M.L. Wears scite author profile

We report the development of magneto-optic technology for the rapid quantitative diagnosis of malaria that may also be realizable in a noninvasive format. Hemozoin, the waste product of malarial parasitic action on hemoglobin, is produced in a form that under the action of an applied magnetic field gives rise to an induced optical dichroism characteristic of the hemozoin concentration. Here we show that precise measurement of this induced dichroism may be used to determine the level of malarial infection because this correlates, albeit in a complex manner throughout the infection cycle, with the concentration of hemozoin in the blood and tissues of infected patients. Under conservative assumptions for the production of hemozoin as a function of parasitemia, initial results indicate that the technique can match or exceed other current diagnostic techniques. The validity of the approach is confirmed by a small preliminary clinical trial on 13 patients, and measurements on live parasitized cells obtained from in vitro culture verify the possibility of producing in vivo diagnostic instrumentation.

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Transfer-free growth of graphene on SiO2 insulator substrate from sputtered carbon and nickel films

Pan

Heath

et al. 2013

Carbon

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CFD characterization of flow regimes inside open cell foam substrates

Torre

Montenegro

Tabor

et al. 2014

International Journal of Heat and Fluid Flow

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Magneto-optic behaviour in the presence of surface plasmons

Newman

Wears

Matelon

et al. 2008

J. Phys.: Condens. Matter

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Insight into the mechanism responsible for the enhanced level of magneto-optical (MO) activity observed from magnetic surfaces when supporting propagating surface plasmons (SPs) is provided by studies of ferromagnetic Ni and Co gratings where SPs are generated and interact magneto-optically at the air/ferromagnetic interface. These ferromagnetic gratings were subsequently coated with semi-transparent Ag layers. In these systems only some 30% of the light incident on the air/Ag interface is reflected; most is converted to surface plasmons whilst the remainder propagates to reflect off the ferromagnetic surface where it undergoes a MO interaction before returning through the Ag. The precise nature of the beam returned from the ferromagnetic and the MO signature imprinted on it depends on the relative magnitude of two driving sources: the E-field of the light wave and the E-field associated with SPs penetrating through the Ag to the ferromagnetic. Evidence is obtained indicating that the degree of MO enhancement correlates strongly with the magnitude of the intense electric field associated with the presence of SPs at the ferromagnetic surface, confirming previous experimental studies postulating that enhanced MO effects are not solely a consequence of the reduction in reflection that is experienced at surface plasmon resonance.

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TheIn VivoDiagnosis of Malaria: Feasibility Study Into a Magneto-Optic Fingertip Probe

Newman

Matelon

Wears

et al. 2010

IEEE J. Select. Topics Quantum Electron.

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M.L. Wears

A Magneto-Optic Route toward the In Vivo Diagnosis of Malaria: Preliminary Results and Preclinical Trial Data

Transfer-free growth of graphene on SiO2 insulator substrate from sputtered carbon and nickel films

CFD characterization of flow regimes inside open cell foam substrates

Magneto-optic behaviour in the presence of surface plasmons

TheIn VivoDiagnosis of Malaria: Feasibility Study Into a Magneto-Optic Fingertip Probe

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