Manganese-Loaded Liposomes: An In Vitro Study for Possible Diagnostic Application.
Maddalena SguizzatoPetra MartiniFrancesca FerraraLorenza MarvelliMarkus DrechslerGiovanni RealeFrancesca CalderoniFederica IlluminatiFrancesca PortoGiorgia SpeltriLicia UccelliMelchiore GigantiAlessandra BoschiRita CortesiPublished in: Molecules (Basel, Switzerland) (2024)
The present study investigates the possible use of manganese (Mn)-based liposomal formulations for diagnostic applications in imaging techniques such as magnetic resonance imaging (MRI), with the aim of overcoming the toxicity limitations associated with the use of free Mn 2+ . Specifically, anionic liposomes carrying two model Mn(II)-based compounds, MnCl 2 (MC) and Mn(HMTA) (MH), were prepared and characterised in terms of morphology, size, loading capacity, and in vitro activity. Homogeneous dispersions characterised mainly by unilamellar vesicles were obtained; furthermore, no differences in size and morphology were detected between unloaded and Mn-loaded vesicles. The encapsulation efficiency of MC and MH was evaluated on extruded liposomes by means of ICP-OES analysis. The obtained results showed that both MC and MH are almost completely retained by the lipid portion of liposomes (LPs), with encapsulation efficiencies of 99.7% for MC and 98.8% for MH. The magnetic imaging properties of the produced liposomal formulations were investigated for application in a potential preclinical scenario by collecting magnetic resonance images of a phantom designed to compare the paramagnetic contrast properties of free MC and MH compounds and the corresponding manganese-containing liposome dispersions. It was found that both LP-MC and LP-MH at low concentrations (0.5 mM) show better contrast (contrast-to-noise ratios of 194 and 209, respectively) than solutions containing free Mn at the same concentrations (117 and 134, respectively) and are safe to use on human cells at the selected dose. Taken together, the results of this comparative analysis suggest that these liposome-containing Mn compounds might be suitable for diagnostic purposes.
Keyphrases
- drug delivery
- magnetic resonance
- contrast enhanced
- magnetic resonance imaging
- room temperature
- transition metal
- metal organic framework
- drug release
- high resolution
- stem cells
- cancer therapy
- oxidative stress
- inflammatory response
- deep learning
- diffusion weighted imaging
- ionic liquid
- mass spectrometry
- mesenchymal stem cells
- fatty acid
- photodynamic therapy
- optical coherence tomography
- risk assessment
- single molecule
- cell therapy
- monte carlo