A magnetic resonance imaging (MRI) T1 contrast agent composition including T1 contrast material coated on the surface of a nanoparticle support and an imaging method using the MRI T1 contrast agent. The MRI T1 contrast agent composition has excellent T1 spin magnetic relaxation effects by modifying the paramagnetic T1 contrast material on the nanoparticle support having a certain diameter such that the paramagnetic T1 contrast material has a certain thickness or less, and thereby remarkably increasing the surface-to-volume ratio of the T1 contrast material. The MRI T1 contrast agent provides more precise and clear T1 positive contrast images, and is thus useful for highly reliable image diagnosis.

Radiopaque monomers, polymers, and microspheres are disclosed herein. Methods of using the radiopaque monomers, polymers, and microspheres are disclosed herein. Methods of manufacturing radiopaque monomers, polymers, and microspheres are disclosed herein.

The present invention provides a nanoparticle, comprising: a core, wherein the core comprises at least one iron oxide; a shell surrounding the core, wherein the shell comprises at least one polymer; and at least one targeting moiety attached to the shell, wherein the nanoparticle does not comprise boron, for use in methods for detecting and treating cancer in a subject.

Embodiments of the present disclosure provide for contrast agents, methods of making contrast agents, and methods of using contrast agents, and the like.

Provided herein are protein contrast agents and targeted protein contrast agents, formulations thereof, and methods of use, including but not limited to, as a magnetic resonance imaging contrast agent.

Deuterated polymer-biomolecule conjugates and the synthesis and use of deuterated polymer-biomolecule conjugates for detecting the location of specific molecules, e.g., cell surface molecules, in a subject, and for imaging various processes within the body, for detecting the location of molecules associated with disease pathology, and for monitoring disease progression are disclosed.

The present invention pertains to: a p-boronophenylalanine derivative that comprises a polymer to which a group represented by formula (I) is linked directly or via a linker; a composition containing same; and a kit for producing said derivative and composition.

The invention relates to the use of tetrapyrroles conjugated compounds as contrast agent in magnetic resonance imaging (MRI). In particular conjugates of natural hemin that can be embedded in gels and implants to image local delivery in MRI.

Provided herein are protein contrast agents and targeted protein contrast agents, formulations thereof, and methods of use, including but not limited to, as a magnetic resonance imaging contrast agent.

Embodiments of the present disclosure provide for contrast agents, methods of making contrast agents, and methods of using contrast agents, and the like.