An edible negative contrast agent for CT imaging of the gastrointestinal tract intended for oral intake. The contrast agent is a fluid, aqueous foam displaying a CT density contrast value in the range −300 to −800 HU and having a consistency of 7 to 12 cm as measured with Bostwick consistometer. The contrast agent comprises an aqueous continuous liquid phase having a pH of 6.5 to 8.0 and gas bubbles dispersed in the continuous aqueous liquid phase. The aqueous continuous liquid phase comprises a surfactant, the surfactant being a protein, a hydrocolloid acting as foam stabilizer, a buffering agent, and water.

Disclosed herein is a composition comprising a plurality of liposomes having an average diameter of less than 400 nanometers, wherein the plurality of liposomes comprise: a first lipid or phospholipid; a second lipid or phospholipid which is derivatized with a polymer; and a sterically bulky excipient capable of stabilizing the liposomes; a third lipid or phospholipid derivatized with a polymer terminated with an integrin targeting component; DSPE or a fourth lipid or phospholipid derivatized with a group binding a contrast enhancing agent wherein the plurality of liposomes optionally encapsulates a payload component consisting of one or more bioactive agents.

The present disclosure is directed to methods of Quantum Spin Engineering of spinel superparamagnetic ferrite nanoparticles (SMFNs) for MRI contrast agents and for magnetohyperthermia agents. Using the methods herein, the magnetic properties of the SMFNs can be controlled by changing the amount of 3d-transition element cations having unpaired electrons in the 3d orbital that occupy the octahedral sites of the spinel crystal form, to form mixed spinels, while anions in the spinels can be utilized to magnetically couple the cations utilizing intra-crystalline angles determined by ion sizes and crystal structure, and further tuning of other critical parameters is provided. The mixed spinels disclosed herein provide enhanced MRI contrast agents and improved magnetohyperthermia agents with lower toxicity and safety concerns, while the production methods disclosed herein have lower cost.

The present disclosure provides contrast agent compositions comprises a plurality of nanoparticles, such as nanoparticles comprises an iron nanoparticle such as an iron nitride. The disclosure also provides methods for magnetic resonance imaging of the contrast agent compositions as well as other methods of performing magnetic resonance imaging. Further, the disclosure provides kits comprising a contrast agent composition.

Polyarginine-coated nanoparticle, and methods for making and using the nanoparticle. The nanoparticle can have a core that includes a material that imparts magnetic resonance imaging activity to the particle and, optionally, include one or more of an associated therapeutic agent, targeting agent, and diagnostic agent.

The present invention relates to compositions and methods for imaging and treating various diseases and disorders, including cancers. The composition of the invention can include a plurality of biodegradable micro-beads, each embedding a plurality of nano-beads, further including a polymer, a radionuclide, a radionuclide chelator, a radioligand, a chemotherapeutic agent, and a cell-penetrating peptide. Upon injection into a blood vessel supplying a cancer tumor, the micro-beads lodge into the tumor and degrade, releasing the nano-beads with a therapeutic or diagnostic agent. The compositions and methods of the invention provide a more homogeneous and deeper distribution of radiation or chemotherapeutic agents throughout the target tumor. The micro-beads provide a local, sustained, and controlled delivery nano-beads including therapeutic or diagnostic agents.

Disclosed herein are nanoconstructs comprising a nanoparticle, coated with additional agents such as cationic polymers, stabilizers, targeting molecules, labels, oligonucleotides and small molecules. These constructs may be used to deliver compounds to treat solid tumors and to diagnose cancer and other diseases. Further disclosed are methods of making such compounds and use of such compounds to treat or diagnose human disease.

Provided is a method for preparing a carbon-13-containing graphene quantum dot available as an MRI contrast medium, a carbon-13-containing graphene quantum dot prepared by the method, and an MRI contrast medium comprising the carbon-13 graphene quantum dot.

A non-pyrogenic preparation containing nanoparticles synthesized by magnetotactic bacteria for medical or cosmetic applications. The nanoparticles are constituted by a crystallized mineral central part including predominantly an iron oxide, as well as a surrounding coating without material from the magnetotactic bacteria.

A nanotherapeutic supported by a hierarchical silica composite with dual imaging capability (e.g. fluorescence and magnetic resonance imaging), a method of preparing the nanotherapeutic, and a method of treating cancer. Also disclosed is a method of oxidatively dehydrogenating ethane using a catalytic system supported by a hierarchical silica composite.