19,448 results on '"PLASMODIUM vivax"'
Search Results
2. Genetic structure of introduced 'Plasmodium vivax' malaria isolates in Greece, 2015-2019
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Spiliopoulou, Ioanna, Pervanidou, Danai, Tegos, Nikolaos, Tseroni, Maria, Baka, Agoritsa, Vakali, Annita, Kefaloudi, Chrisovaladou-Niki, Papavasilopoulos, Vasilios, Mpimpa, Anastasia, and Patsoula, Eleni
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- 2024
3. Spatiotemporal distribution of malaria in the Kingdom of Saudi Arabia
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Elagali, Ahmed, Shubayr, Mosa, Noureldin, Elsiddig, Alene, Kefyalew Addis, and Elagali, Asmaa
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- 2024
4. Epidemiology of Plasmodium vivax in Duffy negatives and Duffy positives from community and health centre collections in Ethiopia.
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Bradley, Lauren, Yewhalaw, Delenasaw, Hemming-Schroeder, Elizabeth, Jeang, Brook, Lee, Ming-Chieh, Zemene, Endalew, Degefa, Teshome, Lo, Eugenia, King, Christopher, Kazura, James, and Yan, Guiyun
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Plasmodium vivax ,Duffy blood group ,Gene copy number ,Malaria ,qPCR ,Humans ,Plasmodium vivax ,Malaria ,Vivax ,Ethiopia ,Public Health ,Malaria ,Falciparum ,Fever ,Health Facilities - Abstract
BACKGROUND: Malaria remains a significant cause of morbidity and mortality in Ethiopia with an estimated 3.8 million cases in 2021 and 61% of the population living in areas at risk of malaria transmission. Throughout the country Plasmodium vivax and Plasmodium falciparum are co-endemic, and Duffy expression is highly heterogeneous. The public health significance of Duffy negativity in relation to P. vivax malaria in Ethiopia, however, remains unclear. This study seeks to explore the prevalence and rates of P. vivax malaria infection across Duffy phenotypes in clinical and community settings. METHODS: A total of 9580 and 4667 subjects from community and health facilities from a malaria endemic site and an epidemic-prone site in western Ethiopia were enrolled and examined for P. vivax infection and Duffy expression from February 2018 to April 2021. Association between Duffy expression, P. vivax and P. falciparum infections were examined for samples collected from asymptomatic community volunteers and symptomatic subjects from health centres. RESULTS: Infection rate of P. vivax among Duffy positives was 2-22 fold higher than Duffy negatives in asymptomatic volunteers from the community. Parasite positivity rate was 10-50 fold higher in Duffy positives than Duffy negatives among samples collected from febrile patients attending health centres and mixed P. vivax and P. falciparum infections were significantly more common than P. vivax mono infections among Duffy negative individuals. Plasmodium vivax parasitaemia measured by 18sRNA parasite gene copy number was similar between Duffy positives and Duffy negatives. CONCLUSIONS: Duffy negativity does not offer complete protection against infection by P. vivax, and cases of P. vivax in Duffy negatives are widespread in Ethiopia, being found in asymptomatic volunteers from communities and in febrile patients from health centres. These findings offer evidence for consideration when developing control and intervention strategies in areas of endemic P. vivax and Duffy heterogeneity.
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- 2024
5. Relationship between Duffy genotype/phenotype and prevalence of 'Plasmodium vivax' infection: A systematic review
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Picon-Jaimes, Yelson Alejandro, Lozada-Martinez, Ivan David, Orozco-Chinome, Javier Esteban, Molina-Franky, Jessica, Acevedo-Lopez, Domenica, Acevedo-Lopez, Nicole, Bolano-Romero, Maria Paz, Visconti-Lopez, Fabriccio J, Bonilla-Aldana, D Katterine, and RodrIguez-Morales, Alfonso J
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- 2023
6. Efficacy of Focal Primaquine Mass Administration for Eliminating Plasmodium Vivax Malaria in Northern Myanmar
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University of South Florida, Mahidol University, and Pyae Linn Aung, Secretary
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- 2024
7. Effectiveness of Novel Approaches to Radical Cure With Tafenoquine and Primaquine (EFFORT)
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University of Melbourne, National Centre for Parasitology, Entomology and Malaria Control, Cambodia, Mahidol Oxford Tropical Medicine Research Unit, Ethiopian Public Health Institute, Universitas Sumatera Utara, Arba Minch University, and Aga Khan University
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- 2024
8. Profiling the antibody response of humans protected by immunization with Plasmodium vivax radiation-attenuated sporozoites.
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Lopez-Perez, Mary, Jain, Aarti, Davies, D, Vásquez-Jiménez, Juan, Herrera, Sonia, Oñate, José, Felgner, Philip, Herrera, Sócrates, and Arévalo-Herrera, Myriam
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Animals ,Humans ,Plasmodium vivax ,Sporozoites ,Antibody Formation ,Immunization ,Vaccination ,Malaria ,Malaria ,Falciparum ,Malaria ,Vivax ,Malaria Vaccines ,Plasmodium falciparum - Abstract
Malaria sterile immunity has been reproducibly induced by immunization with Plasmodium radiation-attenuated sporozoites (RAS). Analyses of sera from RAS-immunized individuals allowed the identification of P. falciparum antigens, such as the circumsporozoite protein (CSP), the basis for the RTS, S and R21Matrix-M vaccines. Similar advances in P. vivax (Pv) vaccination have been elusive. We previously reported 42% (5/12) of sterile protection in malaria-unexposed, Duffy-positive (Fy +) volunteers immunized with PvRAS followed by a controlled human malaria infection (CHMI). Using a custom protein microarray displaying 515 Pv antigens, we found a significantly higher reactivity to PvCSP and one hypothetical protein (PVX_089630) in volunteers protected against P. vivax infection. In mock-vaccinated Fy + volunteers, a strong antibody response to CHMI was also observed. Although the Fy- volunteers immunized with non-irradiated Pv-infected mosquitoes (live sporozoites) did not develop malaria after CHMI, they recognized a high number of antigens, indicating the temporary presence of asexual parasites in peripheral blood. Together, our findings contribute to the understanding of the antibody response to P. vivax infection and allow the identification of novel parasite antigens as vaccine candidates.Trial registration: ClinicalTrials.gov number: NCT01082341.
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- 2024
9. Forest-goers as a heterogeneous population at high-risk for malaria: a case-control study in Aceh Province, Indonesia.
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Gallalee, Sarah, Zarlinda, Iska, Silaen, Martha, Cotter, Chris, Cueto, Carmen, Elyazar, Iqbal, Jacobson, Jerry, Gosling, Roly, Hsiang, Michelle, Bennett, Adam, Coutrier, Farah, and Smith, Jennifer
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Forest-goers ,High-risk populations ,Indonesia ,Malaria ,Malaria elimination ,Plasmodium knowlesi ,Plasmodium vivax ,Surveillance ,Male ,Humans ,Indonesia ,Case-Control Studies ,Malaria ,Malaria ,Vivax ,Forests - Abstract
BACKGROUND: A major challenge to malaria elimination is identifying and targeting populations that are harbouring residual infections and contributing to persistent transmission. In many near-elimination settings in Southeast Asia, it is known that forest-goers are at higher risk for malaria infection, but detailed information on their behaviours and exposures is not available. METHODS: In Aceh Province, Indonesia, a near-elimination setting where a growing proportion of malaria is due to Plasmodium knowlesi, a case-control study was conducted to identify risk factors for symptomatic malaria, characteristics of forest-goers, and key intervention points. From April 2017 to September 2018, cases and controls were recruited and enrolled in a 1:3 ratio. Cases had confirmed malaria infection by rapid diagnostic test or microscopy detected at a health facility (HF). Gender-matched controls were recruited from passive case detection among individuals with suspected malaria who tested negative at a health facility (HF controls), and community-matched controls were recruited among those testing negative during active case detection. Multivariable logistic regression (unconditional for HF controls and conditional for community controls) was used to identify risk factors for symptomatic malaria infection. RESULTS: There were 45 cases, of which 27 were P. knowlesi, 17 were Plasmodium vivax, and one was not determined. For controls, 509 and 599 participants were recruited from health facilities and the community, respectively. Forest exposures were associated with high odds of malaria; in particular, working and sleeping in the forest (HF controls: adjusted odds ratio (aOR) 21.66, 95% CI 5.09-92.26; community controls: aOR 16.78, 95% CI 2.19-128.7) and having a second residence in the forest (aOR 6.29, 95% CI 2.29-17.31 and 13.53, 95% CI 2.10-87.12). Male forest-goers were a diverse population employed in a variety of occupations including logging, farming, and mining, sleeping in settings, such as huts, tents, and barracks, and working in a wide range of group sizes. Reported use of protective measures, such as nets, hammock nets, mosquito coils, and repellents was low among forest-goers and interventions at forest residences were absent. CONCLUSIONS: Second residences in the forest and gaps in use of protective measures point to key malaria interventions to improve coverage in forest-going populations at risk for P. knowlesi and P. vivax in Aceh, Indonesia. Intensified strategies tailored to specific sub-populations will be essential to achieve elimination.
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- 2024
10. Malaria elimination in Africa: Rethinking strategies for 'Plasmodium vivax' and lessons from Botswana
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Quaye, Isaac K, Aleksenko, Larysa, Paganotti, Giacomo M, Peloewetse, Elias, Haiyambo, Daniel H, Ntebela, Davies, Oeuvray, Claude, and Greco, Beatrice
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- 2023
11. Intervention portfolios analysis of Plasmodium vivax control in central China.
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Bi, Bo, Wu, Logan, Liu, Ying, Zhou, Xiao-Nong, Shen, Tianren, Cao, Li, White, Michael, and Yang, Guo-Jing
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PLASMODIUM vivax , *MALARIA prevention , *MALARIA , *VECTOR control , *DRUG administration - Abstract
Background: The effects of a diverse spectrum of malaria interventions were evaluated through a deterministic Plasmodium vivax transmission model. This approach aimed to provide theoretical evidence of the performance of these interventions once implemented for achieving malaria elimination. Methods: An integrated intervention portfolio, including mass drug administration, insecticide treatment, and untreated bed nets, was analyzed through modeling. Additionally, data-driven calibration was implemented to infer coverages that effectively reproduced historical malaria patterns in China from 1971 to 1983. Results: MDA utilizing primaquine emerged as the most effective single intervention, achieving a 70% reduction in malaria incidence when implemented at full coverage. Furthermore, a strategic combination of MDA with primaquine, chloroquine, untreated bed nets, and seasonal insecticide treatments effectively eradicated malaria, attaining elimination at a coverage level of 70%. It was conclusively demonstrated that an integrated approach combining MDA and vector control measures is essential for the successful elimination of malaria. Conclusion: High coverage of mass drug administration with primaquine and chloroquine before transmission was the key driver of the malaria decline in China from 1971 to 1983. The best-fit intervention coverage combinations derived from calibration are provided as a reference for malaria control in other countries. [ABSTRACT FROM AUTHOR]
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- 2024
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12. Lineage-informative microhaplotypes for recurrence classification and spatio-temporal surveillance of Plasmodium vivax malaria parasites.
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Siegel, Sasha V., Trimarsanto, Hidayat, Amato, Roberto, Murie, Kathryn, Taylor, Aimee R., Sutanto, Edwin, Kleinecke, Mariana, Whitton, Georgia, Watson, James A., Imwong, Mallika, Assefa, Ashenafi, Rahim, Awab Ghulam, Nguyen, Hoang Chau, Tran, Tinh Hien, Green, Justin A., Koh, Gavin C. K. W., White, Nicholas J., Day, Nicholas, Kwiatkowski, Dominic P., and Rayner, Julian C.
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WHOLE genome sequencing ,PLASMODIUM vivax ,PLASMODIUM ,DISEASE relapse ,TREATMENT failure ,MALARIA - Abstract
Challenges in classifying recurrent Plasmodium vivax infections constrain surveillance of antimalarial efficacy and transmission. Recurrent infections may arise from activation of dormant liver stages (relapse), blood-stage treatment failure (recrudescence) or reinfection. Molecular inference of familial relatedness (identity-by-descent or IBD) can help resolve the probable origin of recurrences. As whole genome sequencing of P. vivax remains challenging, targeted genotyping methods are needed for scalability. We describe a P. vivax marker discovery framework to identify and select panels of microhaplotypes (multi-allelic markers within small, amplifiable segments of the genome) that can accurately capture IBD. We evaluate panels of 50–250 microhaplotypes discovered in a global set of 615 P. vivax genomes. A candidate global 100-microhaplotype panel exhibits high marker diversity in the Asia-Pacific, Latin America and horn of Africa (median H
E = 0.70–0.81) and identifies 89% of the polyclonal infections detected with genome-wide datasets. Data simulations reveal lower error in estimating pairwise IBD using microhaplotypes relative to traditional biallelic SNP barcodes. The candidate global panel also exhibits high accuracy in predicting geographic origin and captures local infection outbreak and bottlenecking events. Our framework is open-source enabling customised microhaplotype discovery and selection, with potential for porting to other species or data resources. This work describes an informatic framework to identify multi-allelic markers in the genome of the malaria-causing Plasmodium vivax parasite that can inform on familial relatedness between infections. Spatial and temporal transmission patterns are demonstrated with an example marker set. [ABSTRACT FROM AUTHOR]- Published
- 2024
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13. Epidemiological profile of malaria in a rural community in the Amazon, Mato Grosso State, Brazil, 2011.
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de Oliveira, Elaine Cristina, dos Santos, Emerson Soares, Junior, Paulo Antonio Ferreira, Atanaka-Santos, Marina, Leite, Maria Clara Pereira, Terças, Ana Cláudia Pereira, de Lemos, Elba Regina Sampaio, and Fontes, Cor Jesus Fernandes
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MIXED infections , *GOLD mining , *BLOOD collection , *PLASMODIUM vivax , *PLASMODIUM falciparum - Abstract
Background: More than 95% of malaria transmission in Brazil occurs in the Legal Amazon Region, which in 2010 recorded around 333,429 cases reported in the Epidemiological Surveillance Information System-Malaria (Sivep_malaria), presenting an annual parasitic incidence (IPA) of 13.1 cases/1000 inhabitants. Methods: This was a descriptive study that measured the community prevalence of Plasmodium infection and its relationship with land use in Três Fronteiras District, Colniza Municipality, Mato Grosso State. Data were collected during household visits in July 2011, with blood collection from finger pricks for the preparation of thick smear slides, and completion of a standardized case notification form. A georeferenced database was analysed, with land use evaluated as categorical variables. A kernel density map was built to show the density of cases and their location. Results: Of the 621 respondents, 68(11%) had Plasmodium infection: 39 (57.4%) with Plasmodium vivax, 27(39.7%) with Plasmodium falciparum and two (2.9%) with mixed infections. Among infected individuals, 49 (72.1%) were men. Cases of malaria were distributed over the district, with greater occurrence of cases per household in open areas close to the mining company and artisanal mining sites. The was a greater density of cases located in the gold mining region. Conclusion: Transmission of malaria in Três Fronteiras District has a heterogeneous distribution. Individuals residing in mining and timber extraction sites have increased occurrence of Plasmodium infection. [ABSTRACT FROM AUTHOR]
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- 2024
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14. Spatiotemporal patterns and association with climate for malaria elimination in Lao PDR: a hierarchical modelling analysis with two-step Bayesian model selection.
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Rotejanaprasert, Chawarat, Malaphone, Vilayvone, Mayxay, Mayfong, Chindavongsa, Keobouphaphone, Banouvong, Virasack, Khamlome, Boualam, Vilay, Phoutnalong, Vanisavaeth, Viengxay, and Maude, Richard J.
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RAINFALL , *WEATHER , *PLASMODIUM vivax , *MALARIA prevention , *ATMOSPHERIC models - Abstract
Background: The government of Lao PDR has increased efforts to control malaria transmission in order to reach its national elimination goal by 2030. Weather can influence malaria transmission dynamics and should be considered when assessing the impact of elimination interventions but this relationship has not been well characterized in Lao PDR. This study examined the space–time association between climate variables and Plasmodium falciparum and Plasmodium vivax malaria incidence from 2010 to 2022. Methods: Spatiotemporal Bayesian modelling was used to investigate the monthly relationship, and model selection criteria were used to evaluate the performance of the models and weather variable specifications. As the malaria control and elimination situation was spatially and temporally dynamic during the study period, the association was examined annually at the provincial level. Results: Malaria incidence decreased from 2010 to 2022 and was concentrated in the southern regions for both P. falciparum and P. vivax. Rainfall and maximum humidity were identified as most strongly associated with malaria during the study period. Rainfall was associated with P. falciparum incidence in the north and central regions during 2010–2011, and with P. vivax incidence in the north and central regions during 2012–2015. Maximum humidity was persistently associated with P. falciparum and P. vivax incidence in the south. Conclusions: Malaria remains prevalent in Lao PDR, particularly in the south, and the relationship with weather varies between regions but was strongest for rainfall and maximum humidity for both species. During peak periods with suitable weather conditions, vector control activities and raising public health awareness on the proper usage of intervention measures, such as indoor residual spraying and personal protection, should be prioritized. [ABSTRACT FROM AUTHOR]
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- 2024
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15. A transfer learning approach to identify Plasmodium in microscopic images.
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Ramos, Jonathan da Silva, Vieira, Ivo Henrique Provensi, Rocha, Wan Song, Esquerdo, Rosimar Pires, Watanabe, Carolina Yukari Veludo, and Zanchi, Fernando Berton
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SUPERVISED learning , *PATTERN recognition systems , *COMPUTER-aided diagnosis , *PLASMODIUM vivax , *PLASMODIUM falciparum - Abstract
Plasmodium parasites cause Malaria disease, which remains a significant threat to global health, affecting 200 million people and causing 400,000 deaths yearly. Plasmodium falciparum and Plasmodium vivax remain the two main malaria species affecting humans. Identifying the malaria disease in blood smears requires years of expertise, even for highly trained specialists. Literature studies have been coping with the automatic identification and classification of malaria. However, several points must be addressed and investigated so these automatic methods can be used clinically in a Computer-aided Diagnosis (CAD) scenario. In this work, we assess the transfer learning approach by using well-known pre-trained deep learning architectures. We considered a database with 6222 Region of Interest (ROI), of which 6002 are from the Broad Bioimage Benchmark Collection (BBBC), and 220 were acquired locally by us at Fundação Oswaldo Cruz (FIOCRUZ) in Porto Velho Velho, Rondônia—Brazil, which is part of the legal Amazon. We exhaustively cross-validated the dataset using 100 distinct partitions with 80% train and 20% test for each considering circular ROIs (rough segmentation). Our experimental results show that DenseNet201 has a potential to identify Plasmodium parasites in ROIs (infected or uninfected) of microscopic images, achieving 99.41% AUC with a fast processing time. We further validated our results, showing that DenseNet201 was significantly better (99% confidence interval) than the other networks considered in the experiment. Our results support claiming that transfer learning with texture features potentially differentiates subjects with malaria, spotting those with Plasmodium even in Leukocytes images, which is a challenge. In Future work, we intend scale our approach by adding more data and developing a friendly user interface for CAD use. We aim at aiding the worldwide population and our local natives living nearby the legal Amazon's rivers. Author summary: Malaria remains a significant threat to global health, affecting 200 million people and causing 400,000 deaths annually. Performing a reliable and efficient diagnosis still requires high-cost human training especially in needy and endemic regions. In Brazil, the main pathogen causing the cases is Plasmodium vivax with about 99% of malaria cases. Currently, in the era of artificial intelligence, we have at our disposal numerous algorithms with different variations applicable to the problem of pattern recognition in images. In this work, we performed the procedure known as supervised machine learning in which we used known data of cells infected with Plasmodium vivax including results of local data analysis. We used these data to train several networks and then applied them to real data in the form of training to verify the ability to identify Plasmodium in this new set. In our approach, we achieved in all approaches nothing less than 96% accuracy and in one case 99.41% accuracy. Thus, we fully demonstrate the possibility of using the methodology to develop a user-friendly interface to assist health agents in performing effective and efficient diagnosis even in hard-to-reach regions of our Amazon region. [ABSTRACT FROM AUTHOR]
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- 2024
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16. Monoamine oxidase-A (MAO-A) low-expression variants and increased risk of Plasmodium vivax malaria relapses.
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Puça, Maria Carolina Silva De Barros, Rodrigues, Danielle Fonseca, Salazar, Yanka Evellyn Alves Rodrigues, Louzada, Jaime, Fontes, Cor Jesus Fernandes, Daher, André, Pereira, Dhélio Batista, Vieira, José Luiz Fernandes, Carvalho, Luzia Helena, Brito, Cristiana Ferreira Alves de, Gil, José Pedro, and Sousa, Tais Nobrega de
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CYTOCHROME P-450 , *CYTOCHROME P-450 CYP2D6 , *PLASMODIUM vivax , *MALARIA , *GENETIC polymorphisms - Abstract
Objectives Primaquine is essential for the radical cure of Plasmodium vivax malaria and must be metabolized into its bioactive metabolites. Accordingly, polymorphisms in primaquine-metabolizing enzymes can impact the treatment efficacy. This pioneering study explores the influence of monoamine oxidase-A (MAO-A) on primaquine metabolism and its impact on malaria relapses. Methods Samples from 205 patients with P. vivax malaria were retrospectively analysed by genotyping polymorphisms in MAO-A and cytochrome P450 2D6 (CYP2D6) genes. We measured the primaquine and carboxyprimaquine blood levels in 100 subjects for whom blood samples were available on the third day of treatment. We also examined the relationship between the enzyme variants and P. vivax malaria relapses in a group of subjects with well-documented relapses. Results The median carboxyprimaquine level was significantly reduced in individuals carrying low-expression MAO-A alleles plus impaired CYP2D6. In addition, this group experienced significantly more P. vivax relapses. The low-expression MAO-A status was not associated with malaria relapses when CYP2D6 had normal activity. This suggests that the putative carboxyprimaquine contribution is irrelevant when the CYP2D6 pathway is fully active. Conclusions We found evidence that the low-expression MAO-A variants can potentiate the negative impact of impaired CYP2D6 activity, resulting in lower levels of carboxyprimaquine metabolite and multiple relapses. The findings support the hypothesis that carboxyprimaquine may be further metabolized through CYP-mediated pathways generating bioactive metabolites that act against the parasite. [ABSTRACT FROM AUTHOR]
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- 2024
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17. Structure‐based design of a Plasmodium vivax Duffy‐binding protein immunogen focuses the antibody response to functional epitopes.
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Dickey, Thayne H., McAleese, Holly, Salinas, Nichole D., Lambert, Lynn E., and Tolia, Niraj H.
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The Duffy‐binding protein (DBP) is a promising antigen for a malaria vaccine that would protect against clinical symptoms caused by Plasmodium vivax infection. Region II of DBP (DBP‐II) contains the receptor‐binding domain that engages host red blood cells, but DBP‐II vaccines elicit many non‐neutralizing antibodies that bind distal to the receptor‐binding surface. Here, we engineered a truncated DBP‐II immunogen that focuses the immune response to the receptor‐binding surface. This immunogen contains the receptor‐binding subdomain S1S2 and lacks the immunodominant subdomain S3. Structure‐based computational design of S1S2 identified combinatorial amino acid changes that stabilized the isolated S1S2 without perturbing neutralizing epitopes. This immunogen elicited DBP‐II‐specific antibodies in immunized mice that were significantly enriched for blocking activity compared to the native DBP‐II antigen. This generalizable design process successfully stabilized an integral core fragment of a protein and focused the immune response to desired epitopes to create a promising new antigen for malaria vaccine development. [ABSTRACT FROM AUTHOR]
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- 2024
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18. Detection through the use of RT-MqPCR of asymptomatic reservoirs of malaria in samples of patients from the indigenous Comarca of Guna Yala, Panama: Essential method to achieve the elimination of malaria.
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Cáceres Carrera, Lorenzo, Santamaría, Ana María, Castillo, Anakena Margarita, Romero, Luis, Urriola, Eduardo, Torres-Cosme, Rolando, and Calzada, José Eduardo
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MALARIA , *ENDEMIC diseases , *ASYMPTOMATIC patients , *MALARIA prevention , *PLASMODIUM vivax , *GENETIC transcription - Abstract
Background: Plasmodium vivax is the main causative agent of malaria in Panama. However, the prevalence of asymptomatic infections in the different endemic regions remains unknown. Understanding the epidemiological behavior of asymptomatic infections is essential for the elimination of malaria. This study aimed to determine the prevalence of asymptomatic malarial infections in one of the main endemic regions of Panama using multiplex real-time reverse transcription RT-MqPCR. Methods: A cross-sectional study was conducted in three communities in the Guna Yala Comarca. A total of 551 thick blood smears and their respective samples on filter paper were collected from volunteers of different ages and sexes from June 20 to 25, 2016. Infections by the Plasmodium spp. were diagnosed using microscopy and RT-MqPCR. All statistical analyses were performed using the R software. Results: The average prevalence of asymptomatic infections by P. vivax in the three communities detected by RT-MqPCR was 9.3%, with Ukupa having the highest prevalence (13.4%), followed by Aidirgandi (11.1%) and Irgandi (3.3%). A total of 74 samples were diagnosed as asymptomatic infections using RT-MqPCR. Light microscopy (LM) detected that 17.6% (13/74) of the asymptomatic samples and 82.4% (61/74) were diagnosed as false negatives. A 100% correlation was observed between samples diagnosed using LM and RT-MqPCR. A total of 52.7% (39/74) of the asymptomatic patients were female and 85.1% (63/74) were registered between the ages of 1 and 21 years. Factors associated with asymptomatic infection were community (aOR = 0.38 (95% CI 0.17–0.83), p < 0.001) and age aOR = 0.98 (95% CI 0.97–1.00), p < 0.05); F = 5.38; p < 0.05). Conclusions: This study provides novel evidence of the considerable prevalence of asymptomatic P. vivax infections in the endemic region of Kuna Yala, representing a new challenge that requires immediate attention from the National Malaria Program. The results of this study provide essential information for the health authorities responsible for developing new policies. Furthermore, it will allow program administrators to reorient and design effective malaria control strategies that consider asymptomatic infections as a fundamental part of malaria control and move towards fulfilling their commitment to eliminate it. [ABSTRACT FROM AUTHOR]
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- 2024
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19. Influence of environmental, geographic, socio-demographic, and epidemiological factors on presence of malaria at the community level in two continents.
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Villena, Oswaldo C., Arab, Ali, Lippi, Catherine A., Ryan, Sadie J., and Johnson, Leah R.
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MALARIA , *MOSQUITO-borne diseases , *MOSQUITO control , *REGRESSION trees , *PLASMODIUM vivax , *INFECTIOUS disease transmission , *PLASMODIUM falciparum - Abstract
The interactions of environmental, geographic, socio-demographic, and epidemiological factors in shaping mosquito-borne disease transmission dynamics are complex and changeable, influencing the abundance and distribution of vectors and the pathogens they transmit. In this study, 27 years of cross-sectional malaria survey data (1990–2017) were used to examine the effects of these factors on Plasmodium falciparum and Plasmodium vivax malaria presence at the community level in Africa and Asia. Monthly long-term, open-source data for each factor were compiled and analyzed using generalized linear models and classification and regression trees. Both temperature and precipitation exhibited unimodal relationships with malaria, with a positive effect up to a point after which a negative effect was observed as temperature and precipitation increased. Overall decline in malaria from 2000 to 2012 was well captured by the models, as was the resurgence after that. The models also indicated higher malaria in regions with lower economic and development indicators. Malaria is driven by a combination of environmental, geographic, socioeconomic, and epidemiological factors, and in this study, we demonstrated two approaches to capturing this complexity of drivers within models. Identifying these key drivers, and describing their associations with malaria, provides key information to inform planning and prevention strategies and interventions to reduce malaria burden. [ABSTRACT FROM AUTHOR]
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- 2024
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20. Plasmodium vivax genomic surveillance in the Peruvian Amazon with Pv AmpliSeq assay.
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Kattenberg, Johanna Helena, Cabrera-Sosa, Luis, Figueroa-Ildefonso, Erick, Mutsaers, Mathijs, Monsieurs, Pieter, Guetens, Pieter, Infante, Berónica, Delgado-Ratto, Christopher, Gamboa, Dionicia, and Rosanas-Urgell, Anna
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PLASMODIUM vivax , *TRYPANOSOMA , *PLASMODIUM , *PARACOCCIDIOIDOMYCOSIS , *DRUG resistance , *GENE flow , *PLASMODIUM falciparum - Abstract
Background: Plasmodium vivax is the most predominant malaria species in Latin America, constituting 71.5% of malaria cases in 2021. With several countries aiming for malaria elimination, it is crucial to prioritize effectiveness of national control programs by optimizing the utilization of available resources and strategically implementing necessary changes. To support this, there is a need for innovative approaches such as genomic surveillance tools that can investigate changes in transmission intensity, imported cases and sources of reintroduction, and can detect molecular markers associated with drug resistance. Methodology/Principal findings: Here, we apply a modified highly-multiplexed deep sequencing assay: Pv AmpliSeq v2 Peru. The tool targets a newly developed 41-SNP Peru barcode for parasite population analysis within Peru, the 33-SNP vivaxGEN-geo panel for country-level classification, and 11 putative drug resistance genes. It was applied to 230 samples from the Peruvian Amazon (2007–2020), generating baseline surveillance data. We observed a heterogenous P. vivax population with high diversity and gene flow in peri-urban areas of Maynas province (Loreto region) with a temporal drift using all SNPs detected by the assay (nSNP = 2909). In comparison, in an indigenous isolated area, the parasite population was genetically differentiated (FST = 0.07–0.09) with moderate diversity and high relatedness between isolates in the community. In a remote border community, a clonal P. vivax cluster was identified, with distinct haplotypes in drug resistant genes and ama1, more similar to Brazilian isolates, likely representing an introduction of P. vivax from Brazil at that time. To test its applicability for Latin America, we evaluated the SNP Peru barcode in P. vivax genomes from the region and demonstrated the capacity to capture local population clustering at within-country level. Conclusions/Significance: Together this data shows that P. vivax transmission is heterogeneous in different settings within the Peruvian Amazon. Genetic analysis is a key component for regional malaria control, offering valuable insights that should be incorporated into routine surveillance. Author summary: Latin America is aiming towards malaria elimination. Genomic surveillance is crucial for a country's malaria strategy, aiding in understanding and stopping the spread of the disease. While widely used for another malaria species (Plasmodium falciparum), limited tools exist for tracking P. vivax, a significant player in malaria-endemic areas outside of Africa, and the primary cause of malaria in Latin America. In this study, we used a new tool, Pv AmpliSeq v2 Peru assay, to examine the genetic makeup of malaria parasites in the Peruvian Amazon. This tool helps us see how the parasites from different areas are connected and tracks markers that could indicate resistance to drugs. We found that the parasites from remote areas in the Amazon were genetically different from parasites in areas surrounding the main city of Iquitos, and parasites in a remote border community were genetically more similar to Brazilian parasites. We also show that the Pv AmpliSeq v2 Peru assay can be used to study parasites from other countries in Latin America, highlighting the broader application in the region. Considering that parasites are not constrained by borders and can easily spread between neighboring countries, a regional approach can be crucial for malaria elimination. [ABSTRACT FROM AUTHOR]
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- 2024
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21. Chemoproteomics validates selective targeting of Plasmodium M1 alanyl aminopeptidase as an antimalarial strategy.
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Giannangelo, Carlo, Challis, Matthew P., Siddiqui, Ghizal, Edgar, Rebecca, Malcolm, Tess R., Webb, Chaille T., Drinkwater, Nyssa, Vinh, Natalie, Macraild, Christopher, Counihan, Natalie, Duffy, Sandra, Wittlin, Sergio, Devine, Shane M., Avery, Vicky M., De Koning-Ward, Tania, Scammells, Peter, McGowan, Sheena, and Creek, Darren J.
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PLASMODIUM , *PLASMODIUM vivax , *X-ray crystallography , *PLASMODIUM falciparum , *CYTOTOXINS - Abstract
New antimalarial drug candidates that act via novel mechanisms are urgently needed to combat malaria drug resistance. Here, we describe the multi-omic chemical validation of Plasmodium M1 alanyl metalloaminopeptidase as an attractive drug target using the selective inhibitor, MIPS2673. MIPS2673 demonstrated potent inhibition of recombinant Plasmodium falciparum (PfA-M1) and Plasmodium vivax (PvA-M1) M1 metalloaminopeptidases, with selectivity over other Plasmodium and human aminopeptidases, and displayed excellent in vitro antimalarial activity with no significant host cytotoxicity. Orthogonal label-free chemoproteomic methods based on thermal stability and limited proteolysis of whole parasite lysates revealed that MIPS2673 solely targets PfA-M1 in parasites, with limited proteolysis also enabling estimation of the binding site on PfA-M1 to within ~5 Å of that determined by X-ray crystallography. Finally, functional investigation by untargeted metabolomics demonstrated that MIPS2673 inhibits the key role of PfA-M1 in haemoglobin digestion. Combined, our unbiased multi-omic target deconvolution methods confirmed the on-target activity of MIPS2673, and validated selective inhibition of M1 alanyl metalloaminopeptidase as a promising antimalarial strategy. [ABSTRACT FROM AUTHOR]
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- 2024
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22. Efficacy and safety of chloroquine plus primaquine for the treatment of Plasmodium vivax malaria in Hamusit site, Northwestern Ethiopia.
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Gebrie, Habtamu, Yimer, Mulat, Ayehu, Animen, Mohammed, Hussien, Hailgiorgis, Henok, Wuletaw, Yonas, Hailu, Mesay, Tolera, Getachew, Tasew, Geremew, Kassa, Mogess, and Gidey, Bokretsion
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PLASMODIUM vivax , *CHLOROQUINE , *PRIMAQUINE , *MALARIA , *PLASMODIUM falciparum - Abstract
Background: Plasmodium vivax malaria is still an important public health problem in Ethiopia. Unlike Plasmodium falciparum, P. vivax has a dormant liver stage (hypnozoite) that can be a risk of recurrent vivax malaria unless treated by radical cure with primaquine. Drug resistance to chloroquine is threatening malaria control and elimination efforts. This study assessed the therapeutic efficacy and safety of chloroquine plus 14 days of primaquine on P. vivax infection based on parasitological, clinical, and haematological parameters. Methods: A single-arm in vivo prospective therapeutic efficacy study was conducted to assess the clinical and parasitological response to the first-line treatment of P. vivax in Ethiopia, chloroquine plus 14 days low dose of (0.25 mg/kg/day) primaquine between December 2022 and March 2023 at Hamusit Health Centre using the standard World Health Organization (WHO) protocol. A total of 100 study participants with P. vivax mono-infection who were over 6 months old were enrolled and monitored for adequate clinical and parasitological responses for 42 days. The WHO double-entry Excel sheet and SPSS v.25 software were used for Kaplan–Meier survival analysis, and a paired t-test was used for analysis of haemoglobin improvements between follow up days. Results: A total of 100 patients were enrolled among those, 96% cases were rural residents, 93% had previous malaria exposure, and predominant age group was 5–15 years (61%). 92.6% (95% CI 85.1–96.4%) of enrolled patients were adequate clinical and parasitological response, and 7.4% (95% CI 3.6–14.9%) recurrences were observed among treated patients. The fever and parasite clearance rate on day 3 were 98% and 94%, respectively. The baseline haemoglobin levels improved significantly compared to those days 14 and 42 (p < 0.001). No serious adverse event was observed during the study period. Conclusions: In this study, co-administration of chloroquine with primaquine was efficacious and well-tolerated with fast resolution of fever and high parasites clearance rate. However, the 7.4% failure is reported is alarming that warrant further monitoring of the therapeutic efficacy study of P. vivax. [ABSTRACT FROM AUTHOR]
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- 2024
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23. Drug resistance markers in Plasmodium vivax isolates from a Kanchanaburi province, Thailand between January to May 2023.
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Sridapan, Thanawat, Rattanakoch, Paweesuda, Kijprasong, Kaewkanha, and Srisutham, Suttipat
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DRUG resistance , *PLASMODIUM vivax , *SINGLE nucleotide polymorphisms , *TETRAHYDROFOLATE dehydrogenase , *LINKAGE disequilibrium - Abstract
Background: Plasmodium vivax has become the predominant species in the border regions of Thailand. The emergence and spread of antimalarial drug resistance in P. vivax is one of the significant challenges for malaria control. Continuous surveillance of drug resistance is therefore necessary for monitoring the development of drug resistance in the region. This study aims to investigate the prevalence of the mutation in the P. vivax multidrug resistant 1 (Pvmdr1), dihydrofolate reductase (Pvdhfr), and dihydropteroate synthetase (Pvdhps) genes conferred resistance to chloroquine (CQ), pyrimethamine (P) and sulfadoxine (S), respectively. Method: 100 P. vivax isolates were obtained between January to May 2023 from a Kanchanaburi province, western Thailand. Nucleotide sequences of Pvmdr1, Pvdhfr, and Pvdhps genes were amplified and sequenced. The frequency of single nucleotide polymorphisms (SNPs)-haplotypes of drug-resistant alleles was assessed. The linkage disequilibrium (LD) tests were also analyzed. Results: In Pvmdr1, T958M, Y976F, and F1076L, mutations were detected in 100%, 21%, and 23% of the isolates, respectively. In Pvdhfr, the quadruple mutant allele (I57R58M61T117) prevailed in 84% of the samples, followed by (L57R58M61T117) in 11%. For Pvdhps, the double mutant allele (G383G553) was detected (48%), followed by the triple mutant allele (G383M512G553) (47%) of the isolates. The most prevalent combination of Pvdhfr (I57R58M61T117) and Pvdhps (G383G553) alleles was sextuple mutated haplotypes (48%). For LD analysis, the association in the SNPs pairs was found between the intragenic and intergenic regions of the Pvdhfr and Pvdhps genes. Conclusion: The study has recently updated the high prevalence of three gene mutations associated with CQ and SP resistance. Genetic monitoring is therefore important to intensify in the regions to further assess the spread of drug resistant. Our data also provide evidence on the distribution of drug resistance for the early warning system, thereby threatening P. vivax malaria treatment policy decisions at the national level. [ABSTRACT FROM AUTHOR]
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- 2024
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24. Plasmodium vivax populations in the western Greater Mekong Subregion evaluated using a genetic barcode.
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Hu, Yubing, Li, Yuling, Brashear, Awtum M., Zeng, Weilin, Wu, Zifang, Wang, Lin, Wei, Haichao, Soe, Myat Thu, Aung, Pyae Linn, Sattabongkot, Jetsumon, Kyaw, Myat Phone, Yang, Zhaoqing, Zhao, Yan, Cui, Liwang, and Cao, Yaming
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PLASMODIUM vivax , *SINGLE nucleotide polymorphisms , *PRINCIPAL components analysis , *GENETIC variation , *PLASMODIUM , *DISEASE eradication - Abstract
An improved understanding of the Plasmodium vivax populations in the Great Mekong Subregion (GMS) is needed to monitor the progress of malaria elimination. This study aimed to use a P. vivax single nucleotide polymorphism (SNP) barcode to evaluate the population dynamics and explore the gene flow among P. vivax parasite populations in the western GMS (China, Myanmar and Thailand). A total of 315 P. vivax patient samples collected in 2011 and 2018 from four regions of the western GMS were genotyped for 42 SNPs using the high-throughput MassARRAY SNP genotyping technology. Population genetic analysis was conducted to estimate the genetic diversity, effective population size, and population structure among the P. vivax populations. Overall, 291 samples were successfully genotyped at 39 SNPs. A significant difference was observed in the proportion of polyclonal infections among the five P. vivax populations (P = 0.0012, Pearson Chi-square test, χ2 = 18.1), with western Myanmar having the highest proportion (96.2%, 50/52) in 2018. Likewise, the average complexity of infection was also highest in western Myanmar (1.31) and lowest in northeast Myanmar (1.01) in 2018. The older samples from western China in 2011 had the highest pairwise nucleotide diversity (π, 0.388 ± 0.046), expected heterozygosity (He, 0.363 ± 0.02), and the largest effective population size. In comparison, in the neighboring northeast Myanmar, the more recent samples in 2018 showed the lowest values (π, 0.224 ± 0.036; He, 0.220 ± 0.026). Furthermore, the 2018 northeast Myanmar parasites showed high and moderate genetic differentiation from other populations with FST values of 0.162–0.252, whereas genetic differentiation among other populations was relatively low (FST ≤ 0.059). Principal component analysis, phylogeny, and STRUCTURE analysis showed that the P. vivax population in northeast Myanmar in 2018 substantially diverged from other populations. Although the 42 SNP barcode is a valuable tool for tracking parasite origins of worldwide parasite populations, a more extended barcode with additional SNPs is needed to distinguish the more related parasite populations in the western GMS. Author summary: In the Great Mekong Subregion (GMS), particularly in Myanmar, vivax malaria remains a significant challenge to malaria elimination. To effectively evaluate the impact of ongoing malaria control measures, it is essential to understand the genetic diversity, relatedness, and population dynamics of the malaria parasite. A comprehensive analysis of P. vivax populations in the western GMS using a global 42-SNP barcode revealed notable changes over time. Compared to the more homogeneous parasite populations a decade ago, there has been a decrease in genetic diversity and an increase in differentiation among parasite populations in recent years, particularly along the China-Myanmar border. In comparison, the 2018 parasites from western Myanmar showed a relatively stable genetic structure, underscoring the persistent challenge of vivax malaria in this region. While the 42-SNP barcode has been valuable in understanding the genetic landscape of global P. vivax populations, it has limitations in accurately differentiating parasite populations across the GMS, necessitating a barcode tailored to the local parasite populations. [ABSTRACT FROM AUTHOR]
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- 2024
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25. Origin of the human malaria parasite Plasmodium vivax.
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Sharp, Paul M., Plenderleith, Lindsey J., Culleton, Richard L., and Hahn, Beatrice H.
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PLASMODIUM vivax , *PLASMODIUM , *HUMAN origins , *GENETIC variation , *APES , *MALARIA - Abstract
The evolutionary relationships among Plasmodium vivax in humans, P. vivax -like parasites in African apes, and other related parasites infecting non-human primates indicate that P. vivax originated in Africa, and can explain why the human parasites exhibit much less genetic diversity. The geographic origin of P. vivax provides an explanation for the emergence of the Duffy-negative mutation among humans in Africa. The recent discovery that P. vivax can invade erythroid precursor cells of Duffy-negative humans suggests that remnants of an ancient P. vivax lineage that infected both humans and apes before the spread of the Duffy-negative mutation may still circulate in Africa. A more extensive characterization of P. vivax in Duffy-negative individuals, focusing in particular on parasites sequestered in hematopoietic tissues, is urgently needed. The geographic origin of Plasmodium vivax , a leading cause of human malaria, has been the subject of much speculation. Here we review the evolutionary history of P. vivax and P. vivax -like parasites in humans and non-human primates on three continents, providing overwhelming evidence for an African origin. This conclusion is consistent with recent reports showing that Duffy-negative humans in Africa are, in fact, susceptible to P. vivax , with parasites invading Duffy-antigen-expressing erythroid precursors. Thus, the African origin of P. vivax not only explains the distribution of the Duffy-negative genotype but also provides new insight into the history and status of P. vivax malaria in Africa and efforts geared toward its eradication. [ABSTRACT FROM AUTHOR]
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- 2024
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26. The biology and pathogenesis of vivax malaria.
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Anstey, Nicholas M., Tham, Wai-Hong, Shanks, G. Dennis, Poespoprodjo, Jeanne R., Russell, Bruce M., and Kho, Steven
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LIFE cycles (Biology) , *BIOLOGY , *MALARIA , *PLASMODIUM vivax , *ERYTHROCYTES , *MYOCARDIAL reperfusion - Abstract
Most asexual vivax parasites accumulate in the reticulocyte-rich spleen, replicating in an endosplenic life cycle. This reservoir contributes to systemic inflammation and anemia, and helps maintain chronic infections and transmission. Plasmodium vivax merozoites preferentially invade nascent reticulocytes over mature reticulocytes through newly identified invasion pathways. Humanized mice and hepatocyte culture systems are characterizing hypnozoite biology, and new approaches for anti-relapse therapy. Anemia is mostly from splenic retention of uninfected red cells; frequently recurring and chronic infections cause progressive anemia, malnutrition, and death, especially in young children. Endothelial cell activation, a predictor of impaired perfusion and death in falciparum malaria, is even more pronounced in acute vivax malaria, likely contributing to organ dysfunction in severe disease. Plasmodium vivax contributes significantly to global malaria morbidity. Key advances include the discovery of pathways facilitating invasion by P. vivax merozoites of nascent reticulocytes, crucial for vaccine development. Humanized mouse models and hepatocyte culture systems have enhanced understanding of hypnozoite biology. The spleen has emerged as a major reservoir for asexual vivax parasites, replicating in an endosplenic life cycle, and contributing to recurrent and chronic infections, systemic inflammation, and anemia. Splenic accumulation of uninfected red cells is the predominant cause of anemia. Recurring and chronic infections cause progressive anemia, malnutrition, and death in young children in high-transmission regions. Endothelial activation likely contributes to vivax-associated organ dysfunction. The many recent advances in vivax pathobiology should help guide new approaches to prevention and management. [ABSTRACT FROM AUTHOR]
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- 2024
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27. Asymptomatic Malaria Reservoirs in Honduras: A Challenge for Elimination.
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Banegas, Sharon, Escobar, Denis, Pinto, Alejandra, Moncada, Marcela, Matamoros, Gabriela, Valdivia, Hugo O., Reyes, Allan, and Fontecha, Gustavo
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RAPID diagnostic tests ,MIXED infections ,PLASMODIUM vivax ,CHARGE exchange ,GENETIC markers - Abstract
Background: Efforts on a global scale for combating malaria have achieved substantial progress over the past twenty years. Two Central American nations have accomplished their goal of eliminating malaria: El Salvador and Belize. Honduras has decreased the incidence of malaria and now reports fewer than 4000 malaria cases annually, aspiring to reach elimination by 2030. To accomplish this goal, it is essential to assess the existing strategies employed for malaria control and to address the task of incorporating novel intervention strategies to identify asymptomatic reservoirs. Methods: A survey for detecting asymptomatic cases was carried out in the community of Kaukira, in Gracias a Dios, Honduras, focusing on malaria transmission during 2023. Asymptomatic community members were recruited as participants, malaria screening was performed through a rapid diagnostic test in situ, and a blood sample was collected on filter paper. Highly sensitive molecular assays based on photo-induced electron transfer PCR (PET-PCR) were performed to detect the two species of Plasmodium circulating in Honduras: Plasmodium vivax and Plasmodium falciparum. In addition, the identification of the parasite species was verified by amplifying three genetic markers (Pvmsp3α, Pvmsp3ß, and Pfmsp1). Results: A total of 138 participants were recruited, mostly adult women. All individuals tested negative on the rapid diagnostic test. Positive results for malaria were detected by PET-PCR in 17 samples (12.3%). Most samples (12 out of 17) were amplified with a Ct value between 37 and 42, indicating very low parasitemias. Out of the 17 samples, 16 of them also showed amplification in the species assays. There were nine cases of P. falciparum infections and seven cases of P. vivax infections that were further confirmed by nested PCR (nPCR) of Pvmsp3 and Pfmsp1. Parasitemias ranged from 100 p/μL to less than 0.25 p/μL. One sample showed mixed infection. Conclusions: The existence of asymptomatic malaria reservoirs in Honduras can contribute to disease transmission and pose a challenge that may hinder elimination efforts, requiring public health authorities to modify surveillance strategies to identify the disease and treat this population accordingly. [ABSTRACT FROM AUTHOR]
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- 2024
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28. Immunogenicity of PvCyRPA, PvCelTOS and Pvs25 chimeric recombinant protein of Plasmodium vivax in murine model.
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Matos, Ada da Silva, Soares, Isabela Ferreira, Rodrigues-da-Silva, Rodrigo Nunes, Rodolphi, Cinthia Magalhães, Albrecht, Letusa, Donassolo, Rafael Amaral, Lopez-Camacho, Cesar, Bom, Ana Paula Dinis Ano, Neves, Patrícia Cristina da Costa, de Paiva Conte, Fernando, Pratt-Riccio, Lilian Rose, Daniel-Ribeiro, Cláudio Tadeu, Totino, Paulo Renato Rivas, and Lima-Junior, Josué da Costa
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CHIMERIC proteins ,RECOMBINANT proteins ,PLASMODIUM vivax ,IMMUNE response ,PARASITE life cycles ,HUMORAL immunity - Abstract
In the Americas, P. vivax is the predominant causative species of malaria, a debilitating and economically significant disease. Due to the complexity of the malaria parasite life cycle, a vaccine formulation with multiple antigens expressed in various parasite stages may represent an effective approach. Based on this, we previously designed and constructed a chimeric recombinant protein, PvRMC-1, composed by PvCyRPA, PvCelTOS, and Pvs25 epitopes. This chimeric protein was strongly recognized by naturally acquired antibodies from exposed population in the Brazilian Amazon. However, there was no investigation about the induced immune response of PvRMC-1. Therefore, in this work, we evaluated the immunogenicity of this chimeric antigen formulated in three distinct adjuvants: Stimune, AddaVax or Aluminum hydroxide (Al(OH)3) in BALB/c mice. Our results suggested that the chimeric protein PvRMC-1 were capable to generate humoral and cellular responses across all three formulations. Antibodies recognized full-length PvRMC-1 and linear B-cell epitopes from PvCyRPA, PvCelTOS, and Pvs25 individually. Moreover, mice's splenocytes were activated, producing IFN-g in response to PvCelTOS and PvCyRPA peptide epitopes, affirming T-cell epitopes in the antigen. While aluminum hydroxide showed notable cellular response, Stimune and Addavax induced a more comprehensive immune response, encompassing both cellular and humoral components. Thus, our findings indicate that PvRMC-1 would be a promising multistage vaccine candidate that could advance to further preclinical studies. [ABSTRACT FROM AUTHOR]
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- 2024
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29. Plasmodium vivax serological exposure markers: PvMSP1-42-induced humoral and memory B-cell response generates long-lived antibodies.
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Lu, Feng, Xu, Jiahui, Liu, Yaobao, Ren, Zhenyu, Chen, Junhu, Gong, Weijuan, Yin, Yi, Li, Yinyue, Qian, Li, He, Xinlong, Han, Xiu, Lin, Zhijie, Lu, Jingyuan, Zhang, Wenwen, Liu, Jiali, Menard, Didier, Han, Eun-Taek, and Cao, Jun
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B cells , *IMMUNOLOGIC memory , *PLASMODIUM vivax , *IMMUNOGLOBULINS , *PROTEIN microarrays , *IMMUNE response - Abstract
Plasmodium vivax serological exposure markers (SEMs) have emerged as promising tools for the actionable surveillance and implementation of targeted interventions to accelerate malaria elimination. To determine the dynamic profiles of SEMs in current and past P. vivax infections, we screened and selected 11 P. vivax proteins from 210 putative proteins using protein arrays, with a set of serum samples obtained from patients with acute P. vivax and documented past P. vivax infections. Then we used a murine protein immune model to initially investigate the humoral and memory B cell response involved in the generation of long-lived antibodies. We show that of the 11 proteins, especially C-terminal 42-kDa region of P. vivax merozoite surface protein 1 (PvMSP1-42) induced longer-lasting long-lived antibodies, as these antibodies were detected in individuals infected with P. vivax in the 1960-1970s who were not re-infected until 2012. In addition, we provide a potential mechanism for the maintenance of long-lived antibodies after the induction of PvMSP1-42. The results indicate that PvMSP1-42 induces more CD73+CD80+ memory B cells (MBCs) compared to P. vivax GPI-anchored micronemal antigen (PvGAMA), allowing IgG anti-PvMSP1-42 antibodies to be maintained for a long time. Author summary: P. vivax serological exposure markers (SEMs) that reflect exposure to blood-stage P. vivax parasites, could play an important role in assessing progress towards malaria elimination. Serological surveillance can be a useful tool for identifying areas of high transmission intensity or hidden asymptomatic reservoirs, especially as malaria transmission declines. These immune responses can persist long after the clearance of blood-stage infection, making antibodies valuable markers for both past exposure and current infection status. Furthermore, gaining a better understanding of the host immune response to malaria, particularly regarding the induction and maintenance of high levels of circulating antibodies, is crucial for effective serological surveillance efforts. Using serum obtained in 2007 or 2012 from patients with acute P. vivax infection, 5-year, 12-year and 30-year recovery of P. vivax-infected patients we provide evidence that PvMSP1-42 induces long-lived anti-PvMSP1-42 antibodies. Then we used a murine protein immune model, show that more CD73+CD80+ memory B cells, allowing IgG anti-PvMSP1-42 antibodies to be maintained for a long time (Fig 1). The results of this study represent an important step forward in our understanding of the host immune response to P. vivax blood stages, including the induction and maintenance of high levels of circulating antibodies. These findings may have important implications for the development of effective serological surveillance tools. [ABSTRACT FROM AUTHOR]
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- 2024
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30. Detection of Duffy blood group genotypes and submicroscopic Plasmodium infections using molecular diagnostic assays in febrile malaria patients.
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Abagero, Beka R., Rama, Rei, Obeid, Abdulghani, Tolosa, Tirusew, Lukas, Biniyam, Teka, Taye, Tesfaye, Daniel, Lo, Eugenia, and Yewhalaw, Delenasaw
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BLOOD groups , *MALARIA , *PLASMODIUM , *PLASMODIUM vivax , *LOGISTIC regression analysis - Abstract
Background: Malaria remains a severe parasitic disease, posing a significant threat to public health and hindering economic development in sub-Saharan Africa. Ethiopia, a malaria endemic country, is facing a resurgence of the disease with a steadily rising incidence. Conventional diagnostic methods, such as microscopy, have become less effective due to low parasite density, particularly among Duffy-negative human populations in Africa. To develop comprehensive control strategies, it is crucial to generate data on the distribution and clinical occurrence of Plasmodium vivax and Plasmodium falciparum infections in regions where the disease is prevalent. This study assessed Plasmodium infections and Duffy antigen genotypes in febrile patients in Ethiopia. Methods: Three hundred febrile patients visiting four health facilities in Jimma town of southwestern Ethiopia were randomly selected during the malaria transmission season (Apr–Oct). Sociodemographic information was collected, and microscopic examination was performed for all study participants. Plasmodium species and parasitaemia as well as the Duffy genotype were assessed by quantitative polymerase chain reaction (qPCR) for all samples. Data were analysed using Fisher's exact test and kappa statistics. Results: The Plasmodium infection rate by qPCR was 16% (48/300) among febrile patients, of which 19 (39.6%) were P. vivax, 25 (52.1%) were P. falciparum, and 4 (8.3%) were mixed (P. vivax and P. falciparum) infections. Among the 48 qPCR-positive samples, 39 (13%) were negative by microscopy. The results of bivariate logistic regression analysis showed that agriculture-related occupation, relapse and recurrence were significantly associated with Plasmodium infection (P < 0.001). Of the 300 febrile patients, 85 (28.3%) were Duffy negative, of whom two had P. vivax, six had P. falciparum, and one had mixed infections. Except for one patient with P. falciparum infection, Plasmodium infections in Duffy-negative individuals were all submicroscopic with low parasitaemia. Conclusions: The present study revealed a high prevalence of submicroscopic malaria infections. Plasmodium vivax infections in Duffy-negative individuals were not detected due to low parasitaemia. In this study, an improved molecular diagnostic tool was used to detect and characterize Plasmodium infections, with the goal of quantifying P. vivax infection in Duffy-negative individuals. Advanced molecular diagnostic techniques, such as multiplex real-time PCR, loop-mediated isothermal amplification (LAMP), and CRISPR-based diagnostic methods. These techniques offer increased sensitivity, specificity, and the ability to detect low-parasite-density infections compared to the employed methodologies. [ABSTRACT FROM AUTHOR]
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- 2024
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31. Space–time clusters and co-occurrence of Plasmodium vivax and Plasmodium falciparum malaria in West Bengal, India.
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Maiti, Meghna and Roy, Utpal
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PLASMODIUM vivax , *MALARIA , *VECTOR-borne diseases , *PLASMODIUM falciparum , *LYME disease , *SPACETIME , *SEASONAL variations of diseases - Abstract
Background: Malaria, a prominent vector borne disease causing over a million annual cases worldwide, predominantly affects vulnerable populations in the least developed regions. Despite their preventable and treatable nature, malaria remains a global public health concern. In the last decade, India has faced a significant decline in malaria morbidity and mortality. As India pledged to eliminate malaria by 2030, this study examined a decade of surveillance data to uncover space–time clustering and seasonal trends of Plasmodium vivax and Plasmodium falciparum malaria cases in West Bengal. Methods: Seasonal and trend decomposition using Loess (STL) was applied to detect seasonal trend and anomaly of the time series. Univariate and multivariate space–time cluster analysis of both malaria cases were performed at block level using Kulldorff's space–time scan statistics from April 2011 to March 2021 to detect statistically significant space–time clusters. Results: From the time series decomposition, a clear seasonal pattern is visible for both malaria cases. Statistical analysis indicated considerable high-risk P. vivax clusters, particularly in the northern, central, and lower Gangetic areas. Whereas, P. falciparum was concentrated in the western region with a significant recent transmission towards the lower Gangetic plain. From the multivariate space–time scan statistics, the co-occurrence of both cases were detected with four significant clusters, which signifies the regions experiencing a greater burden of malaria cases. Conclusions: Seasonal trends from the time series decomposition analysis show a gradual decline for both P. vivax and P. falciparum cases in West Bengal. The space–time scan statistics identified high-risk blocks for P. vivax and P. falciparum malaria and its co-occurrence. Both malaria types exhibit significant spatiotemporal variations over the study area. Identifying emerging high-risk areas of P. falciparum malaria over the Gangetic belt indicates the need for more research for its spatial shifting. Addressing the drivers of malaria transmission in these diverse clusters demands regional cooperation and strategic strategies, crucial steps towards overcoming the final obstacles in malaria eradication. [ABSTRACT FROM AUTHOR]
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- 2024
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32. A Novel Ex Vivo Assay to Evaluate Functional Effectiveness of Plasmodium vivax Transmission-Blocking Vaccine Using Pvs25 Transgenic Plasmodium berghei.
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Cao, Yi, Hayashi, Clifford T H, and Kumar, Nirbhay
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PLASMODIUM vivax , *PLASMODIUM berghei , *PLASMODIUM , *PLASMODIUM falciparum , *VACCINES - Abstract
Background Plasmodium falciparum and Plasmodium vivax account for >90% global malaria burden. Transmission intervention strategies encompassing transmission-blocking vaccines (TBV) and drugs represent ideal public health tools to eliminate malaria at the population level. The availability of mature P. falciparum gametocytes through in vitro culture has facilitated development of a standard membrane feeding assay to assess efficacy of transmission interventions against P. falciparum. The lack of in vitro culture for P. vivax has significantly hampered similar progress on P. vivax and limited studies have been possible using blood from infected patients in endemic areas. The ethical and logistical limitations of on-time access to blood from patients have impeded the development of P. vivax TBVs. Methods Transgenic murine malaria parasites (Plasmodium berghei) expressing TBV candidates offer a promising alternative for evaluation of P. vivax TBVs through in vivo studies in mice, and ex vivo membrane feeding assay (MFA). Results We describe the development of transmission-competent transgenic TgPbvs25 parasites and optimization of parameters to establish an ex vivo MFA to evaluate P. vivax TBV based on Pvs25 antigen. Conclusions The MFA is expected to expedite Pvs25-based TBV development without dependence on blood from P. vivax -infected patients in endemic areas for evaluation. [ABSTRACT FROM AUTHOR]
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- 2024
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33. Evaluation of transmission-blocking potential of PvPSOP25 using transgenic murine malaria parasite and clinical isolates.
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Zhang, Biying, Feng, Hao, Zhao, Yan, Zhang, Di, Yu, Xinxin, Li, Yusi, Zeng, Ying, Thongpoon, Sataporn, Roobsoong, Wanlapa, Wu, Yudi, Liu, Fei, Sattabongkot, Jetsumon, Min, Hui, Cui, Liwang, and Cao, Yaming
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PLASMODIUM , *EIMERIA , *AEDES aegypti , *IMMUNE serums , *PLASMODIUM vivax , *TRANSGENIC mice , *PICHIA pastoris - Abstract
Background: Malaria transmission-blocking vaccines (TBVs) aim to inhibit malaria parasite development in mosquitoes and prevent further transmission to the human host. The putative-secreted ookinete protein 25 (PSOP25), highly conserved in Plasmodium spp., is a promising TBV target. Here, we investigated PvPSOP25 from P. vivax as a TBV candidate using transgenic murine parasite P. berghei and clinical P. vivax isolates. Methods and findings: A transgenic P. berghei line expressing PvPSOP25 (TrPvPSOP25Pb) was generated. Full-length PvPSOP25 was expressed in the yeast Pichia pastoris and used to immunize mice to obtain anti-rPvPSOP25 sera. The transmission-blocking activity of the anti-rPvPSOP25 sera was evaluated through in vitro assays and mosquito-feeding experiments. The antisera generated by immunization with rPvPSOP25 specifically recognized the native PvPSOP25 antigen expressed in TrPvPSOP25Pb ookinetes. In vitro assays showed that the immune sera significantly inhibited exflagellation and ookinete formation of the TrPvPSOP25Pb parasite. Mosquitoes feeding on mice infected with the transgenic parasite and passively transferred with the anti-rPvPSOP25 sera showed a 70.7% reduction in oocyst density compared to the control group. In a direct membrane feeding assay conducted with five clinical P. vivax isolates, the mouse anti-rPvPSOP25 antibodies significantly reduced the oocyst density while showing a negligible influence on mosquito infection prevalence. Conclusions: This study supported the feasibility of transgenic murine malaria parasites expressing P. vivax antigens as a useful tool for evaluating P. vivax TBV candidates. Meanwhile, the moderate transmission-reducing activity of the generated anti-rPvPSOP25 sera necessitates further research to optimize its efficacy. Author summary: The persistence of Plasmodium vivax poses a significant public health concern in certain regions, particularly Southeast Asia. The distinctive biology of Plasmodium vivax presents challenges for its control and eradication efforts. The development of a transmission-blocking vaccine is considered an essential strategy for malaria elimination, while the identification of antigen candidates plays a critical role in vaccine development. In this study, we aimed to evaluate the potential of PvPSOP25 as a transmission-blocking vaccine candidate using the transgenic murine parasite P. berghei. The transmission-reducing activity of anti-rPvPSOP25 sera was evaluated by both in vitro and mosquito-feeding experiments. Additionally, a direct membrane feeding assay using clinical P. vivax isolates from Thailand further validated the moderate transmission-reducing activity exhibited by the anti-rPvPSOP25 antisera. [ABSTRACT FROM AUTHOR]
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- 2024
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34. Evaluation of the precision of the Plasmodium knowlesi growth inhibition assay for Plasmodium vivax Duffy-binding protein-based malaria vaccine development.
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Mertens, Jonas E., Rigby, Cassandra A., Bardelli, Martino, Quinkert, Doris, Hou, Mimi M., Diouf, Ababacar, Silk, Sarah E., Chitnis, Chetan E., Minassian, Angela M., Moon, Robert W., Long, Carole A., Draper, Simon J., and Miura, Kazutoyo
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MALARIA vaccines , *VACCINE development , *PLASMODIUM , *PLASMODIUM vivax , *MONOCLONAL antibodies , *MALARIA prevention , *CONFIDENCE intervals , *RESEARCH personnel - Abstract
• The Pk GIA will be an essential selection tool for P. vivax vaccine development. • The error of the assay was evaluated with human anti- Pv DBPII antibodies. • Significant assay-to-assay variation was observed. • 95 % confidence interval of inhibition for a given number of PkGIA was determined. Recent data indicate increasing disease burden and importance of Plasmodium vivax (Pv) malaria. A robust assay will be essential for blood-stage Pv vaccine development. Results of the in vitro growth inhibition assay (GIA) with transgenic P. knowlesi (Pk) parasites expressing the Pv Duffy-binding protein region II (Pv DBPII) correlate with in vivo protection in the first Pv DBPII controlled human malaria infection (CHMI) trials, making the Pk GIA an ideal selection tool once the precision of the assay is defined. To determine the precision in percentage of inhibition in GIA (%GIA) and in GIA 50 (antibody concentration that gave 50 %GIA), ten GIAs with transgenic Pk parasites were conducted with four different anti- Pv DBPII human monoclonal antibodies (mAbs) at concentrations of 0.016 to 2 mg/mL, and three GIAs with eighty anti- Pv DBPII human polyclonal antibodies (pAbs) at 10 mg/mL. A significant assay-to-assay variation was observed, and the analysis revealed a standard deviation (SD) of 13.1 in the mAb and 5.94 in the pAb dataset for %GIA, with a LogGIA 50 SD of 0.299 (for mAbs). Moreover, the ninety-five percent confidence interval (95 %CI) for %GIA or GIA 50 in repeat assays was calculated in this investigation. The error range determined in this study will help researchers to compare Pk GIA results from different assays and studies appropriately, thus supporting the development of future blood-stage malaria vaccine candidates, specifically second-generation Pv DBPII-based formulations. [ABSTRACT FROM AUTHOR]
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- 2024
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35. Perspectives of healthcare professionals on training for quantitative G6PD testing during implementation of tafenoquine in Brazil (QualiTRuST Study).
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Santos, Alicia, Brito, Marcelo, Silva, Evellyn, Rocha, Felipe, Oliveira, Ana, Dávila, Rafaela, Gama, Hiran, Albuquerque, Jéssica, Paiva, Mena, Baía-Silva, Djane, Sampaio, Vanderson, Balieiro, Patrícia, Rufatto, Rosilene, Grewal Daumerie, Penny, Peterka, Cássio, Edilson Lima Jr, Francisco, Monteiro, Wuelton, Arcanjo, Ana, Silva, Ricardo, and Batista Pereira, Dhelio
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MEDICAL personnel , *GLUCOSE-6-phosphate dehydrogenase , *PEER communication , *PLASMODIUM vivax , *MALARIA - Abstract
Effective radical cure of Plasmodium vivax malaria is essential for malaria elimination in Brazil. P. vivax radical cure requires administration of a schizonticide, such as chloroquine, plus an 8-aminoquinoline. However, 8-aminoquinolines cause hemolysis in individuals with glucose-6-phosphate dehydrogenase (G6PD) deficiency, requiring prior screening to exclude those at risk. Brazil is pioneering the implementation of tafenoquine, a single-dose 8-aminoquinoline indicated for P. vivax patients with >70% of normal G6PD activity. Tafenoquine implementation in Manaus and Porto Velho, two municipalities located in the western Brazilian Amazon, included comprehensive training of healthcare professionals (HCPs) on point-of-care quantitative G6PD testing and a new treatment algorithm for P. vivax radical cure incorporating tafenoquine. Training was initially provided to higher-level facilities (phase one) and later adapted for primary care units (phase two). This study analyzed HCP experiences during training and implementation and identified barriers and facilitators. In-depth interviews and focus discussion groups were conducted 30 days after each training for a purposive random sample of 115 HCPs. Thematic analysis was employed using MAXQDA software, analyzing data through inductive and deductive coding. Analysis showed that following the initial training for higher-level facilities, some HCPs did not feel confident performing quantitative G6PD testing and prescribing the tafenoquine regimen. Modifications to the training in phase two resulted in an improvement in understanding the implementation process of the G6PD test and tafenoquine, as well as in the knowledge acquired by HCPs. Additionally, knowledge gaps were addressed through in situ training, peer communication via a messaging app, and educational materials. Training supported effective deployment of the new tools in Manaus and Porto Velho and increased awareness of the need for pharmacovigilance. A training approach for nationwide implementation of these tools was devised. Implementing quantitative G6PD testing and tafenoquine represents a significant shift in P. vivax malaria case management. Consistent engagement with HCPs is needed to overcome challenges in fully integrating these tools within the Brazilian health system. Author summary: Brazil has implemented tafenoquine and quantitative G6PD testing as a crucial component of its comprehensive strategy to eliminate Plasmodium vivax malaria. Training of healthcare professionals (HCPs) has played a pivotal role in facilitating the adoption of these new strategies. In any implementation, it is necessary to identify barriers and facilitators and consider data that cannot typically be collected in purely quantitative studies. This qualitative study describes the perceptions of HCPs regarding the training they received and the knowledge gaps that only became apparent in their professional practice after the training. These insights were instrumental in developing various communication and continuing education strategies that enhanced HCP knowledge following training. Finally, the study presents a training approach for applying quantitative G6PD testing and the tafenoquine treatment regimen, including the most effective educational activities and materials to support the HCP learning process. [ABSTRACT FROM AUTHOR]
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- 2024
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36. Comparative Evaluation of Available Immune-Chromatographic Tests Used for Detection of Plasmodium Species, A Tertiary Care Hospital Experience.
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Rafique, Nabila, Naeem, Mohammad Abdul, Khan, Maria, Asghar, Muhammad Bilal, Farooq, Zohra, and Umar, Sobia
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RAPID diagnostic tests , *PLASMODIUM vivax , *PLASMODIUM , *TERTIARY care , *DIAGNOSTIC reagents & test kits - Abstract
Objective: To test the sensitivity of localy available strips for the detection of Plasmodium Vivax and Plasmodium Falciparum species at a tertiary care hospital. Study Design: Cross-sectional study. Place and Duration of Study: Armed Forces Institute of Transfusion, Rawalpindi Pakistan, done over one week during Nov 2021. Methodology: Four different commercialy available brands of Malaria Rapid Diagnostic Tests were taken. They were tested against venous blood sample taken from only one patient who had lab detected Malaria. Light microscopy showed trophozoites of both Plasmodium Vivax and Falciparum. Nine serial dilutions of different strengths were made from blood sample. These dilutions were tested against commercialy available four different Rapid Diagnostic Tests strips. Results: Malaria Rapid Diagnostic Tests kits from al the four brands which were commercialy available showed positive results for Plasmodium vivax up to 1:512 dilutions. However, only one brand Rapid Diagnostic Tests kits showed positive results with Plasmodium falciparum in 1:2 dilutions, in addition to Plasmodium vivax. Conclusion: The commercialy available Rapid Diagnostic Tests Immunochromatographic Technique have high sensitivity in diagnosing Malaria, but are not resolute when it comes to speciation, particularly for Plasmodium falciparum. [ABSTRACT FROM AUTHOR]
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- 2024
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37. Sensitivity Assessment of a Multiplex and Real-Time PCR Protocols for the Detection of Malaria in External Quality Control Samples in the Malaria Reference Center in Greece.
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Tegos, Nikolaos, Goumenopoulos, Christos, Mpimpa, Anastasia, Papavasilopoulos, Vasilios, Beleri, Stavroula, and Patsoula, Eleni
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MALARIA prevention , *QUALITY control , *MALARIA , *PLASMODIUM vivax , *REFERENCE values , *SUCCESS , *MONTREAL Cognitive Assessment - Abstract
Background: Accurate malaria diagnosis constitutes a challenging task, necessitating the need for the implementation of targeted and effective diagnostic tools. The purpose of the current study was to evaluate the effectiveness of two different molecular methodologies in terms of sensitivity for the detection of External Quality Assessment (EQA) Plasmodium samples. Methods: A total of 104 lyophilized blood samples from 14 different UK-NEQAS (National External Quality Assessment Site) (2016–2021) and eight WHO-NEQAS distributions (2017–2020) were analyzed. An in-house multiplex PCR protocol, followed by single target real-time PCR protocols for all five Plasmodium species, was implemented. Results: The multiplex PCR had a success rate of 10/16 and 20/28 for P. vivax and P. falciparum species, respectively. On the other hand, the respective results for real-time PCR had a success rate of 13/16 (P. vivax), 28/28 (P. falciparum), 5/8 (P. malariae), 8/10 (P. ovale), and 10/14 (P. knowlesi). Plasmodium falciparum samples displayed the highest sensitivity of detection, 0.02 parasites/μL. Plasmodium vivax samples displayed a 0.1 parasites/μL cutoff value, greater than the respective value for whole blood samples, while P. ovale species displayed a respective cutoff value of 0.05 parasites/μL. Due to the limited number of tested samples, data obtained for P. malariae and P. knowlesi species samples were inconclusive. Conclusions: Real-time PCR comprises a credible molecular methodology in terms of sensitivity assessment and detection of low parasitemia levels of Plasmodium sp. in EQA lyophilized blood samples. [ABSTRACT FROM AUTHOR]
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- 2024
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38. Genetic Diversity of Plasmodium vivax Surface Ookinete Protein Pvs25 and Host Genes in Individuals Living along the Thai–Myanmar Border and Their Relationships with Parasite Density.
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Jalei, Abdifatah Abdullahi, Chaijaroenkul, Wanna, and Na-Bangchang, Kesara
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PLASMODIUM vivax , *GENETIC variation , *CD54 antigen , *RESTRICTION fragment length polymorphisms , *ANTIGEN receptors , *ADAPTOR proteins - Abstract
Plasmodium vivax (Pv) accounts for over 50% of malaria cases in Latin America and Asia. Despite a significant reduction in Pv transmission in Thailand, the parasite remains endemic to the border areas. This study aimed to investigate the genetic diversity of the parasites and the host factors, as well as their relation to parasite density in Pvisolates, along the Thai–Myanmar border. Genetic variations in Pv markers, specifically the ookinete surface protein Pvs25, and host genes, including Toll-like receptor 6 (TLR6), TLR9, TIR Domain-containing adaptor protein (TIRAP), Toll-interacting protein (TOLLIP), Duffy antigen receptor for chemokines (DARC), and intercellular adhesion molecule 1 (ICAM-1), were investigated using polymerase chain reaction (PCR) with restriction fragment length polymorphism (RFLP). A total of 548 PCR-positive Pv samples collected from Tak and Kanchanaburi provinces during two periods (2006–2007 and 2014–2016) were included in the study. Pvs25 exhibited four haplotypes, with H1 (EGTKV) being the most prevalent in both provinces. Kanchanaburi isolates exhibited greater genetic diversity than Tak isolates. No significant deviations from neutrality were observed for Pvs25 in either area. ICAM-1 and TOLLIP s3750920 heterozygous carriers had greater median parasite densities than homozygous mutants. The TLR9 rs187084 T genotype had a significantly higher parasite density than the non-T genotype. The findings underscore the significant association between the rs3750920 C/T, rs5498 A/G, and rs187084 T genotypes and high parasite density in patients infected with Pv, highlighting their potentially critical role in malaria susceptibility. [ABSTRACT FROM AUTHOR]
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- 2024
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39. The effect of HLA-DP gene polymorphisms in Plasmodium Vivax-induced malaria susceptibility.
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Akgöllü, Ersin, Demirkazık, Mehtap, and Bilgin, Ramazan
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GENETIC polymorphisms , *MALARIA , *HLA histocompatibility antigens , *PLASMODIUM , *PLASMODIUM vivax , *T cells - Abstract
Plasmodium vivax is the second most common Plasmodium parasite causing clinically serious symptoms and death from malaria. It is an important cause of morbidity and mortality, especially in Asia, the Middle East, and South America. Human leukocyte antigen molecules are responsible for presenting foreign antigens to T cells. Polymorphisms in HLA genes affect antigen presentation. HLA alleles involved in the presentation of P. vivax antigens affect the antibody response. The present study aimed to reveal the relationship of rs3077 and rs9277535 polymorphisms in HLA-DP genes with malaria caused by P. vivax for the first time in the worldwide. In the present research, rs3077 and rs9277535 polymorphisms were investigated in a case–control study of 124 patients with P. vivax-induced malaria and 211 healthy persons by using a real-time polymerase chain reaction (RT-PCR). The results showed that the G alleles of rs3077 and rs9277535 polymorphisms were detected as protective alleles, while the A alleles of both polymorphisms increase the risk of susceptibility to malaria disease. The results of the present study showed that both polymorphisms have a major effect on the susceptibility to malaria caused by P. vivax. We recommend that this study should be conducted in a different population with a larger sample size to confirm our results. [ABSTRACT FROM AUTHOR]
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- 2024
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40. Operational effectiveness of tafenoquine and primaquine for the prevention of Plasmodium vivax recurrence in Brazil: a retrospective observational study.
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Brito, Marcelo, Rufatto, Rosilene, Brito-Sousa, José Diego, Murta, Felipe, Sampaio, Vanderson, Balieiro, Patrícia, Baía-Silva, Djane, Castro, Vanessa, Alves, Brenda, Alencar, Aline, Duparc, Stephan, Grewal Daumerie, Penny, Borghini-Fuhrer, Isabelle, Jambert, Elodie, Peterka, Cássio, Edilson Lima, Francisco, Carvalho Maia, Leonardo, Lucena Cruz, Catherine, Maciele, Bruna, and Vasconcelos, Mariana
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PLASMODIUM vivax , *PRIMAQUINE , *HEALTH facilities , *GLUCOSE-6-phosphate dehydrogenase , *SCIENTIFIC observation - Abstract
Prevention of Plasmodium vivax malaria recurrence is essential for malaria elimination in Brazil. We evaluated the real-world effectiveness of an updated treatment algorithm for P vivax radical cure in the Brazilian Amazon. In this non-interventional observational study, we used retrospective data from the implementation of a P vivax treatment algorithm at 43 health facilities in Manaus and Porto Velho, Brazil. The treatment algorithm consisted of chloroquine (25 mg/kg over 3 days) and point-of-care quantitative glucose-6-phosphate dehydrogenase (G6PD) testing followed by single-dose tafenoquine 300 mg (G6PD normal, aged ≥16 years, not pregnant and not breastfeeding), 7-day primaquine 0·5 mg/kg per day (G6PD intermediate or normal, aged ≥6 months, not pregnant, and not breastfeeding or breastfeeding for >1 month), or primaquine 0·75 mg/kg per week for 8 weeks (G6PD deficient, aged ≥6 months, not pregnant, and not breastfeeding or breastfeeding for >1 month). P vivax recurrences were identified from probabilistic linkage of routine patient records from the Brazilian malaria epidemiological surveillance system. Recurrence-free effectiveness at day 90 and day 180 was estimated using Kaplan–Meier analysis and hazard ratios (HRs) by multivariate analysis. This clinical trial is registered with ClinicalTrials.gov , NCT05096702 , and is completed. Records from Sept 9, 2021, to Aug 31, 2022, included 5554 patients with P vivax malaria. In all treated patients of any age and any G6PD status, recurrence-free effectiveness at day 180 was 75·8% (95% CI 74·0–77·6) with tafenoquine, 73·4% (71·9–75·0) with 7-day primaquine, and 82·1% (77·7–86·8) with weekly primaquine. In patients aged at least 16 years who were G6PD normal, recurrence-free effectiveness until day 90 was 88·6% (95% CI 87·2–89·9) in those who were treated with tafenoquine (n=2134) and 83·5% (79·8–87·4) in those treated with 7-day primaquine (n=370); after adjustment for confounding factors, the HR for recurrence following tafenoquine versus 7-day primaquine was 0·65 (95% CI 0·49–0·86; p=0·0031), with similar outcomes between the two treatments at day 180 (log-rank p=0·82). Over 180 days, median time to recurrence in patients aged at least 16 years who were G6PD normal was 92 days (IQR 76–120) in those treated with tafenoquine and 68 days (52–94) in those treated with 7-day primaquine. In this real-world setting, single-dose tafenoquine was more effective at preventing P vivax recurrence in patients aged at least 16 years who were G6PD normal compared with 7-day primaquine at day 90, while overall efficacy at 180 days was similar. The public health benefits of the P vivax radical cure treatment algorithm incorporating G6PD quantitative testing and tafenoquine support its implementation in Brazil and potentially across South America. Brazilian Ministry of Health, Municipal and State Health Secretariats; Fiocruz; Medicines for Malaria Venture; Bill & Melinda Gates Foundation; Newcrest Mining; and the UK Government. For the Portuguese translation of the abstract see Supplementary Materials section. [ABSTRACT FROM AUTHOR]
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- 2024
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41. Identification and serological responses to a novel Plasmodium vivax merozoite surface protein 1 (PvMSP-1) derived synthetic peptide: a putative biomarker for malaria exposure.
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Marzano-Miranda, Aline, Pereira Cardoso-Oliveira, Gustavo, Carla de Oliveira, Ingrid, Carvalho Mourão, Luiza, Reis Cussat, Letícia, Gomes Fraga, Vanessa, Delfin Chávez Olórtegui, Carlos, Jesus Fernandes Fontes, Cor, Castanheira Bartholomeu, Daniella, and Braga, Erika M.
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RAPID diagnostic tests ,AMINO acid sequence ,PEPTIDES ,PLASMODIUM vivax ,MALARIA - Abstract
Background: The integration of diagnostic methods holds promise for advancing the surveillance of malaria transmission in both endemic and non-endemic regions. Serological assays emerge as valuable tools to identify and delimit malaria transmission, serving as a complementary method to rapid diagnostic tests (RDT) and thick smear microscopy. Here, we evaluate the potential of antibodies directed against peptides encompassing the entire amino acid sequence of the PvMSP-1 Sal-I strain as viable serological biomarkers for P. vivax exposure. Methods: We screened peptides encompassing the complete amino acid sequence of the Plasmodium vivax Merozoite Surface Protein 1 (PvMSP-1) Sal-I strain as potential biomarkers for P. vivax exposure. Here, immunodominant peptides specifically recognized by antibodies from individuals infected with P. vivax were identified using the SPOT-synthesis technique followed by immunoblotting. Two 15-mer peptides were selected based on their higher and specific reactivity in immunoblotting assays. Subsequently, peptides p70 and p314 were synthesized in soluble form using SPPS (Solid Phase Peptide Synthesis) and tested by ELISA (IgG, and subclasses). Results: This study unveils the presence of IgG antibodies against the peptide p314 in most P. vivax-infected individuals from the Brazilian Amazon region. In silico B-cell epitope prediction further supports the utilization of p314 as a potential biomarker for evaluating malaria transmission, strengthened by its amino acid sequence being part of a conserved block of PvMSP-1. Indeed, compared to patients infected with P. falciparum and uninfected individuals never exposed to malaria, P. vivax-infected patients have a notably higher recognition of p314 by IgG1 and IgG3. [ABSTRACT FROM AUTHOR]
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- 2024
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42. A systematic review of CQ-resistant Plasmodium vivax malaria infections in India.
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Nallapati, Vishnu Teja, Gupta, Nitin, Hande, Manjunath H, and Saravu, Kavitha
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PLASMODIUM vivax ,MALARIA ,DRUG efficacy ,TREATMENT effectiveness ,CHLOROQUINE - Abstract
Chloroquine (CQ) is the drug of choice for treating uncomplicated Plasmodium vivax (P.vivax) malaria in India. The knowledge about the exact burden of CQ resistance in P. vivax in India is scarce. Therefore, this systematic review aimed to assess the prevalence of CQ resistance in reported P.vivax cases from India. PubMed, EMBASE, and Web of Science, were searched using the search string: 'Malaria AND vivax AND chloroquine AND (resistance OR resistant) AND India'. We systematically reviewed in-vivo and in-vitro drug efficacy studies that investigated the CQ efficacy of P. vivax malaria between January 1995 and December 2022. Those studies where patients were followed up for at least 28 days after initiation of treatment were included. We identified 12 eligible CQ therapeutic efficacy studies involving 2470 patients, Of these 2329 patients were assessed by in-vivo therapeutic efficacy methods and the remaining 141 were assessed by in-vitro methods. CQ resistance was found in 25/1787 (1.39%) patients from in-vivo and in 11/141 (7.8%) patients from in-vitro drug efficacy studies. Based on the available studies, the prevalence of CQ resistance in P.vivax was found to be relatively lower in India. However, continued surveillance and monitoring are crucial to identify the emergence of CQ resistance. [ABSTRACT FROM AUTHOR]
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- 2024
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43. A dot-blot ELISA preliminary evaluation using PvMSP1-42 recombinant protein as antigen for serological diagnosis of Plasmodium vivax infection in Thailand.
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Choosang, Kantima, Boonsilp, Siriphan, Kritsiriwuthinan, Kanyanan, Chumchuang, Palin, Thanacharoensakun, Nanthawan, Saai, Aminoh, and Pongparit, Sawanya
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RECOMBINANT proteins ,ENZYME-linked immunosorbent assay ,PLASMODIUM vivax ,MALARIA ,ANTIGENS - Abstract
Plasmodium vivax is the most prevalent cause of malaria in Thailand and is predominant in malarial endemic areas worldwide. P. vivax infection is characterized by low parasitemia, latent liver-stage parasites, or asymptomatic infections leading to underreported P. vivax cases. These are significant challenges for controlling and eliminating P. vivax from endemic countries. This study developed and evaluated a dot-blot enzyme-linked immunosorbent assay (ELISA) using PvMSP1-42 recombinant antigen for serological diagnosis based on the detection of antibodies against P. vivax. The optimal PvMSP1-42 concentration and dilutions of anti-human IgG horseradish peroxidase (HRP)-conjugated antiserum were tested on 88 serum samples from P. vivax, Plasmodium falciparum and bacterial infection, including healthy individuals. A cut-off titer of 1:800 produced optimal values for sensitivity and specificity of 90.9 and 98.2%, respectively, with an accuracy of 95.5%. The positive and negative predictive values were 96.8 and 94.7% respectively. The results from microscopic examination and dot-blot ELISA showed strong agreement with the 0.902 kappa index. Thus, the dot-blot ELISA using PvMSP1-42 antigen provided high sensitivity and specificity suitable for serodiagnosis of P. vivax infection. The test is a simple and quick diagnostic assay suitable for field testing as it does not require specific equipment or particular skills. [ABSTRACT FROM AUTHOR]
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- 2024
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44. Intervention portfolios analysis of Plasmodium vivax control in central China
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Bo Bi, Logan Wu, Ying Liu, Xiao-Nong Zhou, Tianren Shen, Li Cao, Michael White, and Guo-Jing Yang
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Plasmodium vivax ,The People’s Republic of China ,Transmission model ,Portfolios analysis ,Intervention strategy ,Arctic medicine. Tropical medicine ,RC955-962 ,Infectious and parasitic diseases ,RC109-216 - Abstract
Abstract Background The effects of a diverse spectrum of malaria interventions were evaluated through a deterministic Plasmodium vivax transmission model. This approach aimed to provide theoretical evidence of the performance of these interventions once implemented for achieving malaria elimination. Methods An integrated intervention portfolio, including mass drug administration, insecticide treatment, and untreated bed nets, was analyzed through modeling. Additionally, data-driven calibration was implemented to infer coverages that effectively reproduced historical malaria patterns in China from 1971 to 1983. Results MDA utilizing primaquine emerged as the most effective single intervention, achieving a 70% reduction in malaria incidence when implemented at full coverage. Furthermore, a strategic combination of MDA with primaquine, chloroquine, untreated bed nets, and seasonal insecticide treatments effectively eradicated malaria, attaining elimination at a coverage level of 70%. It was conclusively demonstrated that an integrated approach combining MDA and vector control measures is essential for the successful elimination of malaria. Conclusion High coverage of mass drug administration with primaquine and chloroquine before transmission was the key driver of the malaria decline in China from 1971 to 1983. The best-fit intervention coverage combinations derived from calibration are provided as a reference for malaria control in other countries.
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- 2024
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45. The clinical, hematological, and biochemical profiles of patients with complications due to Plasmodium vivax malaria: A case series
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Amrita Jha, Sanjay Kumar Mandal, Ranjan Mondal, Sadhan Barman, Golam Muztaba, and Krishnendu Das
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malaria ,plasmodium vivax ,pancytopenia ,hyponatremia ,Medicine - Abstract
Malaria, a protozoal infection caused by the six species of the genus Plasmodium, is one of the most important diseases known to humankind, with most infections caused by either of the two species – Plasmodium vivax and Plasmodium falciparum. Previously, it was held that falciparum malaria was responsible for causing severe, life-threatening disease, with vivax malaria causing mild or uncomplicated infections. In this case series, the clinical, hematological, and biochemical profiles of eight patients with features of complications due to P. vivax malaria, along with their clinical course, response to treatment, and clinical outcomes have been described. Among these, the most common clinical features were fever, headache, and myalgias. Five patients had altered mental status, two were prostrated, two were hypotensive, and one had recurrent generalized seizures. Three patients had pancytopenia, two had both anemia and thrombocytopenia, and one had evidence of disseminated intravascular coagulation. Six patients had clinical jaundice, four had elevated transaminases, and four had acute kidney injury. All cases showed excellent response to anti-malarial therapy. Hence, this case series revealed that P. vivax is capable of causing severe, life-threatening organ dysfunction akin to those seen in P. falciparum malaria and that early diagnosis and treatment initiation are associated with positive patient end outcomes.
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- 2024
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46. Efficacy and safety of chloroquine plus primaquine for the treatment of Plasmodium vivax malaria in Hamusit site, Northwestern Ethiopia
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Habtamu Gebrie, Mulat Yimer, Animen Ayehu, Hussien Mohammed, Henok Hailgiorgis, Yonas Wuletaw, Mesay Hailu, Getachew Tolera, Geremew Tasew, Mogess Kassa, and Bokretsion Gidey
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Chloroquine ,Drug efficacy ,Ethiopia ,Plasmodium vivax ,Primaquine ,Arctic medicine. Tropical medicine ,RC955-962 ,Infectious and parasitic diseases ,RC109-216 - Abstract
Abstract Background Plasmodium vivax malaria is still an important public health problem in Ethiopia. Unlike Plasmodium falciparum, P. vivax has a dormant liver stage (hypnozoite) that can be a risk of recurrent vivax malaria unless treated by radical cure with primaquine. Drug resistance to chloroquine is threatening malaria control and elimination efforts. This study assessed the therapeutic efficacy and safety of chloroquine plus 14 days of primaquine on P. vivax infection based on parasitological, clinical, and haematological parameters. Methods A single-arm in vivo prospective therapeutic efficacy study was conducted to assess the clinical and parasitological response to the first-line treatment of P. vivax in Ethiopia, chloroquine plus 14 days low dose of (0.25 mg/kg/day) primaquine between December 2022 and March 2023 at Hamusit Health Centre using the standard World Health Organization (WHO) protocol. A total of 100 study participants with P. vivax mono-infection who were over 6 months old were enrolled and monitored for adequate clinical and parasitological responses for 42 days. The WHO double-entry Excel sheet and SPSS v.25 software were used for Kaplan–Meier survival analysis, and a paired t-test was used for analysis of haemoglobin improvements between follow up days. Results A total of 100 patients were enrolled among those, 96% cases were rural residents, 93% had previous malaria exposure, and predominant age group was 5–15 years (61%). 92.6% (95% CI 85.1–96.4%) of enrolled patients were adequate clinical and parasitological response, and 7.4% (95% CI 3.6–14.9%) recurrences were observed among treated patients. The fever and parasite clearance rate on day 3 were 98% and 94%, respectively. The baseline haemoglobin levels improved significantly compared to those days 14 and 42 (p
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- 2024
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47. A Molecular Docking and Dynamics Simulation Study on Prevention of Merozoite Red Blood Cell Invasion by Targeting Plasmodium vivax Duffy Binding Protein with Zingiberaceae Bioactive Compounds
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Muhammad Fikri Heikal, Wira Eka Putra, Sustiprijatno, Arief Hidayatullah, Diana Widiastuti, and Mardiana Lelitawati
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anti-malaria drug ,in silico ,plasmodium vivax ,pvdbp ,zingiberaceae ,Science ,Science (General) ,Q1-390 - Abstract
[Objective] Plasmodium vivax predominantly infects many people in numerous tropical areas, including Southeast Asia, the Western Pacific, the Americas, and the Eastern Mediterranean. The uniqueness of forming dormant stages can lead to relapse in vivax malaria upon further infection. This study used molecular docking and dynamic simulation to predict potential bioactive compounds from the Zingiberaceae plant family as inhibitors by targeting Plasmodium vivax Duffy Binding Protein (PvDBP). PvDBP-DARC molecular interaction is required to mediate the merozoite invasion process into red blood cells. Inhibiting this process can possibly control parasite growth and development. [Methodology] Molecular docking screening was conducted by using 138 natural compounds from the Zingiberaceae plant family targeting Plasmodium vivax Duffy binding protein (PvDBP). The top two compounds with the lowest binding energy were selected to be analyzed by pharmacokinetics prediction and molecular dynamic (MD) simulation. [Results] Molecular docking screening resulted in the top two compounds with the lowest binding energy value, including 5,7-dihydroxyflavanone (-9.3 kcal/mol) and pinostrobin (-9.2 kcal/mol). These compounds are predicted to have stronger interaction than chloroquine as a control. Furthermore, the potential compounds also interact with DARC binding site residues and maintain them during the molecular dynamic simulation process. Otherwise, chloroquine as a control cannot retain 75% binding residues towards PvDBP. A molecular dynamic study revealed that all three complexes have relatively similar stability. [Conclusions] We predicted that the two bioactive compounds (5,7-dihydroxyflavanone and pinostrobin) have the potential as merozoite invasion inhibitors.
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- 2024
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48. Detection of Duffy blood group genotypes and submicroscopic Plasmodium infections using molecular diagnostic assays in febrile malaria patients
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Beka R. Abagero, Rei Rama, Abdulghani Obeid, Tirusew Tolosa, Biniyam Lukas, Taye Teka, Daniel Tesfaye, Eugenia Lo, and Delenasaw Yewhalaw
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Malaria ,Submicroscopic Plasmodium infection ,Microscopy ,Quantitative PCR ,Duffy genotype ,Plasmodium vivax ,Arctic medicine. Tropical medicine ,RC955-962 ,Infectious and parasitic diseases ,RC109-216 - Abstract
Abstract Background Malaria remains a severe parasitic disease, posing a significant threat to public health and hindering economic development in sub-Saharan Africa. Ethiopia, a malaria endemic country, is facing a resurgence of the disease with a steadily rising incidence. Conventional diagnostic methods, such as microscopy, have become less effective due to low parasite density, particularly among Duffy-negative human populations in Africa. To develop comprehensive control strategies, it is crucial to generate data on the distribution and clinical occurrence of Plasmodium vivax and Plasmodium falciparum infections in regions where the disease is prevalent. This study assessed Plasmodium infections and Duffy antigen genotypes in febrile patients in Ethiopia. Methods Three hundred febrile patients visiting four health facilities in Jimma town of southwestern Ethiopia were randomly selected during the malaria transmission season (Apr–Oct). Sociodemographic information was collected, and microscopic examination was performed for all study participants. Plasmodium species and parasitaemia as well as the Duffy genotype were assessed by quantitative polymerase chain reaction (qPCR) for all samples. Data were analysed using Fisher’s exact test and kappa statistics. Results The Plasmodium infection rate by qPCR was 16% (48/300) among febrile patients, of which 19 (39.6%) were P. vivax, 25 (52.1%) were P. falciparum, and 4 (8.3%) were mixed (P. vivax and P. falciparum) infections. Among the 48 qPCR-positive samples, 39 (13%) were negative by microscopy. The results of bivariate logistic regression analysis showed that agriculture-related occupation, relapse and recurrence were significantly associated with Plasmodium infection (P
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- 2024
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49. Chloroquine has shown high therapeutic efficacy against uncomplicated Plasmodium vivax malaria in southern Ethiopia: seven decades after its introduction
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Anteneh Kassahun Mare, Hussein Mohammed, Heven Sime, Henok Hailgiorgis, Kale Gubae, Bekuretsion Gidey, Mebrahtom Haile, Gudissa Assefa, Worku Bekele, Sarah Auburn, Rick Price, Jonathan B. Parr, Jonathan J. Juliano, Geremew Tasew, Solomon Mequanente Abay, and Ashenafi Assefa
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Plasmodium vivax ,Chloroquine ,Therapeutic efficacy ,Arba Minch ,Ethiopia ,Arctic medicine. Tropical medicine ,RC955-962 ,Infectious and parasitic diseases ,RC109-216 - Abstract
Abstract Background Plasmodium vivax malaria is a leading cause of morbidity in Ethiopia. The first-line treatment for P. vivax is chloroquine (CQ) and primaquine (PQ), but there have been local reports of CQ resistance. A clinical study was conducted to determine the efficacy of CQ for the treatment of P. vivax malaria in southern Ethiopia. Methods In 2021, patients with P. vivax mono-infection and uncomplicated malaria were enrolled and treated with 25 mg/kg CQ for 3 consecutive days. Patients were followed for 28 days according to WHO guidelines. The data were analysed using per-protocol (PP) and Kaplan‒Meier (K‒M) analyses to estimate the risk of recurrent P. vivax parasitaemia on day 28. Results A total of 88 patients were enrolled, 78 (88.6%) of whom completed the 28 days of follow-up. Overall, 76 (97.4%) patients had adequate clinical and parasitological responses, and two patients had late parasitological failures. The initial therapeutic response was rapid, with 100% clearance of asexual parasitaemia within 48 h. Conclusion Despite previous reports of declining chloroquine efficacy against P. vivax, CQ retains high therapeutic efficacy in southern Ethiopia, supporting the current national treatment guidelines. Ongoing clinical monitoring of CQ efficacy supported by advanced molecular methods is warranted to inform national surveillance and ensure optimal treatment guidelines.
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- 2024
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50. Autochthonous Plasmodium vivax Infections, Florida, USA, 2023
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Azhar Muneer, Swamy R. Adapa, Suzane Silbert, Kelly Scanlan, Harold Vore, Andrew Cannons, Andrea M. Morrison, Danielle Stanek, Carina Blackmore, John H. Adams, Kami Kim, Rays H.Y. Jiang, and Liwang Cui
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Plasmodium vivax ,malaria ,genome ,origin ,parasite introduction ,parasites ,Medicine ,Infectious and parasitic diseases ,RC109-216 - Abstract
During May–July 2023, a cluster of 7 patients at local hospitals in Florida, USA, received a diagnosis of Plasmodium vivax malaria. Whole-genome sequencing of the organism from 4 patients and phylogenetic analysis with worldwide representative P. vivax genomes indicated probable single parasite introduction from Central/South America.
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- 2024
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