Litcius/Paper detail

Malaria absorption peaks acquired through the skin of patients with infrared light can detect patients with varying parasitemia

Gabriela A. Garcia, Tharanga Kariyawasam, Anton Lord, Cristiano Fernandes da Costa, Lana Bitencourt Chaves, Josué da Costa Lima‐Junior, Rafael Maciel‐de‐Freitas, Maggy T. Sikulu-Lord

2022PNAS Nexus17 citationsDOIOpen Access PDF

Abstract

Abstract To eliminate malaria, scalable tools that are rapid, affordable, and can detect patients with low parasitemia are required. Non-invasive diagnostic tools that are rapid, reagent-free, and affordable would also provide a justifiable platform for testing malaria in asymptomatic patients. However, non-invasive surveillance techniques for malaria remain a diagnostic gap. Here, we show near-infrared Plasmodium absorption peaks acquired non-invasively through the skin using a miniaturized hand-held near-infrared spectrometer. Using spectra from the ear, these absorption peaks and machine learning techniques enabled non-invasive detection of malaria-infected human subjects with varying parasitemia levels in less than 10 s.

Topics & Concepts

ParasitemiaMalariaAsymptomaticAbsorption (acoustics)MedicineVirologyImmunologyPlasmodium falciparumInternal medicineOpticsPhysicsMalaria Research and ControlMosquito-borne diseases and controlTravel-related health issues