, by catalyzing the reduction of pyruvate into lactate. This enzyme has recently received a great deal of attention since it may constitute a valid therapeutic target for diseases so different as malaria and cancer. In fact, the isoform expressed by Plasmodium falciparum (pfLDH) is a key enzyme for energy generation of malarial parasites. These species mostly depend on anaerobic glycolysis for energy production, since they lack a citric acid cycle for ATP formation. Therefore, inhibitors of pfLDH would potentially cause mortality of P. falciparum and, to this purpose, several small organic molecules have been recently designed and developed with the aim of blocking this new potential antimalarial chemotherapeutic target. Moreover, most invasive tumour phenotypes show a metabolic switch (Warburg effect) from oxidative phosphorylation to an increased anaerobic glycolysis, by promoting an upregulation of the human isoform-5 of lactate dehydrogenase (hLDH-5 or LDH-A), which is normally present in muscles and in the liver. Hence, inhibition of hLDH-5 may constitute an efficient way to interfere with tumour growth and invasiveness. This review provides an overview of the LDH inhibitors that have been developed up to now, an analysis of their possible isoform-selectivity, and their therapeutic potentials.
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PMID:Inhibitors of lactate dehydrogenase isoforms and their therapeutic potentials. 2008 61

Malaria lactate dehydrogenase, a glycolytic enzyme, is a malaria diagnostic target in lateral flow immunochromatographic rapid diagnostic tests. Recombinant Plasmodium yoelii LDH was cloned into the pET-28a vector, expressed and the expressed protein purified from a Ni-NTA affinity matrix. A pan-malarial LDH antibody directed against a common malaria LDH peptide (APGKSDKEWNRDDLL) and two anti-peptide antibodies, each targeting a unique Plasmodium falciparum (LISDAELEAIFDC) and Plasmodium vivax (KITDEEVEGIFDC) LDH peptide were raised in chickens. The antibodies were affinity purified with the appropriate peptide affinity matrix. The affinity purified anti-peptide antibodies detected recombinant P. falciparum, P. vivax and P. yoelii LDH and native P. falciparum and P. yoelii LDH in western blots and immunofluorescence studies. The pan-malarial antibody detected LDH from the three malaria species in western blots. The species-specific anti-peptide antibodies differentiated between P. falciparum and P. vivax LDH. Affinity purified chicken antibodies against recombinant PfLDH, PvLDH and PyLDH proteins each detected the parent and orthologous proteins with similar titers in an ELISA. The study supports an anti-peptide antibody approach to the development of diagnostic reagents.
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PMID:Anti-peptide antibodies differentiate between plasmodial lactate dehydrogenases. 2009 60

The aim of this retrospective study was to evaluate the Immunoquick+4 (BioSynex, Strasbourg, France), a three-band malaria rapid diagnostic test (MRDT) targeting histidine-rich protein-2 (HRP-2) and pan Plasmodium-specific parasite lactate dehydrogenase, in a non-endemic reference setting. Stored whole-blood samples (n = 613) from international travellers suspected of malaria were used, with microscopy corrected by polymerase chain reaction (PCR) as the reference method. Samples infected by P. falciparum (n = 323), P. vivax (n = 97), P. ovale (n = 73) and P. malariae (n = 25) were selected, as well as 95 malaria-negative samples. The overall sensitivities of the Immunoquick+4 for the diagnosis of P. falciparum, P. vivax, P. malariae and P. ovale were 88.9, 75.3, 56.0 and 19.2%, respectively. Sensitivity was significantly related to parasite density for P. falciparum (93.6% versus 71.4% at parasite densities >100/microl and <or=100/microl, respectively) and P. vivax (86.8% versus 48.3% at parasite densities >500/microl and <or=500/microl, respectively). The Immunoquick+4 showed good reproducibility and reliability for both test results and line intensities. The Immunoquick+4 performed well for the detection of P. falciparum and P. vivax.
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PMID:Evaluation of the Immunoquick+4 malaria rapid diagnostic test in a non-endemic setting. 2023

The diagnosis of malaria in biological fluids other than blood using non-invasive, rapid diagnostic techniques provides a valuable approach in case management and epidemiological studies of malaria. Rapid detection of Plasmodium falciparum lactate dehydrogenase (pLDH) in saliva samples from 130 of 144 children with microscopically confirmed P. falciparum infection was evaluated using Optimal-IT dipsticks. Genotyping of parasites was also performed in saliva and blood samples from a cohort of patients by polymerase chain reaction (PCR). The sensitivity of the dipstick in whole-blood, whole-saliva, or supernatant of spun saliva samples was 97.2%, 77.9%, and 48.4%, respectively. The sensitivity of the dipstick in whole-saliva samples was significantly higher than in supernatant of spun saliva samples (P < 0.0005). Mutant T76 allele was detectable in 60% and 57% of blood and saliva samples, respectively. This finding shows rapid detection of pLDH in patient saliva.
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PMID:Rapid detection of lactate dehydrogenase and genotyping of Plasmodium falciparum in saliva of children with acute uncomplicated malaria. 2081 Aug 9

Previous studies showed that Anopheles gambiae L3-5 females, which are refractory (R) to Plasmodium infection, express higher levels of genes involved in redox-metabolism and mitochondrial respiration than susceptible (S) G3 females. Our studies revealed that R females have reduced longevity, faster utilization of lipid reserves, impaired mitochondrial state-3 respiration, increased rate of mitochondrial electron leak and higher expression levels of several glycolytic enzyme genes. Furthermore, when state-3 respiration was reduced in S females by silencing expression of the adenine nucleotide translocator (ANT), hydrogen peroxide generation was higher and the mRNA levels of lactate dehydrogenase increased in the midgut, while the prevalence and intensity of Plasmodium berghei infection were significantly reduced. We conclude that there are broad metabolic differences between R and S An. gambiae mosquitoes that influence their susceptibility to Plasmodium infection.
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PMID:Energy metabolism affects susceptibility of Anopheles gambiae mosquitoes to Plasmodium infection. 2132 May 98

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