The Effect of Static Magnetic Fields of Different Strengths and Polarities on Cytokine Production by Human Lymphocytes In Vitro

Turuntaš, Vladimir; de Luka, Silvio; Ristić-Djurovic, Jasna L.; Ćirković, Saša; Djordjevich, Drago; Ristić, Siniša; Lalović, Nenad; Marić, Veljko; Lazić, Bratislav; Joksimović, Bojan; Stanojevic, Ivan; Vasilijić, Saša; Trbovich, Alexander M.

doi:10.3390/bioengineering11080749

Bioengineering

2024

DOI: 10.3390/bioengineering11080749

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The Effect of Static Magnetic Fields of Different Strengths and Polarities on Cytokine Production by Human Lymphocytes In Vitro

Vladimir Turuntaš,

Silvio de Luka,

Jasna L. Ristić-Djurovic

et al.

Abstract: In contrast to electromagnetic fields, static magnetic fields (SMFs) have not been extensively studied in terms of their potential health consequences. Although upward- and downward-oriented magnetic poles may cause various biological effects, only the pole with the upward orientation has been mainly investigated. Considering that the interaction of antigen-presenting cells (APCs) and T lymphocytes is crucial to trigger an immune response, we assessed the effect of long-term exposure of human T lymphocytes and… Show more

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Magnetically Driven Hydrogel Surfaces for Modulating Macrophage Behavior

Li,

Alsema,

Beijer

et al. 2024

ACS Biomater. Sci. Eng.

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During the host response toward implanted biomaterials, macrophages can shift phenotypes rapidly upon changes in their microenvironment within the host tissue. Exploration of this phenomenon can benefit significantly from the development of adequate tools. Creating cell microenvironment alterations on classical hydrogel substrates presents challenges, particularly when integrating them with cell cultivation and monitoring processes. However, having the capability to dynamically manipulate the cell microenvironment on biomaterial surfaces holds significant potential. We introduce magnetically actuated hydrogels ( Mad Surface) tailored to induce reversible stiffness changes on polyacrylamide hydrogel substrates with embedded magnetic microparticles in a time-controllable manner. Our investigation focused on exploring the potential of magnetic fields and Mad Surfaces in dynamically modulating macrophage behavior in a programmable manner. We achieved a consistent modulation by subjecting the Mad Surface to a pulsed magnetic field with a frequency of 0.1 Hz and a magnetic field flux density of 50 mT and analyzed exposed cells using flow cytometry and ELISA. At the single-cell level, we identified a subpopulation for which the dynamic stiffness conditions in conjunction with the pulsed magnetic field increased the expression of CD206 in M1-activated THP-1 cells, indicating a consistent shift toward the M2 anti-inflammatory phenotype on Mad Surface. At the population level, this effect was mostly hindered in the culture period utilized in this work. The Mad Surface approach advances our understanding of the interplay between magnetic field, cell microenvironment alterations, and macrophage behavior.

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Magnetically Driven Hydrogel Surfaces for Modulating Macrophage Behavior

Li,

Alsema,

Beijer

et al. 2024

ACS Biomater. Sci. Eng.

View full text Add to dashboard Cite

show abstract

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The Effect of Static Magnetic Fields of Different Strengths and Polarities on Cytokine Production by Human Lymphocytes In Vitro

Cited by 1 publication

References 35 publications

Magnetically Driven Hydrogel Surfaces for Modulating Macrophage Behavior

Magnetically Driven Hydrogel Surfaces for Modulating Macrophage Behavior

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