Abstract: The present invention relates to: oral nanoparticles for enabling oral administration of a bioactive compound which is typically administered by injection due to having low bioavailability attributable to issues with solubility, disintegration in the digestive tract, and intestinal permeability; a method of formulating the oral nanoparticles; and a use of the oral nanoparticles. In addition, the present invention relates to: oral nanoparticles capable of maintaining or protecting the balance in the gut microbiome by minimizing the exposure of the gut microbiome to a bioactive compound; a formulation; and a use of same.

Abstract: The present disclosure relates to gut microbes resistant against infectious diseases and uses thereof. More particularly, the present disclosure relates to microbes resistant against infectious diseases, which provide a preventive or therapeutic effect on infectious diseases caused by pathogenic microorganisms and relates to uses of the gut microbes. The gut microbes resistant are characterized in that they are selected from the group consisting of Oribacterium species JBO3-101 (accession number KACC 81250BP) and Ruminococcus species JBR5-501 (accession number KACC 81249BP). The gut microbes according to the present disclosure have the effect of rendering the host resistant to infectious diseases caused by pathogenic microorganisms when the microbes are ingested.

Abstract: Targeting-enhanced anticancer nanoparticles and preparation methods for the nanoparticles are provided. In particular, this invention provides targeting-enhanced anticancer nanoparticles comprising non-covalently bound anticancer drugs, serum albumins as the nanoparticle base material, and porphyrin compounds as tumor-targeting moieties. The targeting-enhanced anticancer nanoparticles described in the present invention are characterized by non-covalently bound constituents: anticancer drugs, serum albumin as the nanoparticle base material, and porphyrin compounds as tumor-targeting moieties, thus preventing common toxic side effects, enhancing the structural stability of nanoparticles, and enhancing tumor targeting by treatment with electromagnetic waves due to the activity of porphyrin, without structural and functional changes.

Abstract: Targeting-enhanced anticancer nanoparticles and preparation methods for the nanoparticles are provided. In particular, this invention provides targeting-enhanced anticancer nanoparticles comprising non-covalently bound anticancer drugs, serum albumins as the nanoparticle base material, and porphyrin compounds as tumor-targeting moieties. The targeting-enhanced anticancer nanoparticles described in the present invention are characterized by non-covalently bound constituents: anticancer drugs, serum albumin as the nanoparticle base material, and porphyrin compounds as tumor-targeting moieties, thus preventing common toxic side effects, enhancing the structural stability of nanoparticles, and enhancing tumor targeting by treatment with electromagnetic waves due to the activity of porphyrin, without structural and functional changes.

Abstract: This invention encompasses targeting-enhanced anticancer nanoparticles and preparation methods for the same. In particular, this invention provides targeting-enhanced anticancer nanoparticles comprising non-covalently bound anticancer drugs, serum albumins as the nanoparticle base material, and porphyrin compounds as tumor-targeting moieties. The targeting-enhanced anticancer nanoparticles described in the present invention are characterized by non-covalently bound constituents: anticancer drugs, serum albumin as the nanoparticle base material, and porphyrin compounds as tumor-targeting moieties, thus preventing common toxic side effects, enhancing the structural stability of nanoparticles, and enhancing tumor targeting by treatment with electromagnetic waves due to the activity of porphyrin, without structural and functional changes.

Abstract: This invention encompasses targeting-enhanced anticancer nanoparticles and preparation methods for the same. In particular, this invention provides targeting-enhanced anticancer nanoparticles comprising non-covalently bound anticancer drugs, serum albumins as the nanoparticle base material, and porphyrin compounds as tumor-targeting moieties. The targeting-enhanced anticancer nanoparticles described in the present invention are characterized by non-covalently bound constituents: anticancer drugs, serum albumin as the nanoparticle base material, and porphyrin compounds as tumor-targeting moieties, thus preventing common toxic side effects, enhancing the structural stability of nanoparticles, and enhancing tumor targeting by treatment with electromagnetic waves due to the activity of porphyrin, without structural and functional changes.