Abstract
Malaria is a serious disease caused by the protozoon parasite Plasmodium and transmitted by the female Anopheles mosquito as a vector. P. falciparum is the gravest infection for all other species P. ovale, P. vivax, P. Malariae and P. knowlesi in terms of morbidity or mortality, which is why most research focused on P. falciparum. The disease affects about 300-500 million people, mostly in the tropics. In regions with a weak economic downturn in tropical and subtropical capital, morbidity and mortality have elevated. Malaria remains a persistent threat in recent research. At the beginning of the 20th century, scientists tried to describe a successful way of eradicating malaria. However, the presence of drug resistance and social and environmental problems, no acceptable and positive future solution has been pointed out. Several studies have highlighted the need to establish advanced nano-biotechnology treatment, novel anti-malarial drug targets, an efficient malaria vaccine technique, and Anopheles gene editing, which opened the door to a healthy, environmentally friendly malaria treatment method over the last two decades. In recent years, the use of mosquito microbiota has shown great potential for cutting down the transmission of mosquito-borne pathogens. This review aims to cover important issues in malarial eradication as rapid diagnostic technology, novel anti-malarial drug targets, Anopheles gene editing, use of mosquito microbiota, and recent vaccines.
Highlights
Epidemiology: Malaria is a parasitic infectious disease most prevalent in Sub-Saharan Africa, Asia, and South America
Malariae in mixed infections that were not recognized by quantitative polymerase chain reaction (qPCR) in certain situations. These findings suggest that dPCR might be the method of choice for determining parasitaemia in asymptomatic and low-density infections
Malarone (Atovaquone-proguanil), is one of the most effective prophylactic agents for malaria its effectiveness comes from its good tolerability and liver level, which only requires one more week of post-exposure care for a recommendation with a low potential for serious adverse effects [21]
Summary
Epidemiology (prevalence, genomic epidemiology, life cycle and new strategies for eradication): Malaria is a parasitic infectious disease most prevalent in Sub-Saharan Africa, Asia, and South America. The number of P. falciparum and P. vivax infections in Asia and Oceania is almost equal Their prevalence is modest, P. ovale and P. malaria are widespread [7]. Female Anopheles mosquitoes consume the gametocytes during a blood meal This progresses via the midgut to the ookinete, which transitions into the salivary glands as sporozoites, ready to be injected after a blood meal to start an infection in humans [14]. Fever (38.5°C or more and history of fever within 48 hours) is a marked symptom caused by erythrocyte rupture and release of parasites every 2 to 3 days according to species of Plasmodium. Laboratory diagnosis: Ineffective early diagnostic detection tools have hindered different control techniques, in low parasitemia and low-transmission surveillance. The diagnosis is mainly performed using traditional procedures (microscopy and antigen detection in recent years, with quick diagnostic assays) [24]
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