@article{493, keywords = {Genetics, Molecular Biology, Biomedical Engineering, Molecular Medicine, Food Science, Biotechnology}, author = {Domokos Máthé and Bálint Kiss and Bernadett Pályi and Zoltán Kis and László Forgách and Nikolett Hegedus and Zoltán Varga and Krisztián Szigeti and Kinga Karlinger and Miklós Kellermayer}, title = {The 3M Concept: Biomedical Translational Imaging from Molecules to Mouse to Man}, abstract = {
Abstract
Imaging keeps pervading biomedical sciences from the nanoscale to the bedside. Connecting the hierarchical levels of biomedicine with relevant imaging approaches, however, remains a challenge. Here we present a concept, called “3M”, which can deliver a question, formulated at the bedside, across the wide-ranging hierarchical organization of the living organism, from the molecular level, through the small-animal scale, to whole-body human functional imaging. We present an example of nanoparticle development pipeline extending from atomic force microscopy to pre-clinical whole body imaging methods to highlight the essential features of the 3M concept, which integrates multi-scale resolution and quantification into a single logical process. Using the nanoscale to human clinical whole body approach, we present the successful development, characterisation and application of Prussian Blue nanoparticles for a variety of imaging modalities, extending it to isotope payload quantification and shape-biodistribution relationships. The translation of an idea from the bedside to the molecular level and back requires a set of novel combinatorial imaging methodologies interconnected into a logical pipeline. The proposed integrative molecules-to-mouse-to-man (3M) approach offers a promising, clinically oriented toolkit that lends the prospect of obtaining an ever-increasing amount of correlated information from as small a voxel of the human body as possible.
}, year = {2021}, journal = {The EuroBiotech Journal}, volume = {5}, pages = {155-160}, publisher = {Walter de Gruyter GmbH}, issn = {2564-615X}, doi = {10.2478/ebtj-2021-0024}, }