首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 15 毫秒
1.
Petersen I  Eastman R  Lanzer M 《FEBS letters》2011,585(11):1551-1562
Resistance to antimalarial drugs has often threatened malaria elimination efforts and historically has led to the short-term resurgence of malaria incidences and deaths. With concentrated malaria eradication efforts currently underway, monitoring drug resistance in clinical settings complemented by in vitro drug susceptibility assays and analysis of resistance markers, becomes critical to the implementation of an effective antimalarial drug policy. Understanding of the factors, which lead to the development and spread of drug resistance, is necessary to design optimal prevention and treatment strategies. This review attempts to summarize the unique factors presented by malarial parasites that lead to the emergence and spread of drug resistance, and gives an overview of known resistance mechanisms to currently used antimalarial drugs.  相似文献   

2.
The spread of resistance to antimalarial drugs has required changes in the recommended first-line treatment for falciparum malaria in almost all regions. Most drugs recommended currently are combinations of a long-acting antimalarial and an artemisinin derivative. This article presents the rationale for establishing a web-based, open-access database of antimalarial drug resistance and efficacy: the World Antimalarial Resistance Network (WARN). The goal of this network is to assemble the tools and information that will enable the malaria community to collate, analyze and share contemporary information on antimalarial-drug efficacy in all endemic regions so that decisions on antimalarial-drug use are based on solid evidence.  相似文献   

3.
Successful malaria control depends heavily on efficacious anti-malarial drugs for the treatment of malaria. Artesunate-containing Combination Treatments (ACT) are increasingly recommended as first line malaria treatment in endemic countries, but implementation of this recommendation is limited by the small number of available and affordable co-formulated anti-malarial drugs. In recent years Intermittent Preventive Treatment has been recommended for malaria control in pregnancy and has been shown to be of potential public health importance in the prevention of malaria and anaemia in children. The use of drugs for malaria treatment or prevention is associated with the development of resistance and recent advances in molecular biology facilitate the evaluation of the impact on drug resistance of new drug-based strategies. This review concentrates on the challenges surrounding the use of ACT, the current understanding of IPT in infants and the use of molecular approaches to enhance our understanding of the effects of interventions on the spread of drug resistance.  相似文献   

4.
Drug resistant malaria was a major factor contributing to the failure of a worldwide campaign to eradicate malaria in the last century, and now threatens the large investment being made by the global community in the rollout of effective new drug combinations to replace failed drugs. Four related papers in this issue of Malaria Journal make the case for creating the World Antimalarial Resistance Network (WARN), which will consist of four linked open-access global databases containing clinical, in vitro, molecular and pharmacological data, and networks of reference laboratories that will support these databases and related surveillance activities. WARN will serve as a public resource to guide antimalarial drug treatment and prevention policies and to help confirm and characterize the new emergence of new resistance to antimalarial drugs and to contain its spread.  相似文献   

5.
Spread of chloroquine resistance in Plasmodium falciparum   总被引:14,自引:0,他引:14  
Malaria resistant to chloroquine has now been confirmed in more than 40 countries. The drug was introduced in 1934, but was not in large-scale use until the early 1950s. Anecdotal reports suggest that resistance emerged as early as 1957 both in Colombia and along the then Cambodia-Thailand border area. But by 1960, resistance in these areas was confirmed - and may represent two separate events. Resistance spread rapidly, with a new focus of resistance confirmed in East Africa by 1977. Chloroquine resistance represents a severe problem both for prophylaxis and treatment of malaria. In this aricle, David Payne traces the spread of resistance and discusses some of its implications.  相似文献   

6.
Plasmodium falciparum malaria is subject to artificial selection from antimalarial drugs that select for drug-resistant parasites. We describe and apply a flexible new approach to investigate how epistasis, inbreeding, selection heterogeneity and multiple simultaneous drug deployments interact to influence the spread of drug-resistant malaria. This framework recognizes that different human 'environments' within which treatment may occur (such as semi- and non-immune humans taking full or partial drug courses) influence the genetic interactions between parasite loci involved in resistance. Our model provides an explanation for how the rate of spread varies according to different malaria transmission intensities, why resistance might stabilize at intermediate frequencies and also identifies several factors that influence the decline of resistance after a drug is removed. Results suggest that studies based on clinical outcomes might overestimate the spread of resistant parasites, especially in high-transmission areas. We show that when transmission decreases, prevalence might decrease without a corresponding change in frequency of resistance and that this relationship is heavily influenced by the extent of linkage disequilibrium between loci. This has important consequences on the interpretation of data from areas where control is being successful and suggests that reducing transmission might have less impact on the spread of resistance than previously expected.  相似文献   

7.
Chemotherapy remains the only practicable tool to control falciparum malaria in sub-Saharan Africa, where >90% of the world's burden of malaria mortality and morbidity occurs. Resistance is rapidly eroding the efficacy of chloroquine, and the combination pyrimethamine-sulfadoxine is the most commonly chosen alternative. Resistant populations of Plasmodium falciparum were selected extremely rapidly in Southeast Asia and South America. If this happens in sub-Saharan Africa, it will be a public health disaster because no inexpensive alternative is currently available. This article reviews the molecular mechanisms of this resistance and discusses how to extend the therapeutic life of antifolate drugs.  相似文献   

8.
BackgroundResistance of malaria parasites to chloroquine (CQ) and sulphadoxine-pyrimethamine (SP) is increasing in prevalence in Africa. Combination therapy can both improve treatment and provide important public health benefits if it curbs the spread of parasites harbouring resistance genes. Thus, drug combinations must be identified which minimise gametocyte emergence in treated cases, and so prevent selective transmission of parasites resistant to any of the partner drugs.ConclusionsCo-artemether is highly effective at preventing post-treatment transmission of P. falciparum. Our results suggest that co-artemether has specific activity against immature sequestered gametocytes, and has the capacity to minimise transmission of drug-resistant parasites.  相似文献   

9.
Controlling the spread of antimalarial drug resistance, especially resistance of Plasmodium falciparum to artemisinin‐based combination therapies, is a high priority. Available data indicate that, as with other microorganisms, the spread of drug‐resistant malaria parasites is limited by fitness costs that frequently accompany resistance. Resistance‐mediating polymorphisms in malaria parasites have been identified in putative drug transporters and in target enzymes. The impacts of these polymorphisms on parasite fitness have been characterized in vitro and in animal models. Additional insights have come from analyses of samples from clinical studies, both evaluating parasites under different selective pressures and determining the clinical consequences of infection with different parasites. With some exceptions, resistance‐mediating polymorphisms lead to malaria parasites that, compared with wild type, grow less well in culture and in animals, and are replaced by wild type when drug pressure diminishes in the clinical setting. In some cases, the fitness costs of resistance may be offset by compensatory mutations that increase virulence or changes that enhance malaria transmission. However, not enough is known about effects of resistance mediators on parasite fitness. A better appreciation of the costs of fitness‐mediating mutations will facilitate the development of optimal guidelines for the treatment and prevention of malaria.  相似文献   

10.
Chemotherapy remains the only practicable tool to control falciparum malaria in sub-Saharan Africa, where >90% of the world's burden of malaria mortality and morbidity occurs. Resistance is rapidly eroding the efficacy of chloroquine, and the combination pyrimethamine–sulfadoxine is the most commonly chosen alternative. Resistant populations of Plasmodium falciparum were selected extremely rapidly in Southeast Asia and South America. If this happens in sub-Saharan Africa, it will be a public health disaster because no inexpensive alternative is currently available. This article reviews the molecular mechanisms of this resistance and discusses how to extend the therapeutic life of antifolate drugs.  相似文献   

11.
Emergence of resistance to artemisinin and partner drugs in the Greater Mekong Subregion has made elimination of malaria from this region a global priority; it also complicates its achievement. Novel drug strategies such as triple artemisinin combination therapies (ACTs) and chemoprophylaxis have been proposed to help limit resistance and accelerate elimination. The objective of this study was to better understand the potential impacts of triple ACTs and chemoprophylaxis, using a mathematical model parameterized using data from Cambodia. We used a simple compartmental model to predict trends in malaria incidence and resistance in Cambodia from 2020–2025 assuming no changes in transmission since 2018. We assessed three scenarios: a status quo scenario with artesunate-mefloquine (ASMQ) as treatment; a triple ACT scenario with dihydroartemisinin-piperaquine (DP) plus mefloquine (MQ) as treatment; and a chemoprophylaxis scenario with ASMQ as treatment plus DP as chemoprophylaxis. We predicted MQ resistance to increase under the status quo scenario. Triple ACT treatment reversed the spread of MQ resistance, but had no impact on overall malaria incidence. Joint MQ-PPQ resistance declined under the status quo scenario for the baseline parameter set and most sensitivity analyses. Compared to the status quo, triple ACT treatment limited spread of MQ resistance but also slowed declines in PPQ resistance in some sensitivity analyses. The chemoprophylaxis scenario decreased malaria incidence, but increased the spread of strains resistant to both MQ and PPQ; both effects began to reverse after the intervention was removed. We conclude that triple ACTs may limit spread of MQ resistance in the Cambodia, but would have limited impact on malaria incidence and might slow declines in PPQ resistance. Chemoprophylaxis could have greater impact on incidence but also carries higher risks of resistance. Aggressive strategies to limit transmission the GMS are needed to achieve elimination goals, but any intervention should be accompanied by monitoring for drug resistance.  相似文献   

12.
Malaria control strategies have to be established locally according to epidemiological situations, including socio-economic factors and to resources available for their implementation. It has been stressed that all antimalaria activities be integrated in PHC.Stratification of malaria is the introduction to malaria control and serves as a basis for the planning which should be established by a body of experts on malaria at the central level (epidemiologist, entomologist, specialists in social sciences, sanitary engineer) who later will guide, supervise and evaluate the activities.Case treatments, sometimes presumptive, are the most basic activities of control. They are cheap and they can be carried out by PHC which insures the coverage of the entire population at risk. Drug resistance of Plasmodium falciparum is a growing and threatening problem. In a number of areas cheap and harmless chloroquine has to be replaced by drugs or combinations of drugs which can only be delivered by experienced personnel. Chemoprophylaxis is recommended for pregnant women but questioned for infants and young children because the risk of side-effects and resistance selection and the difficulties of maintaining a good coverage for a long time.Vector control by house-spraying remains the best means of reducing transmission and is still the basis of malaria control in countries in Asia and America where the disease has been seriously reduced. In some areas resistance to DDT lead to the use of more expensive organophosphates and/or carbamates. Resistance to these compounds has also been reported in several countries. House-spraying is probably one of the malaria activities which is the most difficult to integrate in PHC. Some attempts have been successful.Integrated vector control with community participation is not a simple task nor a panacea. To be efficient it needs to be established on a strong scientific basis. Tools and technics have to be selected for each area according to the vector ecology and socio-cultural habits of the population. Maintaining community interest in a long lasting activity is a problem which has never been really explored. Self-protection against vectors (mainly by using impregnated mosquito nets) has shown promise and is currently being evaluated at an operational scale with community involvement. There is great hope for a vaccine but more advances are necessary before its place in malaria control can be established.Intersectorial approach is the best way to counteract undesirable effects of development schemes like irrigation. There is a need for training in the scope of interdisciplinary actions for high level personnel. PHC agents need special training whatever they are, specialized or multipurpose. Special attention must be paid to malaria in health education for communities at risk. Some researches dealing with the most immediate problems are suggested.  相似文献   

13.
Resistance to antifolates of the malaria parasite Plasmodium falciparum stems from stepwise mutations of the target enzyme dihydrofolate reductase (DHFR). New drugs can be developed against resistant parasites, which are assumed to have limited possibilities in mutations. Mechanisms of resistance other than reduced binding of inhibitors to mutant enzymes may be possible and need to be further explored. New synergistic combinations of drugs targeting DHFR and dihydropteroate synthase may be employed, with new provisions against development of resistance.  相似文献   

14.
Resistance to anticoccidial drugs in fowl   总被引:4,自引:0,他引:4  
Resistance has been encountered wherever drugs have been used extensively for the control of parasitic infections. The poultry industry is dependent upon drugs for the control of coccidiosis, a major disease of chickens caused by protozoan parasites of the genus Eimeria. In modern poultry production, drugs are used prophylactically for the prevention of coccidiosis by including them in the diet. This has inevitably led to the development of resistance. We have been fortunate in that new drugs have become available to replace those to which resistance has developed, but this situation is unlikely to continue. The problem of drug resistance, discussed here by David Chapman, has provided impetus for the development of new approaches (such as vaccination) for the control of coccidiosis.  相似文献   

15.
Resistance of Plasmodium falciparum to antimalarials is considered one of the factors responsible for the impairment of the malaria treatment and control worldwide. Resistance emerges as a result of selection and then disemination of spontaneous mutant parasites with reduced drug susceptibility. Combination therapy is considered as the main strategy to control antimalarial drug resistance. Currently, combination therapies that include artemisinin derivatives are highly recommended. Combination therapy has been used in Colombia for more than 20 years; however, its impact on preventing the dissemination of drug resistance is unknown. This paper reviews the theoretical bases and clinical studies that support the use of combination therapy.  相似文献   

16.
Antimalarial drug therapies containing artemisinins, 'ACTs', have become the mainstay for treating uncomplicated malaria in endemic countries. This is a major public health achievement requiring substantial political, financial and scientific input. The most compelling scientific argument for ACT deployment employed a very simple basic rationale that emphasised their role in slowing the origin of drug resistance while largely neglecting the additional role(s) of ACTs in slowing or preventing the spread of resistance once it has arisen. Recent reports suggest that early stages of resistance to artemisinins and/or its partner drugs could be occurring, thus it is timely to briefly review exactly how ACTs slow the origin and spread of resistance and to interpret the threat of resistance within this context.  相似文献   

17.
Delaying antimalarial drug resistance with combination chemotherapy   总被引:12,自引:0,他引:12  
White NJ 《Parassitologia》1999,41(1-3):301-308
Resistance to antimalarial drugs arises when spontaneously occurring mutants with gene mutations or amplifications which confer reduced drug susceptibility are selected, and are then transmitted. Simultaneous use of two or more antimalarials with different modes of action and which therefore do not share the same resistance mechanisms will reduce the chance of selection, because the chance of a resistant mutant surviving is the product of the parasite mutation rates for the individual drugs, multiplied by the number of parasites in an infection that are exposed to the drugs. The artemisinin derivatives are very active antimalarials, which produce large reductions in parasite biomass per asexual cycle, and reduce malaria transmissibility. To date no resistance to these drugs has been reported. These drugs therefore make particularly effective combination partners. This suggests that antimalarial drugs should not be used alone in treatment, but always in combination, as in the treatment of tuberculosis or HIV, and that the combination should include artemisinin or one of its derivatives.  相似文献   

18.
Use of fast-acting blood schizontocidal drugs such as chloroqune, amodiaquine, mepacrine or quinine, is essential for the treatment of acute malaria infections. The spread of resistance in Plasmodium falciparum to chloroquine, the most useful of these drugs, has been a serious problem since the 1960s, and the resistant strains show various degrees of cross-resistance to other drugs. Design of replacement drugs requires knowledge of their modes of action and mechanisms of resistance. At present, there are two theories to explain the mode of action of chloroquine (Box 1). In this debate, Coy Fitch advances the hypothesis that chloroquine acts by delaying the sequestration of Ferriprotoporphyrin IX (FP) into malaria pigment, thereby allowing FP to exert its intrinsic cellular toxicity. In contrast, David Warhurst proposes a new 'Permease theory' suggesting that chloroquine is imported into the parasite cytoplasm on a membrane carrier (the permease) under the influence of a proton gradient; the drug would then interfere with lysosomal digestion of haemoglobin, thus starving the parasite of amino acids for protein synthesis.  相似文献   

19.
The spread of antimalarial drug resistance has major consequences for malaria control in tropical Africa. Here, the impact of chloroquine resistance on the burden of malaria is analyzed and its implications for the Roll Back Malaria initiative are examined. Malaria mortality has increased at least twofold during the past two decades. Combination therapy should be available for home treatment of young children. The potential toxicity of most antimalarials will require special surveillance programs. The main contribution to malaria control using methods to reduce the entomological inoculation rate is expected in areas with low or unstable transmission. Classic vector-control methods could potentially eliminate malaria in most urban areas and such programs deserve high priority.  相似文献   

20.
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号