Diamond Magnetic Microscopy of Malarial Hemozoin Nanocrystals

Magnetic microscopy of malarial hemozoin nanocrystals is performed by optically detected magnetic resonance imaging of near-surface diamond nitrogen-vacancy centers. Hemozoin crystals are extracted from Plasmodium falciparum–infected human blood cells and studied alongside synthetic hemozoin crystal...

Descripción completa

Detalles Bibliográficos
Autores principales: Fescenko, Ilja, Laraoui, Abdelghani, Smits, Janis, Mosavian, Nazanin, Kehayias, Pauli, Seto, Jong, Bougas, Lykourgos, Jarmola, Andrey, Acosta, Victor M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6594715/
https://www.ncbi.nlm.nih.gov/pubmed/31245433
http://dx.doi.org/10.1103/PhysRevApplied.11.034029
_version_ 1783430281945939968
author Fescenko, Ilja
Laraoui, Abdelghani
Smits, Janis
Mosavian, Nazanin
Kehayias, Pauli
Seto, Jong
Bougas, Lykourgos
Jarmola, Andrey
Acosta, Victor M.
author_facet Fescenko, Ilja
Laraoui, Abdelghani
Smits, Janis
Mosavian, Nazanin
Kehayias, Pauli
Seto, Jong
Bougas, Lykourgos
Jarmola, Andrey
Acosta, Victor M.
author_sort Fescenko, Ilja
collection PubMed
description Magnetic microscopy of malarial hemozoin nanocrystals is performed by optically detected magnetic resonance imaging of near-surface diamond nitrogen-vacancy centers. Hemozoin crystals are extracted from Plasmodium falciparum–infected human blood cells and studied alongside synthetic hemozoin crystals. The stray magnetic fields produced by individual crystals are imaged at room temperature as a function of the applied field up to 350 mT. More than 100 nanocrystals are analyzed, revealing the distribution of their magnetic properties. Most crystals (96%) exhibit a linear dependence of the stray-field magnitude on the applied field, confirming hemozoin’s paramagnetic nature. A volume magnetic susceptibility of 3.4 × 10(−4) is inferred with use of a magnetostatic model informed by correlated scanning-electron-microscopy measurements of crystal dimensions. A small fraction of nanoparticles (4/82 for Plasmodium falciparum–produced nanoparticles and 1/41 for synthetic nanoparticles) exhibit a saturation behavior consistent with superparamagnetism. Translation of this platform to the study of living Plasmodium-infected cells may shed new light on hemozoin formation dynamics and their interaction with antimalarial drugs.
format Online
Article
Text
id pubmed-6594715
institution National Center for Biotechnology Information
language English
publishDate 2019
record_format MEDLINE/PubMed
spelling pubmed-65947152019-06-26 Diamond Magnetic Microscopy of Malarial Hemozoin Nanocrystals Fescenko, Ilja Laraoui, Abdelghani Smits, Janis Mosavian, Nazanin Kehayias, Pauli Seto, Jong Bougas, Lykourgos Jarmola, Andrey Acosta, Victor M. Phys Rev Appl Article Magnetic microscopy of malarial hemozoin nanocrystals is performed by optically detected magnetic resonance imaging of near-surface diamond nitrogen-vacancy centers. Hemozoin crystals are extracted from Plasmodium falciparum–infected human blood cells and studied alongside synthetic hemozoin crystals. The stray magnetic fields produced by individual crystals are imaged at room temperature as a function of the applied field up to 350 mT. More than 100 nanocrystals are analyzed, revealing the distribution of their magnetic properties. Most crystals (96%) exhibit a linear dependence of the stray-field magnitude on the applied field, confirming hemozoin’s paramagnetic nature. A volume magnetic susceptibility of 3.4 × 10(−4) is inferred with use of a magnetostatic model informed by correlated scanning-electron-microscopy measurements of crystal dimensions. A small fraction of nanoparticles (4/82 for Plasmodium falciparum–produced nanoparticles and 1/41 for synthetic nanoparticles) exhibit a saturation behavior consistent with superparamagnetism. Translation of this platform to the study of living Plasmodium-infected cells may shed new light on hemozoin formation dynamics and their interaction with antimalarial drugs. 2019-03-12 2019-03 /pmc/articles/PMC6594715/ /pubmed/31245433 http://dx.doi.org/10.1103/PhysRevApplied.11.034029 Text en http://creativecommons.org/licenses/by-nc/3.0/ Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license.
spellingShingle Article
Fescenko, Ilja
Laraoui, Abdelghani
Smits, Janis
Mosavian, Nazanin
Kehayias, Pauli
Seto, Jong
Bougas, Lykourgos
Jarmola, Andrey
Acosta, Victor M.
Diamond Magnetic Microscopy of Malarial Hemozoin Nanocrystals
title Diamond Magnetic Microscopy of Malarial Hemozoin Nanocrystals
title_full Diamond Magnetic Microscopy of Malarial Hemozoin Nanocrystals
title_fullStr Diamond Magnetic Microscopy of Malarial Hemozoin Nanocrystals
title_full_unstemmed Diamond Magnetic Microscopy of Malarial Hemozoin Nanocrystals
title_short Diamond Magnetic Microscopy of Malarial Hemozoin Nanocrystals
title_sort diamond magnetic microscopy of malarial hemozoin nanocrystals
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6594715/
https://www.ncbi.nlm.nih.gov/pubmed/31245433
http://dx.doi.org/10.1103/PhysRevApplied.11.034029
work_keys_str_mv AT fescenkoilja diamondmagneticmicroscopyofmalarialhemozoinnanocrystals
AT laraouiabdelghani diamondmagneticmicroscopyofmalarialhemozoinnanocrystals
AT smitsjanis diamondmagneticmicroscopyofmalarialhemozoinnanocrystals
AT mosaviannazanin diamondmagneticmicroscopyofmalarialhemozoinnanocrystals
AT kehayiaspauli diamondmagneticmicroscopyofmalarialhemozoinnanocrystals
AT setojong diamondmagneticmicroscopyofmalarialhemozoinnanocrystals
AT bougaslykourgos diamondmagneticmicroscopyofmalarialhemozoinnanocrystals
AT jarmolaandrey diamondmagneticmicroscopyofmalarialhemozoinnanocrystals
AT acostavictorm diamondmagneticmicroscopyofmalarialhemozoinnanocrystals

Ejemplares similares