The<i>In Vivo</i>Diagnosis of Malaria: Feasibility Study Into a Magneto-Optic Fingertip Probe

Newman, D.M.; Matelon, R. J.; Wears, M.L.; Savage, Luke

doi:10.1109/jstqe.2009.2029068

Cited by 22 publications

(25 citation statements)

References 16 publications

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“…It is, therefore, desirable to develop faster, noninvasive and innovative automated methods which are independent of operator bias and skill. With these requirements in mind, there is considerable interest currently in examining the potential of the elastic light scattering technique as an alternative to conventional methods for quick and reliable diagnosis of malaria [2][3][4][5][6][7][8][9][10][11][12].…”

Section: \ Introductionmentioning

confidence: 99%

“…Hemoglobin content and sizes of infected erythrocytes have been studied by Hanssen et al [7] using soft X-rays. The scattering characteristics of malaria byproduct hemozoin, including its scattering distribution and depolarization, have also been examined [9,10]. Brief reviews [ 11,12] on the biophotonic techniques for the study of malaria-infected red blood cells have been published recently.…”

Section: \ Introductionmentioning

confidence: 99%

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Theoretical models for near forward light scattering by aPlasmodium falciparuminfected red blood cell

Sharma

2012

Journal of Modern Optics

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A number of experimental elastic light scattering studies have been performed in the past few years with the aim of developing automated in vivo tools for differentiating a healthy red blood cell from a Plasmodium falciparum infected cell. This paper examines some theoretical aspects of the problem. An attempt has been made to simulate the scattering patterns of healthy as well as infected individual red blood cells. Two models, namely, a homogeneous sphere model and a coated sphere model have been considered. The scattering patterns predicted by these models are examined. A possible method for discriminating infected red blood cells from healthy ones has been suggested.

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Section: \ Introductionmentioning

confidence: 99%

Section: \ Introductionmentioning

confidence: 99%

Theoretical models for near forward light scattering by aPlasmodium falciparuminfected red blood cell

Sharma

2012

Journal of Modern Optics

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“…This approach is made feasible by exploiting the endogenous optical properties of hemozoin. The needle-free detection of hemozoin has previously been demonstrated in vivo using magneto-optical and opto-acoustical techniques [8,9], however these approaches use expensive components with significant power requirements making them difficult to implement in low resource settings where malaria is endemic. The design of the MVM was chosen to avoid the need for elaborate alignment or use of costly optical elements and detectors.…”

Section: Discussionmentioning

confidence: 99%

“…Owing to its crystalline nature, hemozoin is a highly scattering, birefringent material with strong optical absorbance and paramagnetic properties, making it an ideal candidate for in vivo optical interrogation [5,6]. Hemozoin has been explored as an endogenous malaria optical biomarker using laser desorption mass spectrometry, magnetooptic detection, and vapor nanobubble acoustical detection [7][8][9]. In this work, we explore the use of in vivo microscopy to detect hemozoin circulating in the microvasculature.…”

Section: Introductionmentioning

confidence: 99%

In vivo microscopy of hemozoin: towards a needle free diagnostic for malaria

Burnett¹,

Carns²,

Richards‐Kortum³

2015

Biomed. Opt. Express

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Clinical diagnosis of malaria suffers from poor specificity leading to overtreatment with antimalarial medications. Alternatives, like blood smear microscopy or antigen-based tests, require a blood sample. We investigate in vivo microscopy as a needle-free malaria diagnostic. Two optical signatures, birefringence and absorbance, of the endogenous malaria by-product hemozoin were evaluated as in vivo optical biomarkers. Hemozoin birefringence was difficult to detect in highly scattering tissue; however, hemozoin absorbance was observed in increasingly complex biological environments and detectable over a clinically-relevant range of parasitemia in vivo in a P. yoelii-infected mouse model of malaria.

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“…The applications of such materials can be widespread. For instance, plasmonic -ferromagnetic materials can be used to improve chemical sensing time scales [35][36][37], quantify disease detection [38][39][40], and improve high-speed optical communication circuits [41,42]. However, existing synthesis routes utilizing thin film or liquid routes have found it difficult to independently control the nanoparticle size and composition over a wide range [43][44][45].…”

Section: Introductionmentioning

confidence: 99%

Controlling Nanoparticles Formation in Molten Metallic Bilayers by Pulsed-Laser Interference Heating

Khenner

Yadavali

Kalyanaraman

2012

Math. Model. Nat. Phenom.

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Abstract. The impacts of the two-beam interference heating on the number of core-shell and embedded nanoparticles and on nanostructure coarsening are studied numerically based on the non-linear dynamical model for dewetting of the pulsed-laser irradiated, thin (< 20 nm) metallic bilayers. The model incorporates thermocapillary forces and disjoining pressures, and assumes dewetting from the optically transparent substrate atop of the reflective support layer, which results in the complicated dependence of light reflectivity and absorption on the thicknesses of the layers. Stabilizing thermocapillary effect is due to the local thickness-dependent, steadystate temperature profile in the liquid, which is derived based on the mean substrate temperature estimated from the elaborate thermal model of transient heating and melting/freezing. Linear stability analysis of the model equations set for Ag/Co bilayer predicts the dewetting length scales in the qualitative agreement with experiment.

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

Cited by 22 publications

References 16 publications

Theoretical models for near forward light scattering by aPlasmodium falciparuminfected red blood cell

Theoretical models for near forward light scattering by aPlasmodium falciparuminfected red blood cell

In vivo microscopy of hemozoin: towards a needle free diagnostic for malaria

Controlling Nanoparticles Formation in Molten Metallic Bilayers by Pulsed-Laser Interference Heating

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