A cerium oxide nanocomplex, a composition containing the cerium oxide nanocomplex as an active ingredient, and their uses for preventing or treating inflammatory liver disease are disclosed. The present disclosure applies a biocompatible polymer composed of an optimal combination to significantly improve the biomedical stability, biosynthesis and efficiency of the production process of nanoparticles while maintaining the nanoparticles’ excellent inhibitory activity against inflammation. In particular, the present disclosure may be applied as an effective therapeutic composition that effectively controls excessive immune response and inflammatory response and tissue injury in acute liver failure which is a serious condition of rapid loss of liver function that results in multiple organ failure and death.

A cerium oxide nanocomplex, a composition containing the cerium oxide nanocomplex as an active ingredient, and their uses for preventing or treating inflammatory liver disease are disclosed. The present disclosure applies a biocompatible polymer composed of an optimal combination to significantly improve the biomedical stability, biosynthesis and efficiency of the production process of nanoparticles while maintaining the nanoparticles’ excellent inhibitory activity against inflammation. In particular, the present disclosure may be applied as an effective therapeutic composition that effectively controls excessive immune response and inflammatory response and tissue injury in acute liver failure which is a serious condition of rapid loss of liver function that results in multiple organ failure and death.

Disclosed herein are anti-lymphocyte antigen 6 complex, locus H (LY6H) antibodies and antibody drug conjugates (ADCs), including compositions and methods of using said antibodies and ADCs.

Described herein are methods and systems for the preparation of a brain targeted cerium oxide nanop article (CeNP) and its application in treating central neuronal system diseases. The brain targeted CeNP (T-CeNP) can effectively pass the blood brain barrier and specifically target brain tissue and exhibit anti-inflammatory and anti-oxidant effects.

Described herein are methods and systems for the preparation of a brain targeted cerium oxide nanop article (CeNP) and its application in treating central neuronal system diseases. The brain targeted CeNP (T-CeNP) can effectively pass the blood brain barrier and specifically target brain tissue and exhibit anti-inflammatory and anti-oxidant effects.

Stabilized multi-component antimicrobial compositions for treating tissue diseases, infections or conditions include a first and second set of differently sized and/or differently shaped metal nanoparticles, and a stabilizing agent. Compositions and treatment methods may be used for treating tissue diseases, infections or conditions caused by microbial infections, such as bacteria, viral, and/or fungal infections, or for preventing the infection of a wound, such as a cut, abrasion, ulcer, lesion, sore, and the like. The compositions and treatment methods disclosed herein may also be used as a prophylactic, and in some embodiments may be applied to otherwise healthy tissue in order to prevent or reduce the occurrence of a tissue disease, infection or condition.

The present invention relates to novel microporous zirconium silicate compositions that are formulated to remove toxins, e.g. potassium ions, from the gastrointestinal tract at an elevated rate without causing undesirable side effects. The preferred formulations are designed avoid increase in pH of urine in patients and/or avoid potential entry of particles into the bloodstream of the patient. Also disclosed is a method for preparing high purity crystals of UZSi-9 exhibiting an enhanced level of potassium exchange capacity. These compositions are particularly useful in the therapeutic treatment of hyperkalemia.

The present invention relates to novel microporous zirconium silicate compositions that are formulated to remove toxins, e.g. potassium ions, from the gastrointestinal tract at an elevated rate without causing undesirable side effects. The preferred formulations are designed avoid increase in pH of urine in patients and/or avoid potential entry of particles into the bloodstream of the patient. Also disclosed is a method for preparing high purity crystals of UZSi-9 exhibiting an enhanced level of potassium exchange capacity. These compositions are particularly useful in the therapeutic treatment of hyperkalemia.

The present invention provides a nanoparticle comprising a core comprising a metal; and a corona comprising a plurality of ligands covalently linked to the core, the plurality of ligands including at least a first species of ligand comprising an ethylene glycol portion and an amine group and at least a second species of ligand comprising a carbohydrate group, for use in a method of treating a cancer, particularly skin cancer, in a mammalian subject. Also disclosed are methods of treatment by administering the nanoparticles alone or in combination with radiotherapy.

The invention relates to a highly flowable crosslinkable medical or dental composition comprising a crosslinkable compound, a polymerization initiator and a heterogeneous radiopacifier. Also described is a crosslinked polymer composition obtainable by crosslinking said highly flowable, crosslinkable medical or dental composition and the use of said highly flowable crosslinkable medical or dental composition to fill cavities or hollow structures in human or animal subjects.