The present disclosure relates to a resveratrol delivery system having modified resveratrol composition wherein the active ingredient is stable colloidal resveratrol nanoparticles in unconjugated form. The said composition and its process thereof can be used in numerous applications for treatment of a mammal susceptible to or afflicted with insulin resistance, metabolic syndrome, aging, apoptosis, inflammation, stress resistance, cancer, cardiovascular disease, muscular dystrophy, low fertility rates or any combination thereof since the modified resveratrol composition has higher bioavailability and greater half-life.

A facility for industrial drying and/or encapsulation of thermolabile substances comprising at least one injection unit (1) wherein the thermolabile substance is introduced, an encapsulating material when the facility is used to encapsulate, a solvent, additives and an injection gas flow for obtaining droplets from the thermolabile substance. It further comprises a drying unit (2) through which the droplets and a drying gas are introduced for evaporating the solvent and comprises a collection unit (3) configured to separate the microcapsules generated from the drying gas and which is selected from a cartridge filter collector, a cyclone collector or a combination of the two. It also describes a method for the industrial encapsulation of thermolabile substances which is carried out at the proposed facility.

Provided herein are therapeutic nanoparticles having a diameter of between 10 nm to 30 nm, and containing a polymer coating, and a nucleic acid containing a sequence complementary to a sequence within a micro-RNA identified as having a role in cancer cell metastasis or anti-apoptotic activity in a cancer cell (e.g., miR-10b) or a sequence within an mRNA encoding a pro-apoptotic protein that is covalently linked to the nanoparticle. Also provided are pharmaceutical compositions containing these therapeutic nanoparticles. Also provided herein are methods of decreasing cancer cell invasion or metastasis in a subject having a cancer and methods of treating a metastatic cancer in a lymph node in a subject that require the administration of these therapeutic nanoparticles to a subject.

The invention relates to a microcapsule comprising at least one active substance selected from lutein and lutein esters embedded in a matrix comprising fish gelatine and optionally one or more other matrix components, wherein the content of said at least one active substance calculated as free lutein is from 0.5 to 25% of total weight of the microcapsule, and which microcapsule does not comprise any added emulsifier. The invention further relates to a process of preparing the microcapsule as well as uses and products comprising the microcapsule.

A microparticle for cell encapsulation is provided, having a core which comprises continuous fibers of decellularized extracellular matrix (ECM) and, optionally, an outer layer. Also provided are methods of encapsulating cells in the microparticle, pharmaceutical compositions comprising the microparticle, and methods of treating disease in animals employing the microparticles of the invention, for example, treating Diabetes.

The present disclosure relates to a taste-masking microcapsule composition. The composition comprises a core portion encapsulated by a shell portion. The core portion comprises an active pharmaceutical ingredient (API) and one or more excipients. The shell portion comprises a hydrophobic matrix and a pH-responsive material. The microcapsule compositions prevent API release at the more neutral pH levels in the oral cavity, but upon exposure to pH levels of the stomach, the pH-responsive material becomes soluble thereby permitting release of the API.

Brain function may be improved by administering a therapeutically effective amount of 1,3-butanediol, selected from R-1,3-butanediol, S-1,3-butanediol, and racemic 1,3-butanediol, in combination with a therapeutically effective amount of cannabidiol (CBD). The disclosed compositions include synergistically effective amounts of 1,3-butanediol in combination with a synergistically effective amount of cannabidiol (CBD). The compositions may be administered to a subject for treating anxiety, concussion, traumatic brain injury (TBI), and/or cognitive impairment.

A one-pot procedure to extract a dispersible exine shell. The shell can be used as a protection and/or delivery and/or removal vehicle for active substances or as an antioxidant. The invention provides a formulation containing the dispersible exine shell together with an active substance; and a method for preparing the shell by isolating a dispersible exine shell from a naturally occurring spore or pollen grain by treating the spore or pollen grain with a base or surfactant or both with or without a catalyst in the same reaction vessel.

The present invention relates to a preparation method for a traditional Chinese medicine drop pill and a traditional Chinese medicine micro drop pill prepared by using the method, and in particular, the present invention relates to a micro drop pill preparation method with high drug-loading capacity, simple preparation process and high production rate and a micro drop pill prepared by using the method. Specially, The drop pill preparation method used comprises the following steps: (1) material melting step: heat melting a medicine and a drop pill matrix to obtain a molten medicine liquid; (2) dropping step: delivering the molten medicine liquid to a dripper, and acquiring medicine drops of the molten medicine liquid by means of vibration dropping; and, (3) condensation step: cooling the medicine drops with a cooling gas to obtain micro drop pills.

Provided is an organic solvent-free method for producing a plurality of microsphere having an average diameter of less than 500 m in diameter and having average contact angle c greater than 140, consisting essentially of a biocompatible hot-melt carrier vehicle and a payload substance to be delivered, including melting and mixing a polymer carrier vehicle which is solid at room temperature and at least one payload substance, and dispensing microportions of the molten mixture through a droplet-forming space onto a cooled solid superoleophobic surface.