Thermographical Method to Assess the Performance of Magnetic Nanoparticles in Hyperthermia Experiments through Spatiotemporal Temperature Profiles

Abstract: The evaluation of the specific power absorption of magnetic nanoparticles (MNPs) for magnetic hyperthermia (MH) applications has been performed through either local temperature probing or magnetic measurements so far. Each of these methods has advantages and drawbacks, and the concurrent use of both techniques offers the most reliable results. In this work, we propose an alternative strategy based on thermographic images to obtain two-dimensional temperature maps that allow the determination of the power absor… Show more

“…Essentially this requires the temperature within the vial to be uniform, which has been observed experimentally to not be the case, as temperature gradients are clearly observed when using infrared cameras to monitor the whole volume of the sample. 14,15 This factor was investigated in ref. 11 and quantied using the 'Biot number' Bi, which is a dimensionless quantity, usually describing the ratio of two adjacent heat-transfer rates, in this case inside and outside the vial.…”

Beyond Newton's law of cooling in evaluating magnetic hyperthermia performance: a device-independent procedure

“…Essentially this requires the temperature within the vial to be uniform, which has been observed experimentally to not be the case, as temperature gradients are clearly observed when using infrared cameras to monitor the whole volume of the sample. 14,15 This factor was investigated in ref. 11 and quantied using the 'Biot number' Bi, which is a dimensionless quantity, usually describing the ratio of two adjacent heat-transfer rates, in this case inside and outside the vial.…”

Beyond Newton's law of cooling in evaluating magnetic hyperthermia performance: a device-independent procedure

“…Cryptochromes are proteins involved in light signaling or in circadian rhythms in many plants and animals and appear to sense B [ 5 ]. Magnetosomes are magnetic nanoparticles coming from a natural source like magnetotactic bacteria and can be a suitable alternative to chemically synthesized nanoparticles designed for hyperthermia treatments [ 6 ]. Other biological reactions that take place inside the cell are also affected by B .…”

A Review of the Current State of Magnetic Force Microscopy to Unravel the Magnetic Properties of Nanomaterials Applied in Biological Systems and Future Directions for Quantum Technologies

A prediction model for magnetic particle imaging–based magnetic hyperthermia applied to a brain tumor model