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Biofunctionalized magnetic-vortex microdiscs for targeted cancer-cell destruction
by
Rajh, Tijana
, Lesniak, Maciej S.
, Rozhkova, Elena A.
, Novosad, Valentyn
, Kim, Dong-Hyun
, Ulasov, Ilya V.
, Bader, Samuel D.
in
Antibodies, Monoclonal - metabolism
/ Biocompatible Materials - chemistry
/ Biocompatible Materials - metabolism
/ Biomaterials
/ Calcium - metabolism
/ Cancer
/ Cell Death
/ Cell Line, Tumor
/ Cell Membrane - metabolism
/ Chemistry and Materials Science
/ Condensed Matter Physics
/ Humans
/ Intracellular Space - metabolism
/ Magnetic fields
/ Magnetics
/ Magnetism
/ Materials Science
/ Mechanical Phenomena
/ Medical research
/ Molecular Imaging
/ Nanomaterials
/ Nanotechnology
/ Neoplasms - metabolism
/ Neoplasms - pathology
/ Neoplasms - therapy
/ Optical and Electronic Materials
2010
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Biofunctionalized magnetic-vortex microdiscs for targeted cancer-cell destruction
by
Rajh, Tijana
, Lesniak, Maciej S.
, Rozhkova, Elena A.
, Novosad, Valentyn
, Kim, Dong-Hyun
, Ulasov, Ilya V.
, Bader, Samuel D.
in
Antibodies, Monoclonal - metabolism
/ Biocompatible Materials - chemistry
/ Biocompatible Materials - metabolism
/ Biomaterials
/ Calcium - metabolism
/ Cancer
/ Cell Death
/ Cell Line, Tumor
/ Cell Membrane - metabolism
/ Chemistry and Materials Science
/ Condensed Matter Physics
/ Humans
/ Intracellular Space - metabolism
/ Magnetic fields
/ Magnetics
/ Magnetism
/ Materials Science
/ Mechanical Phenomena
/ Medical research
/ Molecular Imaging
/ Nanomaterials
/ Nanotechnology
/ Neoplasms - metabolism
/ Neoplasms - pathology
/ Neoplasms - therapy
/ Optical and Electronic Materials
2010
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Biofunctionalized magnetic-vortex microdiscs for targeted cancer-cell destruction
by
Rajh, Tijana
, Lesniak, Maciej S.
, Rozhkova, Elena A.
, Novosad, Valentyn
, Kim, Dong-Hyun
, Ulasov, Ilya V.
, Bader, Samuel D.
in
Antibodies, Monoclonal - metabolism
/ Biocompatible Materials - chemistry
/ Biocompatible Materials - metabolism
/ Biomaterials
/ Calcium - metabolism
/ Cancer
/ Cell Death
/ Cell Line, Tumor
/ Cell Membrane - metabolism
/ Chemistry and Materials Science
/ Condensed Matter Physics
/ Humans
/ Intracellular Space - metabolism
/ Magnetic fields
/ Magnetics
/ Magnetism
/ Materials Science
/ Mechanical Phenomena
/ Medical research
/ Molecular Imaging
/ Nanomaterials
/ Nanotechnology
/ Neoplasms - metabolism
/ Neoplasms - pathology
/ Neoplasms - therapy
/ Optical and Electronic Materials
2010
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Biofunctionalized magnetic-vortex microdiscs for targeted cancer-cell destruction
Journal Article
Biofunctionalized magnetic-vortex microdiscs for targeted cancer-cell destruction
2010
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Overview
Nanomagnetic materials offer exciting avenues for probing cell mechanics and activating mechanosensitive ion channels, as well as for advancing cancer therapies. Most experimental works so far have used superparamagnetic materials. This report describes a first approach based on interfacing cells with lithographically defined microdiscs that possess a spin-vortex ground state. When an alternating magnetic field is applied the microdisc vortices shift, creating an oscillation, which transmits a mechanical force to the cell. Because reduced sensitivity of cancer cells toward apoptosis leads to inappropriate cell survival and malignant progression, selective induction of apoptosis is of great importance for the anticancer therapeutic strategies. We show that the spin-vortex-mediated stimulus creates two dramatic effects: compromised integrity of the cellular membrane, and initiation of programmed cell death. A low-frequency field of a few tens of hertz applied for only ten minutes was sufficient to achieve ∼90% cancer-cell destruction
in vitro
.
Biocompatible, lithographically defined, ferromagnetic microdiscs that have a spin-vortex ground state oscillate when activated by an alternating magnetic field. This oscillation compromises the integrity of the cell membrane and initiates programmed cell death in ∼90% of cancer cells
in vitro
, even with a low-frequency field applied for only ten minutes.
Publisher
Nature Publishing Group UK,Nature Publishing Group
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