The invention provides compounds suitable for use as contrast agents in magnetic resonance imaging (MRI). The compounds of the present invention are manganese (II) complexes having advantageous properties as compared with similar known compounds.

In some aspects, the present disclosure provides novel ligands, which may be used to make novel MRI contrast agents for the detection of zinc. In further aspects, by the present disclosure also provides methods of using as imaging agents and compositions thereof.

Systems, methods and related devices used to produce and collect polarized noble gas to inhibit, suppress, detect or filter alkali metal nanoclusters to preserve or increase a polarization level thereof. The systems can include a pre-sat chamber that has an Area Ratio between 20 and 500.

The present invention relates to a new class of high relaxivity extracellular gadolinium chelate complexes, to methods of preparing said compounds, and to the use of said compounds as MRI contrast agents.

The present invention relates to the RRR/SSS pair of enantiomers of the of Gd(PCTA-tris-glutamic glutaric acid), the single enantiomers of the pair, the pharmaceutically acceptable salts thereof, their amide derivatives, and compositions comprising at least 50% of these compounds.

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.

A hydrolysis method for tert-butyl ester in gadolinium-based contrast agent comprises hydrolyzing the tert-butyl ester with a catalyst. The preparation method of the catalyst comprises the following steps: subjecting zirconia and titanium tetrachloride to reaction in the presence of sulfuric acid and water at 60° C. to 90° C. until solids are dissolved, adding silica to perform reaction for 1 to 5 h, filtering to obtain solids, washing and calcining the solids. This hydrolysis method does not introduce other substances that are difficult to remove, such as acids, and provides high hydrolysis efficiency and high purity of the obtained product.

Macrocyclic complexes and macrocyclic compounds. The macrocyclic complexes or macrocyclic compounds have a TACN moiety with one or more amine group(s) or a O- or S-substituted TACN moiety. The macrocyclic complexes have a high-spin Fe(III) atom coordinated to the TACN moiety. The macrocyclic complexes can be used in imaging methods.

There is described a method for preparation of an imaging medium via transfer from a hyperpolarised singlet state that is not parahydrogen, said method comprising the steps of: (i) preparing a system containing: parahydrogen; a magnetisation transfer complex, with a molecular symmetry that allows the creation of a singlet state between spin pairs within it, said complex including a reversibly bound small molecule transference substrate; applying a magnetic field such that hyperpolarisation is transferred into the transfer complex, including the reversibly bound small molecule transference substrate; (ii) introducing a recipient complex capable of binding the small molecule transference substrate, said recipient complex including a recipient substrate, such that the recipient complex and recipient substrate, including the bound transference substrate, is hyperpolarised.

Provided herein is a compound useful as a magnetic resonance imaging (MRI) contrast agent and a therapeutic agent, said compound having a structure represented by: Y—X—Z wherein, X is Mn(II), and Y and Z are each independently a bisphosphonate coupled to one or more therapeutic agents. Methods of use of the compound for MRI imaging and treatment for cancer or a microbial infection are also provided.