The present invention relates to a biocompatible particle comprising nanoparticles of iron oxide embedded in a polycathecolamine or polyserotonine matrix, a suspension of said particles, a process for preparing said suspension of particles, a conjugate comprising said particle and the use of said particle and said conjugate in imaging techniques.

Provided herein are MRI agent-loaded platelets, methods of preparing MRI agent-loaded platelets, and methods of using MRI agent-loaded platelets. In some embodiments, methods of loading MRI agents into platelets include contacting platelets with an MRI agent, a cell penetrating peptide, and a loading buffer that can include a salt, a base, a loading agent, and optionally at least one organic solvent.

The present invention relates to a method for preparing beads comprising imaging agent. The present invention further provides beads highly useful for medical imaging.

Disclosed herein are embodiments of composites and compositions that can be used for therapeutic applications in vivo and/or in vitro. The disclosed composites can comprise cores having magnetic nanoparticles, quantum dots, or combinations thereof and zwitterionic polymeric coatings that facilitate solubility and bioconjugation. The compositions disclosed herein can comprise the composites and one or more biomolecules, drugs, or combinations thereof. Also disclosed herein are methods of making the composites, composite components, and methods of making quantum dots for use in the composites.

The invention relates to non-polymeric lipid-based nanocarrier compositions loaded with metal nanoparticles and at least one therapeutic agent, useful agents for transportation, vectorization, cellular delivery cellular targeting or cellular localization of at least one therapeutic agent.

Disclosed is a composition including magnetic nanoparticles for use in the treatment of a tissue volume including pathological cells in an individual, wherein a portion only of the tissue volume is occupied by the magnetic nanoparticles upon administration of the composition to the individual and the magnetic nanoparticles are excited by radiations.

An imaging system includes a radiation source (110) that emits radiation that traverses an examination region and a detector (116) that detects radiation traversing the examination region and a subject disposed therein, and produces a signal indicative of the energy of the detected radiation. A data selector (122) energy discriminates the signal based on an energy spectra setting corresponding to first and second spectral characteristics of a contrast agent administered to the subject, wherein the contrast agent has a first attenuation spectral characteristic when attached to the target and a second different spectral characteristic when not attached to the target. A reconstructor (134) reconstructs the signal based on the first and second spectral characteristics and generates volumetric image data indicative of the target.

A preparation method for a magnetic composite for treating and diagnosing cancer. The method may include a step of pyrolyzing a precursor of a magnetic nanoparticle in the presence of a conjugated polymer. The preparation method for a magnetic composite can produce a magnetic composite economically and efficiently because a magnetic composite comprising a magnetic nanoparticle coated with a conjugated polymer can be prepared by a single process.

The present invention relates to nanostructures having low-density and porous coatings that surround or are associated with at least one core nanoparticles. The structures are capable of carrying or associating with at least one payload within or on the surface of the nanostructures so that the structures can be used in applications such as medical diagnosis or therapeutic treatment.

The invention relates to an antitumor composition based on hydrophobized hyaluronan and inorganic nanoparticles stabilized by oleic acid. The hydrophobized hyaluronan in the form of an acylated hyaluronan serves in the composition as a carrier of inorganic nanoparticles. Out of the group of inorganic nanoparticles, the composition may comprise superparamagnetic nanoparticles, nanoparticles of ZnO and moreover, upconversion nanoparticles. Said composition is selectively cytotoxic with respect to both suspension and adherent tumor cell lines, especially with respect to tumor cell lines of colorectum carcinoma and adenocarcinoma, lung carcinoma, hepatocellular carcinoma and breast adenocarcinoma. The highest cytotoxic effects were observed in case of the composition based on an oleyl derivative of hyaluronan with SPIONs. The composition of acylated hyaluronan with SPIONs may also be advantageously used for an in vivo detection of accumulation of the composition in the body, preferably in a tumor or in liver. Said composition is sterilizable in the final package.