Hemozoin in malaria eradication—from material science, technology to field test

Ashutosh Rathi; Z. Chowdhry; Anand Patel; Siming Zuo; Thulya Chakkumpulakkal Puthan Veettil; John A. Adegoke; Hadi Heidari; Bayden R. Wood; Vidya Praveen Bhallamudi; Weng Kung Peng

doi:10.1038/s41427-023-00516-6

NPG Asia Materials (Dec 2023)

Hemozoin in malaria eradication—from material science, technology to field test

Ashutosh Rathi,
Z. Chowdhry,
Anand Patel,
Siming Zuo,
Thulya Chakkumpulakkal Puthan Veettil,
John A. Adegoke,
Hadi Heidari,
Bayden R. Wood,
Vidya Praveen Bhallamudi,
Weng Kung Peng

Affiliations

Ashutosh Rathi: Quantum Center of Excellence for Diamond and Emergent Materials, Indian Institute of Technology Madras
Z. Chowdhry: Quantum Center of Excellence for Diamond and Emergent Materials, Indian Institute of Technology Madras
Anand Patel: Quantum Center of Excellence for Diamond and Emergent Materials, Indian Institute of Technology Madras
Siming Zuo: Microelectronics Lab, James Watt School of Engineering, University of Glasgow
Thulya Chakkumpulakkal Puthan Veettil: Centre for Biospectroscopy and School of Chemistry, Monash University
John A. Adegoke: Centre for Biospectroscopy and School of Chemistry, Monash University
Hadi Heidari: Microelectronics Lab, James Watt School of Engineering, University of Glasgow
Bayden R. Wood: Centre for Biospectroscopy and School of Chemistry, Monash University
Vidya Praveen Bhallamudi: Quantum Center of Excellence for Diamond and Emergent Materials, Indian Institute of Technology Madras
Weng Kung Peng: Songshan Lake Materials Laboratory, Building A1, University Innovation Park

DOI: https://doi.org/10.1038/s41427-023-00516-6
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 27

Abstract

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Abstract Malaria continues to be among the most lethal infectious diseases. Immediate barriers include the detection of low-parasitemia levels in asymptomatic individuals, which act as a reservoir for future infections, and the emergence of multidrug-resistant strains in malaria-endemic, under-resourced regions. The development of technologies for field-deployable devices for early detection and targeted drugs/vaccines is an ongoing challenge. In this respect, the identification of hemozoin during the Plasmodium growth cycle presents a unique opportunity as a biomarker for malaria infection. The last decade has witnessed the development of numerous opto-/magnetic- based ultrasensitive hemozoin sensing technologies with tremendous potential of rapid and accurate malaria diagnosis and drug testing. The unique information in hemozoin formation can also shed light on the development of targeted drugs. Here, we present a comprehensive perspective on state-of-the-art hemozoin-based methodologies for detecting and studying malaria. We discuss the challenges (and opportunities) to expedite the translation of the technology as a point-of-site tool to assist in the global eradication of malaria infection.

Published in NPG Asia Materials

ISSN: 1884-4057 (Online)
Publisher: Nature Portfolio
Country of publisher: Japan
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials; Technology: Chemical technology: Biotechnology
Website: https://www.nature.com/am/

About the journal