A functional gadolinium contrast agent comprising a gadolinium cation and a ligand secured to the gadolinium cation is disclosed, the ligand comprising a reactive group capable of bonding to a capture substrate. A method of removing gadolinium contrast agents from a patient is disclosed, the method comprising providing a gadolinium contrast agent containing a reactive group; providing a capture substrate for insertion into a patient's bloodstream; administering the gadolinium contrast agent to the patient; conducting a magnetic resonance imaging procedure; and sequestering the gadolinium contrast agent on the capture substrate. A system for removing gadolinium contrast agents is also disclosed.

Provided herein are magnetic resonance imaging (MRI) contrast agents comprising a compound having a structure represented by: YXZ, wherein, X is: Fe(III) or Mn(II), and Y and Z are each independently selected from pyrophosphate and bisphosphonate (e.g., 1-hydroxybisphosphonate), or a pharmaceutically acceptable hydrate and/or salt thereof. Methods of use of the MRI contrast agent are also provided.

The present invention relates to reverse-micellar systems comprising at least an active agent, an acylglycerol, a sterol, lecithin, ethanol and water, for use in chelation and/or sequestering of a radionuclide and/or a metal in a patient. The invention also relates to the reverse-micellar systems and to pharmaceutical compositions comprising said reverse-micellar systems.

The disclosure relates in some aspects to imaging agents, and in particular, imaging agents for sensing of calcium signaling. According to some embodiments of the disclosure, contrast agents for magnetic resonance imaging and related technologies are provided, and methods of making and using the contrast agents.

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: YXZ 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.

The invention provides systems and methods for providing a diagnostic examination to a patient, including, but not limited to a determination of the permeability of a patients' body cavity.

The invention relates to the technical field of characterising lesions in the liver using dynamic contrast-enhanced magnetic resonance tomography.

The present invention relates to reverse-micellar systems comprising at least an active agent, an acylglycerol, a sterol, lecithin, ethanol and water, for use in chelation and/or sequestering of a radionuclide and/or a metal in a patient. The invention also relates to the reverse-micellar systems and to pharmaceutical compositions comprising said reverse-micellar systems.

Provided herein are examples of metal chelating ligands that have high affinity for manganese. The resultant metal complexes can be used as MRI contrast agents, and can be functionalized with moieties that bind to or cause relaxivity change in the presence of biochemical targets.

Methods and compositions are provided for objectively characterizing a pathological lesion in a patient. The method comprises: introducing into the patient a contrast enhancing agent; subjecting the patient to magnetic resonance imaging to obtain an image; and applying a 3-D autocorrelation function to a subdomain of interest of the image to obtain at least one 3-D autocorrelation spectrum. The method may further comprise comparing the at least one 3-D autocorrelation spectrum to a pre-existing 3-D autocorrelation spectrum that is characteristic for the pathological lesion. In one example, the methods and compositions may be useful for identifying and objectively characterizing amyloid plaque deposits characteristic of Alzheimer's Disease.