Your search keyword '"Marfurt, Jutta"' showing total 19 results

1. Field evaluation of the diagnostic performance of EasyScan GO: a digital malaria microscopy device based on machine-learning

Author

Das, Debashish, Vongpromek, Ranitha, Assawariyathipat, Thanawat, Srinamon, Ketsanee, Kennon, Kalynn, Stepniewska, Kasia, Ghose, Aniruddha, Sayeed, Abdullah Abu, Faiz, M. Abul, Netto, Rebeca Linhares Abreu, Siqueira, Andre, Yerbanga, Serge R., Ouédraogo, Jean Bosco, Callery, James J., Peto, Thomas J., Tripura, Rupam, Koukouikila-Koussounda, Felix, Ntoumi, Francine, Ong’echa, John Michael, Ogutu, Bernhards, Ghimire, Prakash, Marfurt, Jutta, Ley, Benedikt, Seck, Amadou, Ndiaye, Magatte, Moodley, Bhavani, Sun, Lisa Ming, Archasuksan, Laypaw, Proux, Stephane, Nsobya, Sam L., Rosenthal, Philip J., Horning, Matthew P., McGuire, Shawn K., Mehanian, Courosh, Burkot, Stephen, Delahunt, Charles B., Bachman, Christine, Price, Ric N., Dondorp, Arjen M., Chappuis, François, Guérin, Philippe J., and Dhorda, Mehul

Published

2022

2. A fluorometric assay to determine the protective effect of glucose-6-phosphate dehydrogenase (G6PD) against a Plasmodium spp. infection in females heterozygous for the G6PD gene: proof of concept in Plasmodium falciparum

Author

Rumaseb, Angela, Marfurt, Jutta, Kho, Steven, Kahn, Maria, Price, Ric N., and Ley, Benedikt

Published

2022

3. Implementing parasite genotyping into national surveillance frameworks: feedback from control programmes and researchers in the Asia–Pacific region

Author

Noviyanti, Rintis, Miotto, Olivo, Barry, Alyssa, Marfurt, Jutta, Siegel, Sasha, Thuy-Nhien, Nguyen, Quang, Huynh Hong, Anggraeni, Nancy Dian, Laihad, Ferdinand, Liu, Yaobao, Sumiwi, Maria Endang, Trimarsanto, Hidayat, Coutrier, Farah, Fadila, Nadia, Ghanchi, Najia, Johora, Fatema Tuj, Puspitasari, Agatha Mia, Tavul, Livingstone, Trianty, Leily, Utami, Retno Ayu Setya, Wang, Duoquan, Wangchuck, Kesang, Price, Ric N., and Auburn, Sarah

Published

2020

4. Analysis of erroneous data entries in paper based and electronic data collection

Author

Ley, Benedikt, Rijal, Komal Raj, Marfurt, Jutta, Adhikari, Naba Raj, Banjara, Megha Raj, Shrestha, Upendra Thapa, Thriemer, Kamala, Price, Ric N., and Ghimire, Prakash

Published

2019

5. Plasmodium falciparum artemisinin resistance monitoring in Sabah, Malaysia: in vivo therapeutic efficacy and kelch13 molecular marker surveillance

Author

Grigg, Matthew J., William, Timothy, Piera, Kim A., Rajahram, Giri S., Jelip, Jenarun, Aziz, Ammar, Menon, Jayaram, Marfurt, Jutta, Price, Ric N., Auburn, Sarah, Barber, Bridget E., Yeo, Tsin W., and Anstey, Nicholas M.

Published

2018

6. Quantifying primaquine effectiveness and improving adherence: a round table discussion of the APMEN Vivax Working Group

Author

Thriemer, Kamala, Bobogare, Albino, Ley, Benedikt, Gudo, Clarice Samo, Alam, Mohammad Shafiul, Anstey, Nick M., Ashley, Elizabeth, Baird, J. Kevin, Gryseels, Charlotte, Jambert, Elodie, Lacerda, Marcus, Laihad, Ferdinand, Marfurt, Jutta, Pasaribu, Ayodhia Pitaloka, Poespoprodjo, Jeanne Rini, Sutanto, Inge, Taylor, Walter R., van den Boogaard, Christel, Battle, Katherine E., Dysoley, Lek, Ghimire, Prakash, Hawley, Bill, Hwang, Jimee, Khan, Wasif Ali, Mudin, Rose Nani Binti, Sumiwi, Maria Endang, Ahmed, Rukhsana, Aktaruzzaman, M. M., Awasthi, Kiran Raj, Bardaji, Azucena, Bell, David, Boaz, Leonard, Burdam, Faustina Helen, Chandramohan, Daniel, Cheng, Qin, Chindawongsa, Keobouphaphone, Culpepper, Janice, Das, Santasabuj, Deray, Raffy, Desai, Meghna, Domingo, Gonzalo, Duoquan, Wang, Duparc, Stephan, Floranita, Rustini, Gerth-Guyette, Emily, Howes, Rosalind E., Hugo, Cecilia, Jagoe, George, Sariwati, Elvieda, Jhora, Sanya Tahmina, Jinwei, Wu, Karunajeewa, Harin, Kenangalem, Enny, Lal, Bibek Kumar, Landuwulang, Chandra, Le Perru, Emmanuel, Lee, Sang-Eun, Makita, Leo Sora, McCarthy, James, Mekuria, Asrat, Mishra, Neelima, Naket, Esau, Nambanya, Simone, Nausien, Johnny, Duc, Thang Ngo, Thi, Thuan Nguyen, Noviyanti, Rinitis, Pfeffer, Daniel, Qi, Gao, Rahmalia, Annisa, Rogerson, Stephen, Samad, Iriani, Sattabongkot, Jetsumon, Satyagraha, Ari, Shanks, Dennis, Sharma, Surender Nath, Sibley, Carol Hopkins, Sungkar, Ali, Syafruddin, Din, Talukdar, Arunansu, Tarning, Joel, ter Kuile, Feiko, Thapa, Suman, Theodora, Minerva, Huy, Tho Tran, Waramin, Edward, Waramori, Govert, Woyessa, Adugna, Wongsrichanalai, Chansuda, Xa, Nguyen Xuan, Yeom, Joon Sup, Hermawan, Lukas, Devine, Angela, Nowak, Spike, Jaya, Indra, Supargiyono, Supargiyono, Grietens, Koen Peeters, and Price, Ric N.

Published

2018

7. Low risk of recurrence following artesunate–Sulphadoxine–pyrimethamine plus primaquine for uncomplicated Plasmodium falciparum and Plasmodium vivax infections in the Republic of the Sudan

Author

Hamid, Muzamil Mahdi Abdel, Thriemer, Kamala, Elobied, Maha E., Mahgoub, Nouh S., Boshara, Salah A., Elsafi, Hassan M. H., Gumaa, Suhaib A., Hamid, Tassneem, Abdelbagi, Hanadi, Basheir, Hamid M., Marfurt, Jutta, Chen, Ingrid, Gosling, Roly, Price, Ric N., and Ley, Benedikt

Published

2018

8. Molecular analysis demonstrates high prevalence of chloroquine resistance but no evidence of artemisinin resistance in Plasmodium falciparum in the Chittagong Hill Tracts of Bangladesh.

Author

Alam, Mohammad Shafiul, Ley, Benedikt, Nima, Maisha Khair, Johora, Fatema Tuj, Hossain, Mohammad Enayet, Thriemer, Kamala, Auburn, Sarah, Marfurt, Jutta, Price, Ric N., and Khan, Wasif A.

Subjects

PLASMODIUM falciparum, CHLOROQUINE, ANTIMALARIALS, ARTEMISININ

Abstract

Background: Artemisinin resistance is present in the Greater Mekong region and poses a significant threat for current anti-malarial treatment guidelines in Bangladesh. The aim of this molecular study was to assess the current status of drug resistance in the Chittagong Hill Tracts of Bangladesh near the Myanmar border. Methods: Samples were obtained from patients enrolled into a Clinical Trial (NCT02389374) conducted in Alikadam, Bandarban between August 2014 and January 2015. Plasmodium falciparum infections were confirmed by PCR and all P. falciparum positive isolates genotyped for the pfcrt K76T and pfmdr1 N86Y markers. The propeller region of the kelch 13 (k13) gene was sequenced from isolates from patients with delayed parasite clearance. Results: In total, 130 P. falciparum isolates were available for analysis. The pfcrt mutation K76T, associated with chloroquine resistance was found in 81.5% (106/130) of cases and the pfmdr1 mutation N86Y in 13.9% (18/130) cases. No single nucleotide polymorphisms were observed in the k13 propeller region. Conclusion: This study provides molecular evidence for the ongoing presence of chloroquine resistant P. falciparum in Bangladesh, but no evidence of mutations in the k13 propeller domain associated with artemisinin resistance. Monitoring for artemisinin susceptibility in Bangladesh is needed to ensure early detection and containment emerging anti-malarial resistance. [ABSTRACT FROM AUTHOR]

Published

2017

9. Challenges for achieving safe and effective radical cure of Plasmodium vivax: a round table discussion of the APMEN Vivax Working Group.

Author

Thriemer, Kamala, Ley, Benedikt, Bobogare, Albino, Dysoley, Lek, Alam, Mohammad Shafiul, Pasaribu, Ayodhia P., Sattabongkot, Jetsumon, Jambert, Elodie, Domingo, Gonzalo J., Commons, Robert, Auburn, Sarah, Marfurt, Jutta, Devine, Angela, Aktaruzzaman, Mohammad M., Sohel, Nayeem, Namgay, Rinzin, Drukpa, Tobgyel, Sharma, Surender Nath, Sarawati, Elvieda, and Samad, Iriani

Subjects

PRIMAQUINE, PLASMODIUM vivax, MALARIA prevention, PUBLIC health conferences, GLYCOGEN storage disease type I

Abstract

The delivery of safe and effective radical cure for Plasmodium vivax is one of the greatest challenges for achieving malaria elimination from the Asia-Pacific by 2030. During the annual meeting of the Asia Pacific Malaria Elimination Network Vivax Working Group in October 2016, a round table discussion was held to discuss the programmatic issues hindering the widespread use of primaquine (PQ) radical cure. Participants included 73 representatives from 16 partner countries and 33 institutional partners and other research institutes. In this meeting report, the key discussion points are presented and grouped into five themes: (i) current barriers for glucose-6-phosphate deficiency (G6PD) testing prior to PQ radical cure, (ii) necessary properties of G6PD tests for wide scale deployment, (iii) the promotion of G6PD testing, (iv) improving adherence to PQ regimens and (v) the challenges for future tafenoquine (TQ) roll out. Robust point of care (PoC) G6PD tests are needed, which are suitable and cost-effective for clinical settings with limited infrastructure. An affordable and competitive test price is needed, accompanied by sustainable funding for the product with appropriate training of healthcare staff, and robust quality control and assurance processes. In the absence of quantitative PoC G6PD tests, G6PD status can be gauged with qualitative diagnostics, however none of the available tests is currently sensitive enough to guide TQ treatment. TQ introduction will require overcoming additional challenges including the management of severely and intermediately G6PD deficient individuals. Robust strategies are needed to ensure that effective treatment practices can be deployed widely, and these should ensure that the caveats are outweighed by the benefits of radical cure for both the patients and the community. Widespread access to quality controlled G6PD testing will be critical. [ABSTRACT FROM AUTHOR]

Published

2017

10. Transfusion-transmitted severe Plasmodium knowlesi malaria in a splenectomized patient with beta-thalassaemia major in Sabah, Malaysia: a case report.

Author

Bird, Elspeth M., Parameswaran, Uma, William, Timothy, Tien Meng Khoo, Grigg, Matthew J., Aziz, Ammar, Marfurt, Jutta, Yeo, Tsin W., Auburn, Sarah, Anstey, Nicholas M., and Barber, Bridget E.

Subjects

MALARIA transmission, PLASMODIUM, SPLENECTOMY, PLASMODIUM falciparum, PLASMODIUM vivax

Abstract

Background: Transfusion-transmitted malaria (TTM) is a well-recognized risk of receiving blood transfusions, and has occurred with Plasmodium falciparum, Plasmodium vivax, Plasmodium ovale, and Plasmodium malariae. The simian parasite Plasmodium knowlesi is also known to be transmissible through inoculation of infected blood, and this species is now the most common cause of malaria in Malaysia with a high rate of severity and fatal cases reported. No confirmed case of accidental transfusion-transmitted P. knowlesi has yet been reported. Case presentation: A 23-year old splenectomized patient with beta thalassaemia major presented with fever 11 days after receiving a blood transfusion from a pre-symptomatic donor who presented with knowlesi malaria 12 days following blood donation. The infection resulted in severe disease in the recipient, with a parasite count of 84,000/µL and associated metabolic acidosis and multi-organ failure. She was treated with intravenous artesunate and made a good recovery. Sequencing of a highly diverse 649-base pair fragment of the P. knowlesi bifunctional dihydrofolate reductase-thymidylate synthase gene (pkdhfr) revealed that the recipient and donor shared the same haplotype. Conclusions: This case demonstrates that acquisition of P. knowlesi from blood transfusion can occur, and that clinical consequences can be severe. Furthermore, this case raises the possibility that thalassaemic patients, particularly those who are splenectomized, may represent a high-risk group for TTM and severe malaria. With rising P. knowlesi incidence, further studies in Sabah are required to determine the risk of TTM in order to guide screening strategies for blood transfusion services. [ABSTRACT FROM AUTHOR]

Published

2016

11. Characterization of blood dendritic and regulatory T cells in asymptomatic adults with sub-microscopic Plasmodium falciparum or Plasmodium vivax infection.

Author

Kho, Steven, Marfurt, Jutta, Handayuni, Irene, Pava, Zuleima, Noviyanti, Rintis, Kusuma, Andreas, Piera, Kim A., Burdam, Faustina H., Kenangalem, Enny, Lampah, Daniel A., Engwerda, Christian R., Poespoprodjo, Jeanne R., Price, Ric N., Anstey, Nicholas M., Minigo, Gabriela, and Woodberry, Tonia

Subjects

*T cells, *PLASMODIUM falciparum, *DENDRITIC cells, *MALARIA, *POLYMERASE chain reaction

Abstract

Background: Plasmodium falciparum and Plasmodium vivax infections compromise dendritic cell (DC) function and expand regulatory T (Treg) cells in both clinical disease (malaria) and experimental human sub-microscopic infection. Conversely, in asymptomatic microscopy-positive (patent) P. falciparum or P. vivax infection in endemic areas, blood DC increase or retain HLA-DR expression and Treg cells exhibit reduced activation, suggesting that DC and Treg cells contribute to the control of patent asymptomatic infection. The effect of sub-microscopic (sub-patent) asymptomatic Plasmodium infection on DC and Treg cells in malaria-endemic area residents remains unclear. Methods: In a cross-sectional household survey conducted in Papua, Indonesia, 162 asymptomatic adults were prospectively evaluated for DC and Treg cells using field-based flow cytometry. Of these, 161 individuals (99 %) were assessed retrospectively by polymerase chain reaction (PCR), 19 of whom had sub-microscopic infection with P. falciparum and 15 with sub-microscopic P. vivax infection. Flow cytometric data were re-analysed after re-grouping asymptomatic individuals according to PCR results into negative controls, sub-microscopic and microscopic parasitaemia to examine DC and Treg cell phenotype in sub-microscopic infection. Results: Asymptomatic adults with sub-microscopic P. falciparum or P. vivax infection had DC HLA-DR expression and Treg cell activation comparable to PCR-negative controls. Sub-microscopic P. falciparum infection was associated with lower peripheral CD4+ T cells and lymphocytes, however sub-microscopic Plasmodium infection had no apparent effect on DC sub-set number or Treg cell frequency. Conclusions: In contrast to the impairment of DC maturation/function and the activation of Treg cells seen with sub-microscopic parasitaemia in primary experimental human Plasmodium infection, no phenotypic evidence of dysregulation of DC and Treg cells was observed in asymptomatic sub-microscopic Plasmodium infection in Indonesian adults. This is consistent with DC and Treg cells retaining their functional capacity in sub-microscopic asymptomatic infection with P. falciparum or P. vivax in malaria-endemic areas. [ABSTRACT FROM AUTHOR]

Published

2016

12. Differences in PfEMP1s recognized by antibodies from patients with uncomplicated or severe malaria.

Author

Duffy, Michael F., Noviyanti, Rintis, Takafumi Tsuboi, Zhi-Ping Feng, Trianty, Leily, Sebayang, Boni F., Takashima, Eizo, Sumardy, Fransisca, Lampah, Daniel A., Turner, Louise, Lavstsen, Thomas, Fowkes, Freya J. I., Siba, Peter, Rogerson, Stephen J., Theander, Thor G., Marfurt, Jutta, Price, Ric N., Anstey, Nicholas M., Brown, Graham V., and Papenfuss, Anthony T.

Subjects

MALARIA, PLASMODIUM falciparum, IMMUNOGLOBULINS, ANTIGENIC variation, ERYTHROCYTES, IMMUNITY

Abstract

Background: Plasmodium falciparum erythrocyte membrane protein 1 (PfEMP1) variants are encoded by var genes and mediate pathogenic cytoadhesion and antigenic variation in malaria. PfEMP1s can be broadly divided into three principal groups (A, B and C) and they contain conserved arrangements of functional domains called domain cassettes. Despite their tremendous diversity there is compelling evidence that a restricted subset of PfEMP1s is expressed in severe disease. In this study antibodies from patients with severe and uncomplicated malaria were compared for differences in reactivity with a range of PfEMP1s to determine whether antibodies to particular PfEMP1 domains were associated with severe or uncomplicated malaria. Methods: Parts of expressed var genes in a severe malaria patient were identified by RNAseq and several of these partial PfEMP1 domains were expressed together with others from laboratory isolates. Antibodies from Papuan patients to these parts of multiple PfEMP1 proteins were measured. Results: Patients with uncomplicated malaria were more likely to have antibodies that recognized PfEMP1 of Group C type and recognized a broader repertoire of group A and B PfEMP1s than patients with severe malaria. Conclusion: These data suggest that exposure to a broad range of group A and B PfEMP1s is associated with protection from severe disease in Papua, Indonesia. [ABSTRACT FROM AUTHOR]

Published

2016

13. Analysis of ex vivo drug response data of Plasmodium clinical isolates: the pros and cons of different computer programs and online platforms.

Author

Wirjanata, Grennady, Handayuni, Irene, Zaloumis, Sophie G., Chalfein, Ferryanto, Prayoga, Pak, Kenangalem, Enny, Poespoprodjo, Jeanne Rini, Noviyanti, Rintis, Simpson, Julie A., Price, Ric N., and Marfurt, Jutta

Subjects

DISEASE susceptibility, ANTIMALARIALS, DRUG resistance, IN vitro toxicity testing, STATISTICAL correlation, CHLOROQUINE, AMODIAQUINE

Abstract

Background: In vitro drug susceptibility testing of malaria parasites remains an important component of surveillance for anti-malarial drug resistance. The half-maximal inhibition of growth (IC50) is the most commonly reported parameter expressing drug susceptibility, derived by a variety of statistical approaches, each with its own advantages and disadvantages. Methods: In this study, licensed computer programs WinNonlin and GraphPad Prism 6.0, and the open access programs HN-NonLin, Antimalarial ICEstimator (ICE), and In Vitro Analysis and Reporting Tool (IVART) were tested for their ease of use and ability to estimate reliable IC50 values from raw drug response data from 31 Plasmodium falciparum and 29 P. vivax clinical isolates tested with five anti-malarial agents: chloroquine, amodiaquine, piperaquine, mefloquine, and artesunate. Results: The IC50 and slope estimates were similar across all statistical packages for all drugs tested in both species. There was good correlation of results derived from alternative statistical programs and non-linear mixed-effects modelling (NONMEM) which models all isolate data simultaneously. The user-friendliness varied between packages. While HN-NonLin and IVART allow users to enter the data in 96-well format, IVART and GraphPad Prism 6.0 are capable to analyse multiple isolates and drugs in parallel. WinNonlin, GraphPad Prism 6.0, IVART, and ICE provide alerts for non-fitting data and incorrect data entry, facilitating data interpretation. Data analysis using WinNonlin or ICE took the longest computationally, whilst the offline ability of GraphPad Prism 6.0 to analyse multiple isolates and drugs simultaneously made it the fastest among the programs tested. Conclusion: IC50 estimates obtained from the programs tested were comparable. In view of processing time and ease of analysis, GraphPad Prism 6.0 or IVART are best suited for routine and large-scale drug susceptibility testing. [ABSTRACT FROM AUTHOR]

Published

2016

14. Quantification of Plasmodium ex vivo drug susceptibility by flow cytometry.

Author

Wirjanata, Grennady, Handayuni, Irene, Prayoga, Pak, Apriyanti, Dwi, Chalfein, Ferryanto, Sebayang, Boni F., Kho, Steven, Noviyanti, Rintis, Kenangalem, Enny, Campo, Brice, Poespoprodjo, Jeanne Rini, Price, Ric N., and Marfurt, Jutta

Subjects

MALARIA, PLASMODIUM falciparum, PLASMODIUM vivax, MULTIDRUG resistance, FLOW cytometry

Abstract

Background: The emergence and spread of multidrug-resistant Plasmodium falciparum and Plasmodium vivax highlights the need for objective measures of ex vivo drug susceptibility. Flow cytometry (FC) has potential to provide a robust and rapid quantification of ex vivo parasite growth. Methods: Field isolates from Papua, Indonesia, underwent ex vivo drug susceptibility testing against chloroquine, amodiaquine, piperaquine, mefloquine, and artesunate. A single nucleic acid stain (i.e., hydroethidine (HE) for P. falciparum and SYBR Green I (SG) for P. vivax) was used to quantify infected red blood cells by FC-based signal detection. Data derived by FC were compared to standard quantification by light microscopy (LM). A subset of isolates was used to compare single and double staining techniques. Results: In total, 57 P. falciparum and 23 P. vivax field isolates were collected for ex vivo drug susceptibility testing. Reliable paired data between LM and FC was obtained for 88 % (295/334) of these assays. The median difference of derived IC50 values varied from −5.4 to 6.1 nM, associated with 0.83–1.23 fold change in IC50 values between LM and FC. In 15 assays (5.1 %), the derived difference of IC50 estimates was beyond the 95 % limits of agreement; in eleven assays (3.7 %), this was attributable to low parasite growth (final schizont count < 40 %), and in four assays (1.4 %) due to low initial parasitaemia at the start of assay (<2000 µl−1). In a subset of seven samples, LM, single and double staining FC techniques generated similar IC50 values. Conclusions: A single staining FC-based assay using a portable cytometer provides a simple, fast and versatile platform for field surveillance of ex vivo drug susceptibility in clinical P. falciparum and P. vivax isolates. [ABSTRACT FROM AUTHOR]

Published

2015

15. Plasmodium falciparum resistance to anti-malarial drugs in Papua New Guinea: evaluation of a community-based approach for the molecular monitoring of resistance.

Author

Marfurt, Jutta, Smith, Thomas A., Hastings, Ian M., Müller, Ivo, Sie, Albert, Oa, Olive, Baisor, Moses, Reeder, John C., Beck, Hans-Peter, and Genton, Blaise

Subjects

*DRUG resistance in microorganisms, *PLASMODIUM falciparum, *ANTIMALARIALS, *MOLECULAR parasitology, *SOCIAL surveys, *DNA microarrays, *GENETIC mutation

Abstract

Background: Molecular monitoring of parasite resistance has become an important complementary tool in establishing rational anti-malarial drug policies. Community surveys provide a representative sample of the parasite population and can be carried out more rapidly than accrual of samples from clinical cases, but it is not known whether the frequencies of genetic resistance markers in clinical cases differ from those in the overall population, or whether such community surveys can provide good predictions of treatment failure rates. Methods: Between 2003 and 2005, in vivo drug efficacy of amodiaquine or chloroquine plus sulphadoxine-pyrimethamine was determined at three sites in Papua New Guinea. The genetic drug resistance profile (i.e., 33 single nucleotide polymorphisms in Plasmodium falciparum crt, mdr1, dhfr, dhps, and ATPase6) was concurrently assessed in 639 community samples collected in the catchment areas of the respective health facilities by using a DNA microarray-based method. Mutant allele and haplotype frequencies were determined and their relationship with treatment failure rates at each site in each year was investigated. Results: PCR-corrected in vivo treatment failure rates were between 12% and 28% and varied by site and year with variable longitudinal trends. In the community samples, the frequencies of mutations in pfcrt and pfmdr1 were high and did not show significant changes over time. Mutant allele frequencies in pfdhfr were moderate and those in pfdhps were low. No mutations were detected in pfATPase6. There was much more variation between sites than temporal, within-site, variation in allele and haplotype frequencies. This variation did not correlate well with treatment failure rates. Allele and haplotype frequencies were very similar in clinical and community samples from the same site. Conclusions: The relationship between parasite genetics and in vivo treatment failure rate is not straightforward. The frequencies of genetic anti-malarial resistance markers appear to be very similar in community and clinical samples, but cannot be used to make precise predictions of clinical outcome. Thus, indicators based on molecular data have to be considered with caution and interpreted in the local context, especially with regard to prior drug usage and level of pre-existing immunity. Testing community samples for molecular drug resistance markers is a complementary tool that should help decision-making for the best treatment options and appropriate potential alternatives. [ABSTRACT FROM AUTHOR]

Published

2010

16. Monitoring of malaria parasite resistance to chloroquine and sulphadoxine-pyrimethamine in the Solomon Islands by DNA microarray technology.

Author

Ballif, Marie, Hii, Jeffrey, Marfurt, Jutta, Crameri, Andreas, Fafale, Adam, Felger, Ingrid, Beck, Hans-Peter, and Genton, Blaise

Subjects

MALARIA, DRUGS, DRUG resistance, ARTEMISININ

Abstract

Background: Little information is available on resistance to anti-malarial drugs in the Solomon Islands (SI). The analysis of single nucleotide polymorphisms (SNPs) in drug resistance associated parasite genes is a potential alternative to classical time- and resource-consuming in vivo studies to monitor drug resistance. Mutations in pfmdr1 and pfcrt were shown to indicate chloroquine (CQ) resistance, mutations in pfdhfr and pfdhps indicate sulphadoxine-pyrimethamine (SP) resistance, and mutations in pfATPase6 indicate resistance to artemisinin derivatives. Methods: The relationship between the rate of treatment failure among 25 symptomatic Plasmodium falciparuminfected patients presenting at the clinic and the pattern of resistance-associated SNPs in P. falciparum infecting 76 asymptomatic individuals from the surrounding population was investigated. The study was conducted in the SI in 2004. Patients presenting at a local clinic with microscopically confirmed P. falciparum malaria were recruited and treated with CQ+SP. Rates of treatment failure were estimated during a 28-day follow-up period. In parallel, a DNA microarray technology was used to analyse mutations associated with CQ, SP, and artemisinin derivative resistance among samples from the asymptomatic community. Mutation and haplotype frequencies were determined, as well as the multiplicity of infection. Results: The in vivo study showed an efficacy of 88% for CQ+SP to treat P. falciparum infections. DNA microarray analyses indicated a low diversity in the parasite population with one major haplotype present in 98.7% of the cases. It was composed of fixed mutations at position 86 in pfmdr1, positions 72, 75, 76, 220, 326 and 356 in pfcrt, and positions 59 and 108 in pfdhfr. No mutation was observed in pfdhps or in pfATPase6. The mean multiplicity of infection was 1.39. Conclusion: This work provides the first insight into drug resistance markers of P. falciparum in the SI. The obtained results indicated the presence of a very homogenous P. falciparum population circulating in the community. Although CQ+SP could still clear most infections, seven fixed mutations associated with CQ resistance and two fixed mutations related to SP resistance were observed. Whether the absence of mutations in pfATPase6 indicates the efficacy of artemisinin derivatives remains to be proven. [ABSTRACT FROM AUTHOR]

Published

2010

17. Heterogeneous distribution of Plasmodium falciparum drug resistance haplotypes in subsets of the host population.

Author

Schoepflin, Sonja, Marfurt, Jutta, Goroti, Mary, Baisor, Moses, Mueller, Ivo, and Felger, Ingrid

Subjects

*DRUG resistance in microorganisms, *PLASMODIUM falciparum, *GENETIC mutation, *ANTIMALARIALS, *GENETIC polymorphisms

Abstract

Background: The emergence of drug resistance is a major problem in malaria control. For mathematical modelling of the transmission and spread of drug resistance the determinant parameters need to be identified and measured. The underlying hypothesis is that mutations associated with drug resistance incur fitness costs to the parasite in absence of drug pressure. The distribution of drug resistance haplotypes in different subsets of the host population was investigated. In particular newly acquired haplotypes after radical cure were characterized and compared to haplotypes from persistent infections. Methods: Mutations associated with antimalarial drug resistance were analysed in parasites from children, adults, and new infections occurring after treatment. Twenty-five known single nucleotide polymorphisms from four Plasmodium falciparum genes associated with drug resistance were genotyped by DNA chip technology. Results: Haplotypes were found to differ between subsets of the host population. A seven-fold mutated haplotype was significantly reduced in adults compared to children and new infections, whereas parasites harbouring fewer mutations were more frequent in adults. Conclusion: The reduced frequency of highly mutated parasites in chronic infections in adults is likely a result of fitness costs of drug resistance that increases with number of mutations and is responsible for reduced survival of mutant parasites. [ABSTRACT FROM AUTHOR]

Published

2008

18. The usefulness of twenty-four molecular markers in predicting treatment outcome with combination therapy of amodiaquine plus sulphadoxine-pyrimethamine against falciparum malaria in Papua New Guinea.

Author

Marfurt, Jutta, Müller, Ivo, Sie, Albert, Oa, Olive, Reeder, John C., Smith, Thomas A., Beck, Hans-Peter, and Genton, Blaise

Subjects

*ANTIMALARIALS, *MALARIA, *COMBINATION drug therapy, *CHLOROQUINE, *PLASMODIUM falciparum

Abstract

Background: In Papua New Guinea (PNG), combination therapy with amodiaquine (AQ) or chloroquine (CQ) plus sulphadoxine-pyrimethamine (SP) was introduced as first-line treatment against uncomplicated malaria in 2000. Methods: We assessed in vivo treatment failure rates with AQ+SP in two different areas in PNG and twenty-four molecular drug resistance markers of Plasmodium falciparum were characterized in pretreatment samples. The aim of the study was to investigate the association between infecting genotype and treatment response in order to identify useful predictors of treatment failure with AQ+SP. Results: In 2004, Day-28 treatment failure rates for AQ+SP were 29% in the Karimui and 19% in the South Wosera area, respectively. The strongest independent predictors for treatment failure with AQ+SP were pfmdr1 N86Y (OR = 7.87, p < 0.01) and pfdhps A437G (OR = 3.44, p < 0.01). Mutations found in CQ/AQ related markers pfcrt K76T, A220S, N326D, and I356L did not help to increase the predictive value, the most likely reason being that these mutations reached almost fixed levels. Though mutations in SP related markers pfdhfr S108N and C59R were not associated with treatment failure, they increased the predictive value of pfdhps A437G. The difference in treatment failure rate in the two sites was reflected in the corresponding genetic profile of the parasite populations, with significant differences seen in the allele frequencies of mutant pfmdr1 N86Y, pfmdr1 Y184F, pfcrt A220S, and pfdhps A437G. Conclusion: The study provides evidence for high levels of resistance to the combination regimen of AQ+SP in PNG and indicates which of the many molecular markers analysed are useful for the monitoring of parasite resistance to combinations with AQ+SP. [ABSTRACT FROM AUTHOR]

Published

2008

19. Low risk of recurrence following artesunate–Sulphadoxine–pyrimethamine plus primaquine for uncomplicated <italic>Plasmodium falciparum</italic> and <italic>Plasmodium vivax</italic> infections in the Republic of the Sudan.

Author

Hamid, Muzamil Mahdi Abdel, Thriemer, Kamala, Elobied, Maha E., Mahgoub, Nouh S., Boshara, Salah A., Elsafi, Hassan M. H., Gumaa, Suhaib A., Hamid, Tassneem, Abdelbagi, Hanadi, Basheir, Hamid M., Marfurt, Jutta, Chen, Ingrid, Gosling, Roly, Price, Ric N., and Ley, Benedikt

Subjects

PLASMODIUM falciparum, PLASMODIUM vivax, PRIMAQUINE, DISEASE relapse prevention, PUBLIC health, THERAPEUTICS

Abstract

Background: First-line schizontocidal treatment for uncomplicated malaria in the Republic of the Sudan is artesunate (total dose 12 mg/kg) plus Sulphadoxine/pyrimethamine (25/1.25 mg/kg) (AS/SP). Patients with Plasmodium vivax are also treated with 14 days primaquine (total dose 3.5 mg/kg) (PQ). The aim of this study was to assess the efficacy of the national policy. Methods: Patients above 1 year, with microscopy-confirmed, Plasmodium falciparum and/or P. vivax malaria were treated with AS/SP. Patients with P. falciparum were randomized to no primaquine (Pf-noPQ) or a single 0.25 mg/kg dose of PQ (Pf-PQ1). Patients with P. vivax received 14 days unsupervised 3.5 mg/kg PQ (Pv-PQ14) on day 2 or at the end of follow up (Pv-noPQ). Primary endpoint was the risk of recurrent parasitaemia at day 42. G6PD activity was measured by spectrophotometry and the Accessbio Biosensor™. Results: 231 patients with P. falciparum (74.8%), 77 (24.9%) with P. vivax and 1 (0.3%) patient with mixed infection were enrolled. The PCR corrected cumulative risk of recurrent parasitaemia on day 42 was 3.8% (95% CI 1.2–11.2%) in the Pf-noPQ arm compared to 0.9% (95% CI 0.1–6.0%) in the Pf-PQ1 arm; (HR = 0.25 [95% CI 0.03–2.38], p = 0.189). The corresponding risks of recurrence were 13.4% (95% CI 5.2–31.9%) in the Pv-noPQ arm and 5.3% (95% CI 1.3–19.4%) in the Pv-PQ14 arm (HR 0.36 [95% CI 0.1–2.0], p = 0.212). Two (0.9%) patients had G6PD enzyme activity below 10%, 19 (8.9%) patients below 60% of the adjusted male median. Correlation between spectrophotometry and Biosensor™ was low (rs = 0.330, p < 0.001). Conclusion: AS/SP remains effective for the treatment of P. falciparum and P. vivax. The addition of PQ reduced the risk of recurrent P. falciparum and P. vivax by day 42, although this did not reach statistical significance. The version of the Biosensor™ assessed is not suitable for routine use. Trial registrationhttps://clinicaltrials.gov/ct2/show/NCT02592408 [ABSTRACT FROM AUTHOR]

Published

2018