Coated and Dried extracellular vesicles (EVs) represent an ideal method for preservation and increasing the shelf life-time of the invention making it ready to use on time and on variety of species overcoming the previous challenges on isolation and preservation and undesirable immune responses. The invention compromises a coated freeze dried stem cells derived EVs that are ready for use to Stimulate/accelerate healing of soft/hard tissues, can be reconstituted in multiple forms and shapes and stimulated by Laser. The nature of the invention is a heterogenous and/or Xenogenous EVs which can overcome the challenges of individual and/or species diseases and immune reactions.

Compositions are provided comprising a pro-reparative factor such as a colostrum, a nutritional protease inhibitor to decrease enzymatic digestion of the pro-reparative factors, and optionally a stabilizing agent, to allow the pro-reparative factors to reach the small intestine intact following oral administration. Methods are provided for treating, alleviating, and preventing inflammatory bowel disease (IBD) and other disorders of the gastrointestinal tract.

Provided herein are methods of administering a once-nightly dosage of gamma-hydroxybutyrate after a high-fat meal.

Nanostructure lipid carriers, delivery systems, methods of making nanostructured lipid carriers and delivery systems, and methods of using the same are disclosed. A composition is disclosed and comprises at least one nanostructured lipid carrier, the nanostructured lipid carrier comprising a shell comprising an emulsifier, and an inner matrix comprising a solid lipid and a liquid lipid, wherein the nanostructured lipid carrier has a diameter of 50 nm or less.

The present invention relates to antigen binding sites, compositions and uses thereof in the treatment of conditions associated with pathogenic proteins. In one example the condition is Alzheimer's disease.

Half of the cancers typically occur due to ineffective capability in their p53 proteins. The invention supplies the cells of the human body or patient with mRNA which will generate effective wild-type p53 proteins, so that this said protein can conduct proper surveillance inside the body's cells and act to destroy cells which have become or are about to become cancerous. The invention also includes introduction of interfering RNA to degrade mutated p53, allowing wild-type p53 proteins to form functional oligomers for cellular surveillance.

An industrially scalable microcapsule, fiber or film forming process and formulations suitable for use in conventional spray drying systems are provided. The one-step spray drying process utilizes formulations of a first ionic polymer, a second ionic polymer with an isoelectric point (pI.sub.2) or acid dissociation constant (pKa.sub.2) that is greater than the isoelectric point (pI.sub.1) or acid dissociation constant (pKa.sub.1) of the first ionic polymer and a volatile base or volatile acid. Volatilization of the volatile base or acid of the spray formulation changes the pH of the solution and changes the charge of the second ionic polymer initiating electrostatic interactions with the first ionic polymer through complex coacervation. Microcapsules formed by the complex coacervation process can stabilize bioactive components as well as control the release of the bioactive components for a variety of applications.

The present invention discloses a microcapsule powder stable in gastric acid, a method for preparing the same and use thereof. The microcapsule powder comprises a core material and a capsule material coated outside the core material, wherein the capsule material has a melting point of greater than 42° C., and the capsule material does not decompose or dissolve under the action of protease and gastric acid, but decomposes under the action of intestinal digestive enzymes. The core material is coated with the capsule material in the microcapsule powder, thus achieving high-efficiency coating of the core material by a single component. The microcapsule powder achieves conventional intragastric stability as well as favorable stability in an open environment at room temperature, thus solving the problem that the conventional embedding solution may only achieve intragastric stability, but the stability in an open environment at room temperature is low.

The present technology generally relates to an encapsulation system for delivery of an active agent, the encapsulation system comprising a matrix of microcapsules, wherein a first portion of microcapsules in the matrix of microcapsules has an average diameter of from about 0.1 microns to about 10 microns; a second portion of the microcapsules has an average diameter of from about 10 microns to about 100 microns; and a third portion of the microcapsules has an average diameter of from about 100 microns to about 500 microns; and wherein the active agent is encapsulated in the microcapsules.

The present invention relates to a new formulation of specific nutritional ingredients (nutraceuticals) and/or pharmaceutical compounds.