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The spatial epidemiology of the Duffy blood group and G6PD deficiencyHowes, Rosalind E. January 2012 (has links)
Over a third of the world’s population lives at risk of potentially severe Plasmodium vivax malaria. Unique aspects of this parasite’s biology and interactions with its human host make it harder to control and eliminate than the better studied Plasmodium falciparum parasite. Spatial mapping of two human genetic polymorphisms were developed to support evidence-based targeting of control interventions and therapies. First, to enumerate and map the population at risk of P. vivax infection (PvPAR), the prevalence of this parasite’s human blood cell receptor – the Duffy antigen – was mapped globally. Duffy negative individuals are resistant to infection, and this map provided the means to objectively model the low endemicity of P. vivax across Africa. The Duffy maps helped resolve that only 3% of the global PvPAR was from Africa. The second major research focus was to map the spatial distribution of glucose-6-phosphate dehydrogenase enzyme deficiency (G6PDd), the genetic condition which predisposes individuals to potentially life-threatening haemolysis from primaquine therapy. Despite this drug’s vital role in being the only treatment of relapsing P. vivax parasites, risks of G6PDd-associated haemolysis result in significant under-use of primaquine. G6PDd was found to be widespread, with an estimated frequency of 8.0% (50% CI: 7.4-8.8%) across malarious regions. Third, it was important to represent more detailed descriptions of the genetic diversity underpinning this enzyme disorder, which ranges in phenotype from expressing mild to life-threatening primaquine-induced haemolysis. These variants’ spatial distributions were mapped globally and showed strikingly conspicuous distributions, with widespread A- dominance across Africa, predominance of the Mediterranean variant from the Middle East across to India, and east of India diversifying into a different and diverse array of variants, showing heterogeneity both at regional and community levels. Fourth, the G6PDd prevalence and severity maps were synthesised into a framework assessing the spatial variability of overall risk from G6PDd to primaquine therapy. This found that risks from G6PDd were too widespread and potentially severe to sanction primaquine treatment without prior G6PDd screening, particularly across Asia where the majority of the population are Duffy positive and G6PDd was common and severe. Finally, the conclusions from these studies were discussed and recommendations made for essential further research needed to support current efforts into P. vivax control.
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Antimaláricos potenciais: latenciação de primaquina e desetilcloroquina e estudo da síntese de pró-fármacos peptídicos de liberação específica / Potential antimalarials: Latency of primaquine and desethylchloroquine and study of the synthesis of specific release peptidic prodrugsBotelho, Kátia Cirlene Alves 09 October 2008 (has links)
A Malária continua sendo a mais difundida e devastadora doença infecciosa, com aproximadamente 300 milhões de casos anuais e mais de 2 milhões de pessoas vivendo em áreas de risco. Entre os parasitas do gênero plasmodium causadores da malária em humanos, o plasmodium falciparum é a espécie mais letal. Este projeto teve como objetivo a síntese de pró-fármaco recíproco de cloroquina e primaquina e de pró-fármacos duplicados de cloroquina e de primaquina utilizando, para tanto, espaçantes inespecíficos (carboxílicos). Espera-se que o pró-fármaco recíproco permita a cura radical em casos de malária vivax e que os derivados duplicados apresentem maior eficácia, com diminuição da toxicidade, especialmente no caso do derivado de primaquina. Além desses compostos, propôs-se a síntese de pró-fármacos duplicados de cloroquina mediante a ligação com grupo espaçante específico (peptídeos) à cisão pela falcipaína. Tais derivados são potencialmente ativos em malária causada pelo P. falciparum resistente à cloroquina. / Malaria remains the world\'s most widespread and devastating infectious disease, with approximately 300 million annual cases and more than 2 million casualties. Among the protozoan parasites of the genus Plasmodium causing malaria in humans, Plasmodium falciparum is the most lethal species. This project had as objective the synthesis of reciprocal prodrug of chloroqine and primaquine using, for in such a way, inespecífics agents (carboxylics). One expects that the mutual prodrug allows to the radical cure in cases of malaria vivax and that the derivatives duplicates present greater effectiveness, with reduction of the toxicity, especially in the case of the primaquine derivative. Beyond these composites, it was considered synthesis of mutual prodrugs of chloroquine by means of the linking with specific carrier group (peptides) to the split for falcipain. Such derivatives are potentially active in malaria caused for the resistant P. falciparum to the chloroquine.
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Antimaláricos potenciais: latenciação de primaquina e desetilcloroquina e estudo da síntese de pró-fármacos peptídicos de liberação específica / Potential antimalarials: Latency of primaquine and desethylchloroquine and study of the synthesis of specific release peptidic prodrugsKátia Cirlene Alves Botelho 09 October 2008 (has links)
A Malária continua sendo a mais difundida e devastadora doença infecciosa, com aproximadamente 300 milhões de casos anuais e mais de 2 milhões de pessoas vivendo em áreas de risco. Entre os parasitas do gênero plasmodium causadores da malária em humanos, o plasmodium falciparum é a espécie mais letal. Este projeto teve como objetivo a síntese de pró-fármaco recíproco de cloroquina e primaquina e de pró-fármacos duplicados de cloroquina e de primaquina utilizando, para tanto, espaçantes inespecíficos (carboxílicos). Espera-se que o pró-fármaco recíproco permita a cura radical em casos de malária vivax e que os derivados duplicados apresentem maior eficácia, com diminuição da toxicidade, especialmente no caso do derivado de primaquina. Além desses compostos, propôs-se a síntese de pró-fármacos duplicados de cloroquina mediante a ligação com grupo espaçante específico (peptídeos) à cisão pela falcipaína. Tais derivados são potencialmente ativos em malária causada pelo P. falciparum resistente à cloroquina. / Malaria remains the world\'s most widespread and devastating infectious disease, with approximately 300 million annual cases and more than 2 million casualties. Among the protozoan parasites of the genus Plasmodium causing malaria in humans, Plasmodium falciparum is the most lethal species. This project had as objective the synthesis of reciprocal prodrug of chloroqine and primaquine using, for in such a way, inespecífics agents (carboxylics). One expects that the mutual prodrug allows to the radical cure in cases of malaria vivax and that the derivatives duplicates present greater effectiveness, with reduction of the toxicity, especially in the case of the primaquine derivative. Beyond these composites, it was considered synthesis of mutual prodrugs of chloroquine by means of the linking with specific carrier group (peptides) to the split for falcipain. Such derivatives are potentially active in malaria caused for the resistant P. falciparum to the chloroquine.
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