Amoebiasis is a parasitic infectious disease caused by the enteric protozoan Entamoeba histolytica, a leading basis of deaths accounted to parasites, succeeding malaria and schistosomiasis. Conventional treatment methodologies used to deal with amoebiasis mainly rely on the administration of anti-amoebic compounds and vaccines but are often linked with substantial side-effects on the patient. Besides, cases of development of drug resistance in protozoans have been recorded, contributing further to the reduction in the efficiency of the treatment. Loopholes in the efficacious management of the disease call for the development of novel methodologies to manage amoebiasis. A way to achieve this is by targeting the essential metabolic processes of 'encystation' and 'excystation', and the associated biomolecules, thus interrupting the biphasic life cycle of the parasite. Technologies like the CRISPR-Cas9 system can efficiently be exploited to discover novel and essential molecules that regulate the protozoan's metabolism, while efficiently manipulating and managing the known drug targets, leading to an effective halt and forestall to the enteric infection. This review presents a perspective on these essential metabolic processes and the associated molecules that can be targeted efficaciously to prevent the transmission of amoebiasis, thus managing the disease and proving to be a fruitful endeavour.
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Article Synopsis
- Entamoeba histolytica is a parasite causing intestinal amebiasis, particularly prevalent in tropical areas and a major health issue in developing countries. Traditional diagnostic methods can cause delays in treatment, exacerbating patient conditions.
- A case involving a 59-year-old HIV-positive man revealed how initial testing misdiagnosed his illness, but advanced diagnostics using the FilmArray GI Panel quickly identified E. histolytica in under an hour.
- The successful and prompt treatment with antiamoebic drugs significantly improved the patient's health, highlighting the importance of rapid diagnosis in managing gastrointestinal infections effectively.
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