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

This paper considers the participation of macrophages, thymus-dependent lymphocytes (T-cells), and thymus-independent lymphocytes (B-cells) in man's immune response to malaria. Although phagocytosis by macrophages is an important feature of malaria the full extent of cooperation between these cells and T- and B-cells is not known. Evidence that T-cells play an important defensive role is at present unconvincing. B-cells on the other hand function importantly in the synthesis of immunoglobulins and specific antibodies and factors possibly influencing their activity are considered. Different epidemiological patterns of malaria antibodies in sera are described and the need for the routine inclusion of reliable antibody detection tests as part of malaria survey techniques, particularly where antimalarial drug usage is frequent, is emphasized.
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PMID:Mechanisms of acquired immunity and epidemiological patterns of antibody responses in malaria in man. 461 8

Guidelines are presented to assist the prescriber in arriving at a logical and up-to-date approach to the chemoprophylaxis of malaria, particularly for residents of and visitors to Africa. Areas of controversy are highlighted, with a critical but simplified practical approach being taken to a complex subject. The importance of a history of recent travel in a patient presenting with an unexplained fever is stressed. A series of tables listing geographical areas where chloroquine- and other drug-resistant Plasmodium falciparum is found is provided as an aid to the logical selection of prophylactic agents for the traveller. For convenience, tables of dosages for all ages are given. Similarly, an algorithm is provided to facilitate decision-making in drug usage. The controversial topic of malaria prophylaxis in pregnancy is discussed in the light of published information. Although the prophylaxis of possible drug-resistant malaria has been alluded to in Part I, in Part II of this series the treatment and theoretical aspects of resistant malaria will be covered with a view to providing guidelines for those faced with this ever-increasing problem.
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PMID:Malaria 1984. Part I. Malaria prophylaxis. 637 24

Stochastic processes play a vital role in the early stages of the evolution of drug-resistant malaria. We present a simple and flexible method for investigating these processes and understanding how they affect the emergence of drug-resistant malaria. Qualitatively different predictions can be made depending on the biological and epidemiological factors which prevail in the field. Intense intra-host competition between co-infecting clones, low numbers of genes required to encode resistance, and high drug usage all encourage the emergence of drug resistance. Drug-resistant forms present at the time drug application starts are less likely to survive than those which arise subsequently; survival of the former largely depends on how rapidly malaria population size stabilizes after drug application. In particular, whether resistance is more likely to emerge in areas of high or low transmission depends on malaria intra-host dynamics, the level of drug usage, the population regulation of malaria, and the number of genes required to encode resistance. These factors are discussed in relation to the practical implementation of drug control programmes.
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PMID:The emergence of drug-resistant malaria. 983 5

The emergence of chloroquine resistance has been associated with a dramatic increase in malaria mortality in some human populations from endemic regions. Plasmodium falciparum drug resistant malaria originates from chromosomal mutations. Analysis using molecular, genetic and biochemical approaches has shown that 1) impaired intake of chloroquine by the parasite vacuole is a common characteristic of resistant strains, the chloroquine-resistance mechanism regulates the access of chloroquine to hematin, this phenotype correlates with Pfmdr1 and Pfcg2 gene mutations; 2) one to four point mutations of dihydrofolate reductase, the enzyme target of antifolinics (pyrimethamine and proguanil), give moderate to high levels of resistance to these drugs but there is a fitness cost to resistance; 3) the mechanism of resistance to sulfonamides and sulfones involves mutations of dihydropteroate synthase, their enzyme target; 4) treatment with sulphadoxine-pyrimethamine (SP) selected for the variants Ile(51), Arg(59) and Asn(108) of DHFR and for the variants Ser(436), Gly(437), and Glu(540) of DHPS; 5)clones that were resistant to some traditional antimalarial agents acquired resistance to new ones at high frequency (accelerated resistance to multiple drugs--ARMD). Amino-alcohol (quinine, mefloquine, halofantrine) mechanisms of resistance are still unclear. Population genetic studies have confirmed that selfing is more frequent in Plasmodium falciparum where the transmission rate is lower in some regions such as Papua-New Guinea, whereas isolates from individuals on the Thai-Burmese border, an area of hypoendemic transmission, revealed a higher number of genotypes per infected person. It has been suggested that intense intra-host competition between co-infecting clones, low numbers of genes required to encode resistance, and high drug usage all encourage the emergence of drug resistance. On the other hand, the greater effective recombination in high transmission areas may breakdown multiple drug resistance when it is coded for by two unlinked loci. Epidemiological studies have established that the frequency of chloroquine resistant mutants varies among parasite isolate populations while resistance to antifolinics is highly prevalent in most malarial endemic countries (more than 92% of Kenyan field isolates have undergone at least one point mutation). Established and strong drug pressure as well as low antiparasitic immunity probably explains the multidrug-resistance encountered in forests of Southeast Asia and South America. In Africa, frequent genetic recombinations in Plasmodium originate from a high level of malaria transmission, and falciparum chloroquine-resistant prevalence seems to stabilise at an equal level as chloroquine-sensitive malaria. Clinical studies demonstrated that control of clinical symptoms is better when chloroquine is used with sulphadoxine-pyrimethamine (SP) than when SP is used alone, and the cure rate also tends to be higher with the triple combination regimen.
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PMID:[Mechanisms and dynamics of drug resistance in Plasmodium falciparum]. 1057 58

We describe the changing epidemiology of drug resistant malaria in Thailand over the past decade. Factors determining the characteristic patterns of the development and spread of resistance to anti-malarial drugs on the Thai-Cambodian border and the Thai-Myanmar border are explored, namely, population dynamics, drug usage and malaria control measures. The introduction of artesunate-mefloquine combination in selected areas along the two borders in 1995 is believed to be one of the multiple factors responsible for stabilizing the multidrug resistance problems in Thailand today. Other control measures and inter-governmental co-operation must continue to be strengthened in order to limit the spread of drug resistance malaria in the Southeast Asian region.
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PMID:Drug resistant malaria on the Thai-Myanmar and Thai-Cambodian borders. 1148 94

Malaria draws global attention in a cyclic manner, with interest and associated financing waxing and waning according to political and humanitarian concerns. Currently we are on an upswing, which should be carefully developed. Malaria parasites have been eliminated from Europe and North America through the use of residual insecticides and manipulation of environmental and ecological characteristics; however, in many tropical and some temperate areas the incidence of disease is increasing dramatically. Much of this increase results from a breakdown of effective control methods developed and implemented in the 1960s, but it has also occurred because of a lack of trained scientists and control specialists who live and work in the areas of endemic infection. Add to this the widespread resistance to the most effective antimalarial drug, chloroquine, developing resistance to other first-line drugs such as sulfadoxine-pyrimethamine, and resistance of certain vector species of mosquito to some of the previously effective insecticides and we have a crisis situation. Vaccine research has proceeded for over 30 years, but as yet there is no effective product, although research continues in many promising areas. A global strategy for malaria control has been accepted, but there are critics who suggest that the single strategy cannot confront the wide range of conditions in which malaria exists and that reliance on chemotherapy without proper control of drug usage and diagnosis will select for drug resistant parasites, thus exacerbating the problem. An integrated approach to control using vector control strategies based on the biology of the mosquito, the epidemiology of the parasite, and human behavior patterns is needed to prevent continued upsurge in malaria in the endemic areas.
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PMID:Integrated approach to malaria control. 1193 33

Drug resistance in malarial parasites has become a major obstacle in the control of the disease. Strategies are urgently needed to control the development of resistance and to possibly reverse existing resistance. One key element required to reverse malaria drug resistance is for the parasites to "pay" a biological "cost" or suffer a loss of fitness when acquiring resistance to antimalarial drugs. Such a situation would be a disadvantage to the resistant parasites in the absence of drug pressure. We compared here the relative fitness of atovaquone-resistant Plasmodium falciparum K1 clones with single and double base mutations in their cytochrome b genes to their parent clones during erythrocytic stages in the absence of drug pressure. We found that the double amino acid mutation (M133I and G280D) is associated with a 5 to 9% loss of fitness and that the single amino acid change of M133I did not result in any detectable loss of fitness. Molecular modeling of the interaction of P. falciparum cytochrome b with ubiquinone led to the prediction that a loss of fitness of the malaria parasites would result from the G280D mutation due to its close proximity to the putative ubiquinone-binding site. This appears to have resulted in a weakening of the cytochrome b-ubiquinone complex, thereby causing the electron transport chain to become less efficient. Our results suggest that the prevalence of resistant parasites may decrease after the drug usage is discontinued.
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PMID:Mutations in cytochrome b resulting in atovaquone resistance are associated with loss of fitness in Plasmodium falciparum. 1212 15

Plasmodium falciparum shows plasticity in its genome. For its survival it can delete certain genes (or portions) if not needed for its growth and has the capability to regulate its genes under various stages of its life cycle as well as under unfavourable environmental conditions. Parasite shows enormous amount of antigenic variation under immune pressure leading to the emergence of vaccine resistant strains. Similarly, under drug pressure it allows mutations to settle in the target genes. It is becoming more and more clear that with the continuous exposure to a drug, the parasite accumulates more and more number of mutations in these genes. By measuring the number of these point mutations among field isolates one can predict the efficacy of a particular drug. Therefore, these markers are useful tools at epidemiological level. This molecular surveillance can also help in slowing down the drug resistance if supported by a careful drug usage policy. Further studies are required to develop molecular markers for rest of the antimalarial drugs as well as the improvement on the existing molecular tools for accurate and rapid detection of drug resistant malaria.
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PMID:Genetic alteration in drug resistance markers of Plasmodium falciparum. 1571 74

Sulfadoxine-pyrimethamine (SP) resistance in Plasmodium falciparum has been widespread across continents, causing the major hurdle of controlling malaria. Resistance is encoded mainly by point mutations in P. falciparum dihydrofolate reductase (pfdhfr) and dihydropteroate synthase (pfdhps) target genes. To study the origin and evolution of pyrimethamine resistance on the Indian subcontinent, microsatellite markers flanking the pfdhfr gene were mapped. Here we describe the characteristics of genetic hitchhiking around the pfdhfr gene among 190 P. falciparum isolates. These isolates were collected from five different geographical regions of India (Uttar Pradesh, Madhya Pradesh, Assam, Orissa, and Andaman and Nicobar Islands) where malarial transmission rates and levels of drug resistance vary across regions. Among the isolates, we observed a significant reduction in genetic variation in the +/-20-kb vicinity of the mutant pfdhfr alleles due to hitchhiking. This reduction in genetic diversity was more prominent around quadruple pfdhfr alleles (heterozygosity [H(e)] = 0.23) than around double (H(e) = 0.365) and single (H(e) = 0.465) mutant alleles. Asymmetry in the selective sweep flanking the pfdhfr alleles was observed with regional isolates, emphasizing the drug usage with the parasite population. All the pfdhfr alleles share a single microsatellite haplotype and seem to have originated from a single progenitor similar to that of Southeast Asian (Thailand) pfdhfr mutants. Results of the present study also indicate that the emergence of drug-resistant alleles is a recent phenomenon in India compared to Southeast Asian countries.
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PMID:Characteristics of genetic hitchhiking around dihydrofolate reductase gene associated with pyrimethamine resistance in Plasmodium falciparum isolates from India. 1978 3

The evolution of drug-resistant pathogens is a major challenge for 21st century medicine. Drug use practices vigorously advocated as resistance management tools by professional bodies, public health agencies, and medical schools represent some of humankind's largest attempts to manage evolution. It is our contention that these practices have poor theoretical and empirical justification for a broad spectrum of diseases. For instance, rapid elimination of pathogens can reduce the probability that de novo resistance mutations occur. This idea often motivates the medical orthodoxy that patients should complete drug courses even when they no longer feel sick. Yet "radical pathogen cure" maximizes the evolutionary advantage of any resistant pathogens that are present. It could promote the very evolution it is intended to retard. The guiding principle should be to impose no more selection than is absolutely necessary. We illustrate these arguments in the context of malaria; they likely apply to a wide range of infections as well as cancer and public health insecticides. Intuition is unreliable even in simple evolutionary contexts; in a social milieu where in-host competition can radically alter the fitness costs and benefits of resistance, expert opinion will be insufficient. An evidence-based approach to resistance management is required.
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PMID:The evolution of drug resistance and the curious orthodoxy of aggressive chemotherapy. 2169 Mar 76


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