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.

Embodiments of the present invention provide methods of detecting cells characteristic of disease, determining a measure of the number of cells characteristic of disease present, and determining the location of cells characteristic of disease. The effect of nanoparticles on magnetic fields can be used to determine the location of a disease, and a measure of the number of cells characteristic of the disease. This location and measure can be used to guide therapy, and provide information regarding the most effective therapy to be applied.

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.

Surface conjugated diamagnetic Chemical Exchange Saturation Transfer (diaCEST) agent carriers and methods of making and using are described herein. The particles are safe alternatives to conventional paramagnetic or superparamagnetic metal-based MRI contrast agents that are often toxic and therefore not biocompatible. The carriers described herein can provide simultaneous monitoring of multiple particle types labeled with multicolor diaCEST contrast agents. In some embodiments, the carriers are micro- and/or nanoparticles. In other embodiments, the carriers are liposomes. In some embodiments, the particles and/or liposomes are mucus penetrating. In other embodiments, the particles and/or liposomes are not mucus penetrating.

A multi-chromophore virus particle is constructed by covalent binding of chromophores and provides super-radiant behavior. A virus-enabled targeted vector is provided for imaging with qualitatively different optical emission properties from state-of-the-art agents. Bright emission is obtained through quantum coherence, which in turn is facilitated by the symmetry of the virus shell. In an exemplary embodiment the targeted vector is used in laser-guided surgery, specifically for the treatment of in brain cancer.

NIR active, biocompatible and multifunctional (magnetic, photo-acoustic, and photo-thermal agent) E-capped iron oxide nanoparticles for deep tissue imaging and cancer therapy, are synthesized by a simple, rapid, non-toxic, low-cost and efficient completely green synthesis technique using extract made from the leaves of a medicinal aromatic plant, Pimenta dioica.

A method of preparing a coated nanoparticle can include decomposing a compound to produce a nanoparticle, oxidizing the nanoparticle to produce an oxidized nanoparticle, and coating the oxidized nanoparticle with a zwitterionic ligand to produce the coated nanoparticle. The coated nanoparticle or the nanoparticle can be used in magnetic resonance imaging.

Provided herein are nanoparticle compositions (e.g., nanoparticle compositions comprising high atomic number ions) that are useful for imaging diseases in a subject as well as radiosensitizing a disease in a subject (e.g., radiosensitizing a cancer in the subject). Methods of imaging a subject, methods of treating cancer, and processes of preparing the nanoparticle compositions are also provided.

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.

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.