A nanoparticle composition of buckminsterfullerene bonded with epicatechin or a galloyl functional group such as in epigallocatechin gallate, or in tannic acid, is provided that is anti-microbial and efficacious to maintain or re-establish benign healthy cellular homeostasis. In addition, the ability to penetrate hydrophobic malignant microbes via desulfurization is promoted with the addition of phosphonate pendant groups. This further enables the composition to prevent or to treat chronic obstructive pulmonary disorder (COPD), to penetrate fungal spores, and to penetrate the hydrophobic regions of uncontrolled invasive pathological bacteria. The composition can be produced at low temperatures through reactive shear milling. Delivery methods include ingestion, topical application, topical buccal application, inhalation, or injection when used as a medicament or as a food supplement.

Methods of delivering therapeutic agents by administering compositions including a bacterial collagen-binding polypeptide segment linked to the therapeutic agent to subjects in need of treatment with the therapeutic agent are provided. In these methods, the therapeutic agent is not a PTH/PTHrP receptor agonist or antagonist, basic fibroblast growth factor (bFGF) or epidermal growth factor (EGF). The bacterial collagen-binding polypeptide segment delivers the agent to sites of partially untwisted or under-twisted collagen. Methods of treating collagenopathies using a composition including a collagen-binding polypeptide and a PTH/PTHrP receptor agonist are also provided. In addition, methods of treating hyperparathyroidism, and hair loss using compositions comprising a collagen binding polypeptide and a PTH/PTHrP receptor agonist are provided. Finally, methods of reducing hair regrowth by administering a composition including a collagen binding polypeptide and a PTH/PTHrP receptor antagonist are provided.

A preparation method and use of an artificial exosome complex are provided. Raw materials for preparing the artificial exosome complex include linear polyethyleneimine (PEI) and hyaluronic acid (HA). The linear PEI can be obtained through the HA-PEI preparation process of the present disclosure, and most PEI is branched currently. According to the HA-PEI preparation method, HA-PEI with a specific molecular weight can be quantitatively prepared. The preparation process involves controllable operation steps, and thus can be used for large-scale industrial production. The prepared HA-PEI can promote the absorption of an encapsulated active substance by deep skin cells through the ligand activity of HA and the membrane permeability of linear PEI.

This invention relates to anti-microbial active particles, compositions and uses thereof for inhibiting bacterial growth on surfaces or devices. This invention further discloses methods of making such anti-microbial active particles.

Components, for example, nanoparticles for detecting and/or treating one or more active carious lesions or microcavities in teeth of a subject are provided. The component or nanoparticle may comprise a biocompatible and biodegradable polymer (e.g., a starch) bearing at least one cationic region and/or having a net positive charge and thereby capable of associating with one or more active and/or early carious lesions on a tooth in an oral cavity of a subject. The components or nanoparticles are optionally water soluble or dispersible. The components or nanoparticle also comprises an imaging agent (e.g., a fluorophore or dye) bonded to the biocompatible and biodegradable polymer. The component or nanoparticle is thus capable of indicating the presence of one or more active carious lesions when the component or nanoparticle is associated therewith. Oral care compositions comprising such compounds/nanoparticles and methods of making and using the same are also provided.

The invention relates to a lipid nanoparticle comprising an SDKP peptide conjugate or a biological peptide analog thereof, a method for obtaining said lipid nanoparticle, and the cosmetic use thereof as an anti-wrinkle agent or skin restructuring agent.

Personal care products are provided. An exemplary personal care product includes a composition that is applied to the body or clothing, or an article applied against the body; a plurality of particles associated with the composition or a component of the article, the plurality of particles, at least some of the plurality of particles comprising a cyclodextrin complexing material and a first fragrance material, wherein the percent of the first fragrance material that is complexed with the cyclodextrin is greater than about 90%, so that the perceptibility of the first fragrance is minimized prior to its release; and a second fragrance material that is not complexed with the cyclodextrin and that is different from the first fragrance material, wherein the composition or article does not contain an antiperspirant active.

The present application provides a method for preparing a medical product for covering tissue, the method comprising providing nanofibrillar cellulose, providing a bioactive molecule, and covalently bonding the bioactive molecule to the nanofibrillar cellulose. The present application also provides a medical product for covering tissue comprising a bioactive molecule covalently bound to nanofibrillar cellulose.

The present invention relates to a drug-coated microneedle and a method of manufacturing the same, and more particularly to a drug-coated microneedle that delivers a drug by physically piercing the stratum corneum of the skin and a method of manufacturing the same. The drug-coated microneedle is represented by Chemical Formula 1 below, and is capable of releasing a drug through a redox reaction after penetration into the skin. The drug-coated microneedle according to the present invention is capable of effectively delivering a drug having excellent functionality but low skin permeability, and is thus useful as a material for functional cosmetics for whitening, wrinkle reduction, inflammation reduction and the like. [Chemical Formula 1] MN-S—S-D. In Chemical Formula 1, MN is a silica-(SiO.sub.2)-containing microneedle, S—S is a disulfide bond, and D is a drug.

An oral care composition including an orally acceptable vehicle is disclosed. The orally acceptable vehicle includes a source of hydrogen peroxide, an acyl donor, and an enzyme that catalyzes the generation of peracetic acid between the source of hydrogen peroxide and the acyl donor.