@misc{brunke_determination_of_2006, author={Brunke, O.,Odenbach, S.,Jurgons, R.,Alexiou, C.,Hilger, I.,Beckmann, F.}, title={Determination of the magnetic particle distribution in tumour tissue by means of x-ray tomography}, year={2006}, howpublished = {journal article}, doi = {https://doi.org/10.1088/0953-8984/18/38/S25}, abstract = {In biomedical applications of ferrofluids, the resulting distribution of the magnetic nanoparticles is a crucial parameter for the effect of the therapeutic approach. In order to increase the efficacy of local cancer treatments incorporating ferrofluids like magnetic drug targeting and hyperthermia, the bio-distribution of theses fluids in the respective tissue has to be optimized. Usually, the distribution of particles is determined by histological cuts of the investigated specimen, a technique which provides only local information about the overall distribution of the magnetic material, e.g. in a tumour. Radioscopic techniques based on gamma or x-rays are well established, suitable for in vivo examination and non-destructive, but only provide two-dimensional integral information in the direction of the beam. Here we have used micro-tomography—incorporating a conventional x-ray tube as well as monochromatic synchrotron radiation—as a tool for a three-dimensional analysis of the distribution of magnetic nanoparticles in biological applications. Compared to biological matter, the iron-based magnetic nanoparticles provide sufficiently high absorption for x-rays and thus serve as an intrinsic contrast agent for the examinations. The results show the principle feasibility of the method for a quantitative determination of the agglomeration behaviour of the nanoparticles within carcinogenic tissue after intravascular or intratumoural injection.}, note = {Online available at: \url{https://doi.org/10.1088/0953-8984/18/38/S25} (DOI). Brunke, O.; Odenbach, S.; Jurgons, R.; Alexiou, C.; Hilger, I.; Beckmann, F.: Determination of the magnetic particle distribution in tumour tissue by means of x-ray tomography. Journal of Physics: Condensed Matter. 2006. vol. 18, S2903-S2917. DOI: 10.1088/0953-8984/18/38/S25}}