Imaging nanoagents including a polymalic acid-based molecular scaffold, a chlorotoxin peptide or a variant thereof, and at least one fluorescent moiety are provided. Methods for detecting, treating and removing a cancer in a subject by administering the imaging nanoagent are described.

Provided are DNA-coated nanoparticles (DNA-NPS), superparamagnetic nanoparticles (DNA-SPNs), and superparamagnetic iron oxide nanoparticles (DNA-SPIONs) as efficient imaging agents for targeting and imaging atherosclerotic lesions and treating atherosclerotic disease. The DNA-NS, DNA-SPNs, and DNA-SPIONs can enter macrophage cells via the Class A scavenger receptor (SR-A)-mediated pathways and can be used to specifically target atheroscleortic plaques.

Disclosed are methods, compositions, reagents, systems, and kits to prepare nitroxide-functionalized brush-arm star polymer organic radical contrast agent (BASP-ORCA) as well as compositions and uses thereof. Various embodiments show that BASP-ORCA display unprecedented per-nitroxide and per-molecule transverse relaxivities for organic radical contrast agents, exceptional stability, high water solubility, low in vitro and in vivo toxicity, and long blood compartment half-life. These materials have the potential to be adopted for tumor imaging using clinical high-field .sup.1H MRI techniques.

Provided herein is a nanoparticle comprising a metal core and a polymer shell coating the metal core useful as a magnetic resonance contrast agent.

This invention relates to a method to assess nodal disease by magnetic resonance imaging with a contrast agent. The contrast agent comprises biofunctional magnetic nanoparticles coated with polymers outside the iron core and conjugated with antibodies specific to the tumor type to be assessed. Images produced from this magnetic resonance imaging with a contrast agent show heterogenous hypo intensity or heterogenous architecture in regions where binding by the antibodies is present.

A pharmaceutical composition includes a plurality of metal nanoparticles and at least one therapeutic agent. Each of the metal nanoparticles includes a core and a stabilizing agent coated on a surface of the core. The at least one therapeutic agent is attached to the stabilizing agent of the metal nanoparticles. Each of the therapeutic agent is an amphiphilic compound and has at least one hydrophobic chain interacting with the stabilizing agent. The pharmaceutical composition may further include a polymer shell encapsulating the metal nanoparticles and the therapeutic agent for enabling controlled release of the therapeutic agent. The pharmaceutical compositions are bifunctional and may be used for diagnosing and treating cancer. Methods for using the pharmaceutical compositions in conjunction with radiation therapy to diagnose and treat cancer are also provided.

Aspects of the disclosure relate to methods and compositions useful for in vivo and/or in vitro enzyme profiling. In some embodiments, the disclosure provides methods of in vivo enzymatic processing of exogenous molecules followed by detection of signature molecules as representative of the presence of active enzymes associated with diseases or conditions. In some embodiments, the disclosure provides compositions and in vitro methods for localization of enzymatic activity in a tissue sample.

The invention relates to a ligand compound having a structure A-B-C, wherein (a) A represents a mono- or polyphosphorylated amino acid linked to part B by its amino group to form an amide bond; B represents (i) a carboxylic acid, and (ii) an amino acid or peptidyl group of 2-10 amino acids, an alkyl or alkenyl group comprising 1-26 carbon atoms, a polyethylene glycol group comprising 1-26 carbon atoms or a combination thereof covalently linked to the carboxylic acid; and C represents a hydrophilic group covalently linked to the group of B (ii) or (b) A represents a mono-or polyphosphorylated amino acid linked to B by its carboxylic acid to form an amide bond; B represents an amino acid or peptidyl group of 2-10 amino acids, an amino substituted alkyl or alkenyl group comprising 1-26 carbon atoms, an amino substituted polyethylene glycol group comprising 1-26 carbon atoms or a combination thereof covalently linked to A by their amino group; C represents a hydrophilic group covalently linked to the group of B. The invention further relates to a coated metal nanoparticle such as super paramagnetic iron oxide nanoparticle (SPIONs) coated with a plurality of the aforementioned ligands and a method of producing thereof.

Disclosed herein are iron oxide nanoparticles having an iron (II) content in a metastable state that is intermediate the iron (II) content of wstite and magnetite. The disclosed iron oxide nanoparticles exhibit unexpectedly beneficial magnetic properties (e.g., saturation magnetization) resulting from both the size of the nanoparticles and the iron (II) content. Accordingly, the iron oxide nanoparticles are attractive for magnetic imaging applications, such as magnetic particle imaging. Methods of forming the iron oxide nanoparticles are also provided, such methods including a controlled oxidation step wherein a small amount (e.g., 1%) of gaseous oxygen is exposed to wstite nanoparticles for a defined period of time sufficient to partially oxidize the wstite but prevent conversion entirely to magnetite. Finally, methods of using the iron oxide nanoparticles are also provided. Representative methods include magnetic particle imaging, magnetic resonance imaging, and hyperthermia.

The present invention relates to a composition for use as a contrast agent in medical imaging. The composition comprises a metal ion containing compound comprises at least one metal ion adapted to bind with one or more metal ion chelating agents; wherein said one or more metal ion chelating agents comprise at least one first chelating agent adapted to target a region of interest being imaged, and at least one second chelating agent having at least one functional group adapted to dissociate in an aqueous medium to thereby allow or enhance contrast of the region of interest under the medical imaging. The present invention further relates to a diagnostic agent for use in amyloid (A) protein detection under magnetic resonance imaging (MRI) comprising the above described composition; and a method of preparing thereof.