Abstract: Immobilization and magnetic extraction of pathogens and pathogen components The application describes a method for reducing the concentration of pathogens and/or pathogen components in an aqueous or body fluid sample. Specifically, the method relates to incubating the sample with superparamagnetic iron-based particles attached to a target binding peptide and immobilising the superparamagnetic iron-based particles with a magnetic field and thereby separating the pathogen-bound and/or pathogen component-bound superparamagnetic iron-based particles from the sample. Furthermore, the application relates to a method for identifying pathogens in an aqueous or body fluid sample a use of superparamagnetic iron-based particles for reducing the concentration of pathogens and/or pathogen components in an aqueous or body fluid sample. In addition, a use of superparamagnetic iron-based particles for identifying pathogens in an aqueous or body fluid sample is disclosed.

Abstract: The application describes a T-cell expressing a chimeric antigen receptor (‘CAR T-cell’) containing superparamagnetic iron-based particles (‘loaded CAR T-cell’) for use in treating a tumor. Said loaded CAR T-cell exhibits a reduced cytokine release upon binding to a cell of the tumor expressing an antigen being recognized by the CAR of the CAR T-cell, compared to a CAR T-cell not containing superparamagnetic iron-based particles (‘unloaded CAR T-cell’) under the same conditions. Furthermore, an in vitro method of generating a CAR T-cell containing superparamagnetic iron-based particles is described, whereby such loaded CAR T-cells are generated.