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.

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.

Provided are methods for slowing, halting, and reversing gray matter atrophy and progression of disability in certain neurodegenerative diseases, including multiple sclerosis, using estrogen, alone or in combination with another agent.

Provided are methods for slowing, halting, and reversing gray matter atrophy and progression of disability in certain neurodegenerative diseases, including multiple sclerosis, using estrogen, alone or in combination with another agent.

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.

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.

A sterile aqueous composition suitable for use as an MRI contrast agent includes 100 to 600 mM ascorbate; and 100-600 mM sodium, meglumine, or a combination thereof. The composition preferably has an osmolarity of 200 to 1400 mOsm/L.

A sterile aqueous composition suitable for use as an MRI contrast agent includes 100 to 600 mM ascorbate; and 100-600 mM sodium, meglumine, or a combination thereof. The composition preferably has an osmolarity of 200 to 1400 mOsm/L.

The invention relates to the use of biocompatible superparamagnetic nanoparticles comprising an inorganic core and a coating including an electrically charged polymer, and having low tissue and vascular adhesion, for use as contrast agents in magnetic resonance imaging (MRI). The aforementioned nanoparticles have novel pharmacokinetic and relaxability T2* properties, with high potential for use in in vivo tissue imaging and tumour perfusion strategies based on parameter T2*.

The invention relates to the use of biocompatible superparamagnetic nanoparticles comprising an inorganic core and a coating including an electrically charged polymer, and having low tissue and vascular adhesion, for use as contrast agents in magnetic resonance imaging (MRI). The aforementioned nanoparticles have novel pharmacokinetic and relaxability T2* properties, with high potential for use in in vivo tissue imaging and tumour perfusion strategies based on parameter T2*.