Abstract
Magnetosomes are near-perfect intracellular magnetite nanocrystals found in magnetotactic bacteria. Their synthetic imitation, known as superparamagnetic iron oxide nanoparticles (SPIONs), have found applications in a variety of (nano)medicinal fields such as magnetic resonance imaging contrast agents, multimodal imaging and drug carriers. In order to perform these functions in medicine, shape and size control of the SPIONs is vital. We sampled SPIONs at ten-minutes intervals during the high-temperature thermal decomposition reaction. Their shape (sphericity and anisotropy) and geometric description (volume and surface area) were retrieved using three-dimensional imaging techniques, which allowed to reconstruct each particle in three dimensions, followed by stereological quantification methods. The results, supported by small angle X-ray scattering characterization, reveal that SPIONs initially have a spherical shape, then grow increasingly asymmetric and irregular. A high heterogeneity in volume at the initial stages makes place for lower particle volume dispersity at later stages. The SPIONs settled into a preferred orientation on the support used for transmission electron microscopy imaging, which hides the extent of their anisotropic nature in the axial dimension, there by biasing the interpretation of standard 2D micrographs. This information could be feedback into the design of the chemical processes and the characterization strategies to improve the current applications of SPIONs in nanomedicine.
Highlights
Magnetosomes [1,2] are exceptional intracellular structures found in magnetotactic bacteria offering the cellular functionalities such as compasses for motility and orientation [3], oxygen chelation [4] or support in colonial self-assembly [5]
The superparamagnetic iron oxide nanoparticles (SPIONs) settled into a preferred orientation on the support used for transmission electron microscopy imaging, which hides the extent of their anisotropic nature in the axial dimension, there by biasing the interpretation of standard 2D micrographs
Aliquots were taken at five different time points during the thermal decomposition process: the first one upon reaching the 320 ◦ C plateau (=onset), at three successive intervals of ten minutes starting ten minutes after onset and the fifth and last time point after cooldown of the particles
Summary
Magnetosomes [1,2] are exceptional intracellular structures found in magnetotactic bacteria offering the cellular functionalities such as compasses for motility and orientation [3], oxygen chelation [4] or support in colonial self-assembly [5]. The core of magnetosomes consists of single-domain magnetite crystals [6], each possessing a magnetic moment that is thermally stable at physiological temperatures [7]. These magnetotactic crystals range from 30 nm to 120 nm in size [8,9]. SPIONS can be produced at sizes ranging from roughly 10 nm to about 100 nm [15] Their surface functionalization can be adjusted to generate biocompatibility [16] by means of well-described surface functionalization schemes [17,18]
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