Displaying publications 1 - 20 of 133 in total

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  1. Govindasamy G, Barber BE, Ghani SA, William T, Grigg MJ, Borooah S, et al.
    J Infect Dis, 2016 May 1;213(9):1476-82.
    PMID: 26671886 DOI: 10.1093/infdis/jiv746
    Plasmodium knowlesicauses severe malaria, but its pathogenesis is poorly understood. Retinal changes provide insights into falciparum malaria pathogenesis but have not been studied in knowlesi malaria.
    Matched MeSH terms: Malaria, Falciparum
  2. EDESON JF, FIELD JW
    Br Med J, 1950 Jan 21;1(4646):147-51.
    PMID: 15409891
    Matched MeSH terms: Malaria, Falciparum*
  3. Safar HF, Ali AH, Zakaria NH, Kamal N, Hassan NI, Agustar HK, et al.
    Trop Biomed, 2022 Dec 01;39(4):552-558.
    PMID: 36602215 DOI: 10.47665/tb.39.4.011
    Diplazium esculentum is an edible fern commonly consumed by the local community in Malaysia either as food or medicine. Isolation work on the ethyl acetate extract of the stem of D. esculentum resulted in the purification of two steroids, subsequently identified as stigmasterol (compound 1) and ergosterol5,8-endoperoxide (compound 2). Upon further testing, compound 2 displayed strong inhibitory activity against the Plasmodium falciparum 3D7 (chloroquine-sensitive) strain, with an IC50 of 4.27±1.15 µM, while compound 1 was inactive. In silico data revealed that compound 2 showed good binding affinity to P. falciparum-Sarco endoplasmic reticulum calcium-dependent ATPase (PfATP6); however, compound 1 did not show an antiplasmodial effect due to the lack of a peroxide moiety in the chemical structure. Our data suggested that the antiplasmodial activity of compound 2 from D. esculentum might be due to the inhibition of PfATP6, which resulted in both in vitro and in silico inhibitory properties.
    Matched MeSH terms: Malaria, Falciparum*
  4. Gockchinar T, Kalipsi S
    Med Parazitol (Mosk), 2001 Jan-Mar;?(1):44-5.
    PMID: 11548315
    Geographically, Turkey is situated in an area where malaria is very risky. The climatic conditions in the region are suitable for the malaria vector to proliferate. Due to agricultural infrastructural changes, GAP and other similar projects, insufficient environmental conditions, urbanization, national and international population moves, are a key to manage malaria control activities. It is estimated that malaria will be a potential danger for Turkey in the forthcoming years. The disease is located largely in south-eastern Anatolia. The Diyarbakir, Batman, Sanliurfa, Siirt, and Mardin districts are the most affected areas. In western districts, like Aydin and Manisa, an increase in the number of indigenous cases can be observed from time to time. This is due to workers moving from malaria districts to western parts to final work. Since these workers cannot be controlled, the population living in these regions get infected from indigenous cases. There were 84,345 malaria cases in 1994 and 82,096 in 1995, they decreased to 60,884 in 1996 and numbered 35,456 in 1997. They accounted for 36,842 and 20,963 in 1998 and 1999, respectively. In Turkey there are almost all cases of P. vivax malaria. There are also P. vivax and P. falciparum malaria cases coming from other countries: There were 321 P. vivax cases, including 2 P. falciparum ones, arriving to Turkey from Iraq in 1995. The P. vivax malaria cases accounted for 229 in 1996, and 67, cases P. vivax including 12 P. falciparum cases, in 1997, and 4 P. vivax cases in 1998 that came from that country. One P. vivax case entered Turkey from Georgia in 1998. The cause of higher incidence of P. vivax cases in 1995, it decreasing in 1999, is the lack of border controls over workers coming to Turkey. The other internationally imported cases are from Syria, Sudan, Pakistan, Afghanistan, Nigeria, India, Azerbaijan, Malaysia, Ghana, Indonesia, Yemen. Our examinations have shown that none of these internationally imported cases are important in transmitting the diseases. The districts where malaria cases occur are the places where population moves are rapid, agriculture is the main occupation, the increase in the population is high and the education/cultural level is low. Within years, the districts with high malaria cases also differ. Before 1990 Cucurova and Amikova were the places that showed the highest incidence of malaria. Since 1990, the number of cases from south-eastern Anatolia has started to rise. The main reasons for this change are a comprehensive malaria prevention programme, regional development, developed agricultural systems, and lower population movements. The 1999 statistical data indicate that 83 and 17% of all malaria cases are observed in the GAP and other districts, respectively. The distribution of malaria cases in Turkey differs by months and climatic conditions. The incidence of malaria starts to rise in March, reaching its peak in July, August and September, begins to fall in October. In other words, the number of malaria cases is lowest in winter and reaches its peak in summer and autumn. This is not due to the parasite itself, but a climatic change is a main reason. In the past years the comprehensive malaria prevention programme has started bearing its fruits. Within the WHO Roll Back Malaria strategies, Turkey has started to implement its national malaria control projects, the meeting held on March 22, 2000, coordinated the country's international cooperation for this purpose. The meeting considered the aim of the project to be introduced into other organizations. In this regards, the target for 2002 is to halve the incidence of malaria as compared to 1999. The middle--and long-term incidence of malaria will be lowered to even smaller figures. The objectives of this project are as follows: to integrate malaria services with primary health care services to prove more effective studies; to develop early diagnosis and treatment systems, to provide better diagnostic services, and to develop mobile diagnostic ones; to make radical treatment and monitoring patients; to conduct regular active case surveillance studies; to conduct regular vector control studies; to monitor the sensitivity of vectors to insecticides and to provide their alternatives; to design malaria control studies for the specialists of districts; to implement educational programmes among the population and attract it in controlling malaria.
    Matched MeSH terms: Malaria, Falciparum/epidemiology*; Malaria, Falciparum/prevention & control; Malaria, Falciparum/transmission
  5. Melo JO, Padilha MAO, Barbosa RTA, Alonso WJ, Vittor AY, Laporta GZ
    Trop Biomed, 2020 Jun;37(2):513-535.
    PMID: 33235398
    After a centenary fight against malaria, Brazil has seen an opportunity for change with the proposal of the malaria elimination policy set by the Brazilian government, in line with malaria elimination policies in other Latin American countries. Brazilian malaria experts regard eliminating malaria by 2030 to be within reach. Herein we evaluated the likelihood that malaria elimination can be accomplished in Brazil through systematic review of the literature on malaria elimination in Brazil and epidemiological analysis. Fifty-two articles referring to malaria eradication/elimination in Brazil were analyzed to identify challenges and technological breakthroughs for controlling malaria. Monthly deaths (1979-2016) and monthly severe malaria cases (1998-2018) were analyzed according to age groups, geographic region and parasite species. As a result, we observed that the declining malaria burden was mostly attributable to a decline in Plasmodium falciparum-malaria. At the same time, the proportional increase of Plasmodium vivax-malaria in comparison with P. falciparum-malaria was notable. This niche replacement mechanism was discussed in the reviewed literature. In addition, the challenges to P. vivax-malaria elimination outnumbered the available technological breakthroughs. Although accumulated and basic information exists on mosquito vector biology, the lack of specific knowledge about mosquito vector taxonomy and ecology may hamper current attempts at stopping malaria in the country. An impressive reduction in malaria hospitalizations and mortality was seen in Brazil in the past 3 decades. Eliminating malaria deaths in children less than 5 years and P. falciparum severe cases may be achievable goals under the current malaria policy until 2030. However, eliminating P. vivax malaria transmission and morbidity seems unattainable with the available tools. Therefore, complete malaria elimination in Brazil in the near future is unlikely.
    Matched MeSH terms: Malaria, Falciparum/epidemiology*; Malaria, Falciparum/parasitology; Malaria, Falciparum/prevention & control
  6. Naing C, Aung K, Ahmed SI, Mak JW
    PMID: 22936859 DOI: 10.2147/DHPS.S34493
    For all medications, there is a trade-off between benefits and potential for harm. It is important for patient safety to detect drug-event combinations and analyze by appropriate statistical methods. Mefloquine is used as chemoprophylaxis for travelers going to regions with known chloroquine-resistant Plasmodium falciparum malaria. As such, there is a concern about serious adverse events associated with mefloquine chemoprophylaxis. The objective of the present study was to assess whether any signal would be detected for the serious adverse events of mefloquine, based on data in clinicoepidemiological studies.
    Matched MeSH terms: Malaria, Falciparum
  7. Al-Hamidhi S, Mahdy MA, Idris MA, Bin Dajem SM, Al-Sheikh AA, Al-Qahtani A, et al.
    Infect Genet Evol, 2014 Oct;27:25-31.
    PMID: 24981966 DOI: 10.1016/j.meegid.2014.06.015
    In the Arabian Peninsula malaria control is progressing steadily, backed by adequate logistic and political support. As a result, transmission has been interrupted throughout the region, with exception of limited sites in Yemen and Saudi Arabia. Here we examined Plasmodium falciparum parasites in these sites to assess if the above success has limited diversity and gene flow.
    Matched MeSH terms: Malaria, Falciparum/epidemiology; Malaria, Falciparum/parasitology*; Malaria, Falciparum/prevention & control; Malaria, Falciparum/transmission
  8. Alareqi LM, Mahdy MA, Lau YL, Fong MY, Abdul-Ghani R, Ali AA, et al.
    Malar J, 2016 Jan 28;15:49.
    PMID: 26821911 DOI: 10.1186/s12936-016-1103-2
    Malaria is a public health threat in Yemen, with 149,451 cases being reported in 2013. Of these, Plasmodium falciparum represents 99%. Prompt diagnosis by light microscopy (LM) and rapid diagnostic tests (RTDs) is a key element in the national strategy of malaria control. The heterogeneous epidemiology of malaria in the country necessitates the field evaluation of the current diagnostic strategies, especially RDTs. Thus, the present study aimed to evaluate LM and an RDT, combining both P. falciparum histidine-rich protein-2 (PfHRP-2) and Plasmodium lactate dehydrogenase (pLDH), for falciparum malaria diagnosis and survey in a malaria-endemic area during the transmission season against nested polymerase chain reaction (PCR) as the reference method.
    Matched MeSH terms: Malaria, Falciparum/diagnosis*; Malaria, Falciparum/genetics; Malaria, Falciparum/parasitology; Malaria, Falciparum/transmission*
  9. Tabuk TC, Ulger S
    Med Parazitol (Mosk), 2000 Apr-Jun.
    PMID: 10900916
    Turkey is the last country in the temperate zone on the edge of the European continent in which malaria is prevalent at endemic and occasionally epidemic proportions. Malaria was the most significant vector borne disease constituting a serious healthy problem until it was suppressed in 1965. Following the establishment of malaria eradication program in 1957 which began operation in 1960 after many years of malaria control, the incidence of malaria decreased annually and the stricken areas became more and more restricted. Unfortunately, an agricultural development program initiated in mid 70's in the Cukurova Plain caused a substantial migration of workers from the eastern areas where malaria at that time was more prevalent. This population movement together with the industrial expansion that took place resulted in a serious epidemic of vivax malaria in 1977 in the provinces of Adana, Icel and Hatay, where 101,867 cases were reported. The following years, Turkey targeted to reduce the number of malaria cases to less than 800 by 1984. After 1985, the number of malaria cases in the country has continued to increase and in the past five and six years a serious malaria epidemics has been building up in the southeastern provinces. The gravitational center of the disease has now moved from the Cukurova to the GAP area in South East Anatolia and beyond. The indicator of this movement is that 89% of total cases in 1998 is concerning to the GAP region. By the year 1998 the number of reported cases were 36,842. The common parasite type is P. vivax in the country. The other types are generally imported from other countries. These are Syria, S. Arabia, Pakistan, Afghanistan, Yemen, Nigeria, India, Malaysia, Ghana, Indonesia, Sudan etc. Malaria cases are registered in bordering areas of the country constantly. The suggested solutions for Malaria control in bordering areas are: 1. To establish control laboratories in customs in order to take blood from persons who come from risky areas for malaria. When positive cases are found these laboratories will also provide free treatment. 2. East country should give information about the malaria situation in their country to the other countries.
    Matched MeSH terms: Malaria, Falciparum/epidemiology*
  10. Moore CS, Cheong I
    Br J Clin Pract, 1995 Nov-Dec;49(6):304-7.
    PMID: 8554954
    The clinical, haematological and biochemical profiles of all domestic and imported malaria cases admitted to the Hospital Kuala Lumpur were analysed. The most common malaria types were Plasmodium falciparum (39.5%) and Plasmodium vivax (42%). The most common patient type was men aged 29-40 years (reflecting the high mobility of this group, many of whom were illegal immigrants). Misdiagnosis on admission was frequently due to the variable clinical presentation of the disease and the difficulties of obtaining an accurate history. Associated haematological abnormalities were common. Chloroquine resistance was diagnosed in four P. falciparum patients and in one P. falciparum/vivax patient. Overall, imported malaria did not seem more severe than domestic. The three patients with cerebral malaria survived. One patient died of acute liver failure. The large influx of illegal immigrants to Malaysia has resulted in a surge in malaria infection; illegal immigrants remain a source of chloroquine resistance.
    Matched MeSH terms: Malaria, Falciparum/epidemiology*
  11. Abdullah NR, Furuta T, Taib R, Kita K, Kojima S, Wah MJ
    Am J Trop Med Hyg, 1996 Feb;54(2):162-3.
    PMID: 8619441
    We describe here a reverse transcriptase-polymerase chain reaction method for the detection of malaria parasites. Ten in vitro-cultured isolates of Plasmodium falciparum and 16 specimens from patients infected with P. falciparum were used to examine the specificity and sensitivity of the test. The sensitivity of the test was 0.3 parasites per microliter of blood. Specificity was determined by matching the sequences of the specimens' DNA to published sequences of 18S ribosomal RNA genes in the species-specific region. The test proved to be very sensitive and specific for the detection of P. falciparum infection.
    Matched MeSH terms: Malaria, Falciparum/diagnosis*
  12. Sidhu PS, Ng SC
    Ann Acad Med Singap, 1991 May;20(3):324-7.
    PMID: 1929172
    The case records of 64 patients with malaria over a five year period admitted to the University Hospital, Kuala Lumpur were examined. There were 32 cases of P. falciparum, 26 cases of P. vivax and two cases of mixed infections. Four cases of P. malariae were recorded. The clinical findings, biochemical and haematological parameters were examined for any indication of a pernicious syndrome. A high index of suspicion of a malarial infection may be based on the findings of anaemia, thrombocytopaenia, hyponatraemia, renal failure and abnormal liver function tests in the face of a negative blood film. These pernicious syndromes occur more often in malignant tertian malaria (anaemia 50%, hyponatraemia 39.1%) but a high percentage of the other malarial species show these abnormalities (P. vivax anaemia 57.7%, hyponatraemia 19.2%). When these abnormalities are present but blood films for malaria parasites are negative, repeat blood films are warranted until a parasitological diagnosis is achieved and correct treatment may be started.
    Matched MeSH terms: Malaria, Falciparum/diagnosis
  13. MONTGOMERY R, EYLES DE
    Trans R Soc Trop Med Hyg, 1963 Nov;57:409-16.
    PMID: 14081295
    Matched MeSH terms: Malaria, Falciparum*
  14. Chua CLL, Ng IMJ, Yap BJM, Teo A
    Malar J, 2021 Jul 16;20(1):319.
    PMID: 34271941 DOI: 10.1186/s12936-021-03849-1
    There are seven known species of Plasmodium spp. that can infect humans. The human host can mount a complex network of immunological responses to fight infection and one of these immune functions is phagocytosis. Effective and timely phagocytosis of parasites, accompanied by the activation of a regulated inflammatory response, is beneficial for parasite clearance. Functional studies have identified specific opsonins, particularly antibodies and distinct phagocyte sub-populations that are associated with clinical protection against malaria. In addition, cellular and molecular studies have enhanced the understanding of the immunological pathways and outcomes following phagocytosis of malaria parasites. In this review, an integrated view of the factors that can affect phagocytosis of infected erythrocytes and parasite components, the immunological consequences and their association with clinical protection against Plasmodium spp. infection is provided. Several red blood cell disorders and co-infections, and drugs that can influence phagocytic capability during malaria are also discussed. It is hoped that an enhanced understanding of this immunological process can benefit the design of new therapeutics and vaccines to combat this infectious disease.
    Matched MeSH terms: Malaria, Falciparum/parasitology
  15. Anthony TG, Conway DJ, Cox-Singh J, Matusop A, Ratnam S, Shamsul S, et al.
    J Infect Dis, 2005 May 1;191(9):1558-64.
    PMID: 15809916
    The population genetic structure of Plasmodium falciparum differs between endemic regions, but the characteristics of a population recently fragmented by effective malaria control have been unknown.
    Matched MeSH terms: Malaria, Falciparum/epidemiology
  16. Sandosham AA
    Singapore Med J, 1963 Mar;4(1):3-5.
    PMID: 14162703
    Matched MeSH terms: Malaria, Falciparum*
  17. Dooley NL, Chabikwa TG, Pava Z, Loughland JR, Hamelink J, Berry K, et al.
    Nat Commun, 2023 Nov 15;14(1):7387.
    PMID: 37968278 DOI: 10.1038/s41467-023-43181-7
    Plasmodium falciparum malaria drives immunoregulatory responses across multiple cell subsets, which protects from immunopathogenesis, but also hampers the development of effective anti-parasitic immunity. Understanding malaria induced tolerogenic responses in specific cell subsets may inform development of strategies to boost protective immunity during drug treatment and vaccination. Here, we analyse the immune landscape with single cell RNA sequencing during P. falciparum malaria. We identify cell type specific responses in sub-clustered major immune cell types. Malaria is associated with an increase in immunosuppressive monocytes, alongside NK and γδ T cells which up-regulate tolerogenic markers. IL-10-producing Tr1 CD4 T cells and IL-10-producing regulatory B cells are also induced. Type I interferon responses are identified across all cell types, suggesting Type I interferon signalling may be linked to induction of immunoregulatory networks during malaria. These findings provide insights into cell-specific and shared immunoregulatory changes during malaria and provide a data resource for further analysis.
    Matched MeSH terms: Malaria, Falciparum*
  18. Turkiewicz A, Manko E, Oresegun DR, Nolder D, Spadar A, Sutherland CJ, et al.
    Sci Rep, 2023 Feb 07;13(1):2142.
    PMID: 36750737 DOI: 10.1038/s41598-023-29368-4
    The zoonotic Plasmodium knowlesi parasite is a growing public health concern in Southeast Asia, especially in Malaysia, where elimination of P. falciparum and P. vivax malaria has been the focus of control efforts. Understanding of the genetic diversity of P. knowlesi parasites can provide insights into its evolution, population structure, diagnostics, transmission dynamics, and the emergence of drug resistance. Previous work has revealed that P. knowlesi fall into three main sub-populations distinguished by a combination of geographical location and macaque host (Macaca fascicularis and M. nemestrina). It has been shown that Malaysian Borneo groups display profound heterogeneity with long regions of high or low divergence resulting in mosaic patterns between sub-populations, with some evidence of chromosomal-segment exchanges. However, the genetic structure of non-Borneo sub-populations is less clear. By gathering one of the largest collections of P. knowlesi whole-genome sequencing data, we studied structural genomic changes across sub-populations, with the analysis revealing differences in Borneo clusters linked to mosquito-related stages of the parasite cycle, in contrast to differences in host-related stages for the Peninsular group. Our work identifies new genetic exchange events, including introgressions between Malaysian Peninsular and M. nemestrina-associated clusters on various chromosomes, including in parasite invasion genes (DBP[Formula: see text], NBPX[Formula: see text] and NBPX[Formula: see text]), and important proteins expressed in the vertebrate parasite stages. Recombination events appear to have occurred between the Peninsular and M. fascicularis-associated groups, including in the DBP[Formula: see text] and DBP[Formula: see text] invasion associated genes. Overall, our work finds that genetic exchange events have occurred among the recognised contemporary groups of P. knowlesi parasites during their evolutionary history, leading to apparent mosaicism between these sub-populations. These findings generate new hypotheses relevant to parasite evolutionary biology and P. knowlesi epidemiology, which can inform malaria control approaches to containing the impact of zoonotic malaria on human communities.
    Matched MeSH terms: Malaria, Falciparum*
  19. Segasothy M, Swaminathan M, Kong NC
    Med J Malaysia, 1994 Dec;49(4):412-5.
    PMID: 7674979
    We report two patients who had cerebral malaria, heavy parasitemia, hyperbilirubinemia, hypercatabolism with rapid rises of blood urea and serum creatinine and acute renal failure. There was no evidence of intravascular hemolysis. Renal biopsy was consistent with acute tubular necrosis. Both patients responded to treatment with intravenous quinine and dialysis.
    Matched MeSH terms: Malaria, Falciparum/complications*; Malaria, Falciparum/parasitology; Malaria, Falciparum/therapy
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