Malaria is a leading parasitic disease which imperil the lives of many people especially in tropical climates. Presently, available malaria diagnostic tools/ techniques e.g. [Giemsa-Stained Microscopic, Rapid Diagnostic Tests (RDT), and Polymerase Chain Reaction (PCR) are less sensitive, time consuming, requires well trained operator, and costly in nature.In additions, both PCR and RDT are unable to provide quantitative analysis on the parasitaemia levels. Hence, there is an urgent demand of fast, sensitive, and reliable diagnostic tools. The portable Nuclear Magnetic Resonance (NMR) has been gaining considerable attention amongst scientist community due to the promising applications in in-vivo and quantitative detection of various small biological/chemical applications related to healthcare.Traditionally, available NMR is very costly, requires skill operator, bulky and thus difficult for Point- of-Care applications. Here, in this talk a portable, cost-effective, and benchtop NMR system having 0.5 Tesla field operating at 21.287MHz is demonstrated. The developed NMR is successfully capable of detection of the parasite load during the early stage of Malaria.
Journal of Biomedical Science & Applications received 55 citations as per Google Scholar report