The disclosure provides nanoemulsion compositions and methods of making and using thereof to deliver a bioactive agent such as a nucleic acid to a subject. The nanoemulsion composition comprises a hydrophobic core based on inorganic nanoparticles in a lipid nanoparticle that allows imaging as well as delivering nucleic acids. Methods of using these particles for treatment and vaccination are also provided.

A nano- or microparticle comprising a matrix consisting of or comprising at least one polyvinyl alcohol (PVA) and dispersed therein, ferrite, and a method for producing the same. Further, the use of these nano- or micro-particles for the preparation and the implementation of devices that can be detected by giant magnetoresistance sensors (GMR sensors) as biological diagnostic tools.

A biocompatible curable composition and a method of detecting a border of a tumor, a tissue of interest, or both including injecting the biocompatible curable composition and contacting the border of a tumor or a tissue, the biocompatible curable composition crosslinks to form a three-dimensional cured nanocomposite, and imaging the three-dimensional (3D) cured nanocomposite, and imaging the 3D cured nanocomposite by at least one of MRI, CT, ultrasound, and X-ray, to detect the border of the tumor or the tissue of interest or track tumor motion during radiotherapy treatment. The biocompatible curable composition comprising an organic polymer having a hydrolysable functional group, a metallic nanoparticle, and a polar or a non-polar solvent. A brachytherapy strand consisting of a biocompatible curable composition and a radio-isotope seed. The biocompatible curable composition is shaped into an elongated cylinder and forms a 3D cured nanocomposite with a radio-isotope seed embedded.

The present disclosure provides functionalized magnetic nanoparticles (MNPs) comprising a functional group that binds to -amyloid deposits and/or neurofibrillary tangles. The present disclosure provides compositions comprising the functionalized MNPs, and methods of using the functionalized MNPs in imaging -amyloid deposits and neurofibrillary tangles.

A magnetic resonance imaging (MRI) system is provided for imaging immune response of soft tissue to therapy by, prior to therapy, administering a contrast agent to the soft tissue; imaging a region of interest using delta relaxation enhanced magnetic resonance (DREMR) to define a functional section; selectively sampling local cells in the functional section; conducting immuno-assay analysis on the sampled local cells; and following therapy, further imaging said region of interest using DREMR to assess immune response of said cells to therapy.

Disclosed herein are complexes of gadolinium metal, ligand and meglumine that are substantially free of non-aqueous solvents. In particular, solvent-free complexes of 1) gadopentetate dimeglumine and 2) gadoterate meglumine are disclosed and methods of their preparation are disclosed. In addition, methods are disclosed for purifying reactants, monitoring and controlling pH, quantifying the free gadolinium content, quantifying the concentration of gadolinium-ligand complex in aqueous solution, and procedures for producing a drug product in one step. The one step process eliminates the need to dry the gadolinium-ligand complex, which is typically highly hygroscopic. The one step process includes purification steps that do not require the use of non-aqueous solvents.

The present invention provides methods, compositions, systems, and kits comprising core-satellite nanocomposites useful for photothermal and/or MRI applications (e.g., tumor treatment and/or imaging). In certain embodiments, the core-satellite nanocomposites comprise: i) a core nanoparticle complex comprising a biocompatible coating surrounding a nanoparticle core, and ii) at least one satellite component attached to, or absorbed to, the biocompatible coating. In some embodiments, the nanoparticle core and satellite component are composed of near-infrared photothermal agent material and/or MRI contrast agent material. In further embodiments, the satellite component is additionally or alternatively composed of near-infrared optical dye material.

Magnetosomes for use in a sequential laser radiation medical treatment, wherein the magnetosomes are administered to a body part of an individual. In a first step, the magnetosomes are irradiated by a laser radiation, and in a second step, the magnetosomes are irradiated by a laser radiation of lower power than in the first step or no laser irradiation of the magnetosomes is performed. The sequence of the first step and second step is repeated at least once.

Magnetosomes for use in a sequential laser radiation medical treatment, wherein the magnetosomes are administered to a body part of an individual. In a first step, the magnetosomes are irradiated by a laser radiation, and in a second step, the magnetosomes are irradiated by a laser radiation of lower power than in the first step or no laser irradiation of the magnetosomes is performed. The sequence of the first step and second step is repeated at least once.

The present invention provides a preparation method of a redox-responsive chitosan-liposome and use thereof, wherein the method uses dithiobis succinimidyl-substituted ester to synthesize a redox-responsive and disulphide bonded double fatty chain substituent phosphatidylethanolamine-s-s-chitosan. Using the synthesized double fatty chain substituent phosphatidylethanolamine chitosan, by a post-insertion and self-assembly method, to modify liposome, to construct a double fatty chain substituent phosphatidylethanolamine chitosan-liposome drug carrier having a redox-responsive chitosan brush on the surface thereof. The chitosan-liposome constructed in the present invention not only has the strong cell adhesion property and the antiserum property, but also has environmental response properties, being suitable for the intravenous injection. The present invention also provides the use of the chitosan-liposome encapsulating super-paramagnetic ferroferric oxide nanoparticles in drug delivery, which has high drug delivery efficiency and high biocompatibility, and has broad application prospects.