There is provided a composition comprising a plurality of particles of a weight-, number-, or volume-, based mean diameter that is between amount 10 nm and about 700 .Math.m, which particles are made up of: (a) a solid core, which solid core preferably comprises a biologically active agent; (b) one or more discrete layers surrounding said core, said one or more layer s each comprising at least one separate coating material; and (c) a final overcoating layer of a coating material, which overcoating layer surrounds, encloses and/or encapsulates said core and said previously-applied layers of coating material, and which final layer is of a thickness that is less than said previously-applied layers. Said layers (b) and (c) are preferably applied by way of a gas phase coating technique, such as atomic layer deposition. When the cores comprise biologically active agent, the compositions may provide for the delayed or sustained release of said active agent without a burst effect.

The present invention relates to a formulation or composition for the treatment, repair, formation or regeneration of bone tissue in a subject, comprising Histatin-1 or its derivatives. The present invention also relates to a biomaterial comprising Histatin-1 or its derivatives in a biocompatible material, and a method for the treatment, repair, formation or regeneration of bone tissues in a subject comprising administering to the subject a therapeutically effective amount of Histatin-1 or its derivatives.

A bioscaffold comprising a graphene matrix for use in cellular therapy is disclosed. In particular, a bioscaffold having a coating of dexamethasone on a three-dimensional graphene matrix is provided, wherein the bioscaffold elutes dexamethasone to reduce inflammatory responses following implantation of the bioscaffold in a subject. Having the dexamethasone released locally in the vicinity of the bioscaffold avoids the systemic side effects from conventional intravenous delivery while allowing the dexamethasone to modulate the inflammatory milieu within the transplantation microenvironment.

Provided are an injectable and implantable drug delivery composition and a method for using such composition to release active ingredients and/or pharmaceutical agents to a site of action. The composition includes a gellan-gum crosslinked with L-cysteine and at least one pharmaceutical active agent in a biocompatible solvent.

Disclosed herein are cohesive soft tissue fillers, for example, dermal and subdermal fillers, based on hyaluronic acids and pharmaceutically acceptable salts thereof. In one aspect, hyaluronic acid-based compositions described herein include a therapeutically effective amount of at least one anesthetic agent, for example, lidocaine. The present hyaluronic acid-based compositions including lidocaine have an enhanced stability and cohesivity, relative to conventional compositions including lidocaine, for example when subjected to sterilization techniques or when stored for long periods of time. Methods and processes of preparing such hyaluronic acid-based compositions are also provided.

Disclosed herein are novel pharmaceutical formulations of aprepitant suitable for parenteral administration including intravenous administration. Also included are formulations including both aprepitant and dexamethasone sodium phosphate. The pharmaceutical formulations are stable oil-in-water emulsions for non-oral treatment of emesis and are particularly useful for treatment of subjects undergoing highly emetogenic cancer chemotherapy.

The present invention relates to pre-formulations comprising low viscosity, non-liquid crystalline, mixtures of: a) at least one ester of a sugar or sugar derivative; b) at least one phospholipid; c) at least one biocompatible, oxygen containing, low viscosity organic solvent; wherein the pre-formulation forms, or is capable of forming, at least one liquid crystalline phase structure upon contact with an aqueous fluid; with the proviso that the pre-formulation does not further comprise a liquid crystal hardener. The preformulations are suitable for generating parenteral, non-parenteral and topical depot compositions for sustained release of active agents. The invention additionally relates to a method of delivery of an active agent comprising administration of a preformulation of the invention, a depot composition formed by exposing pre-formulations of the invention to an aqueous fluid, a method of treatment comprising administration of a preformulation of the invention and the use of a preformulation of the invention.

A method of forming an implant in the tissue can include: providing an injectable composition having a neat liquid carrier, wherein the neat liquid carrier is substantially liquid at room temperature and/or about body temperature; and injecting the neat liquid solution into the tissue at the rate of 10-12000 injections per minute and/or at an amount of 1.0E-02 ml to 1.0E-16 ml per needle per injection. The neat liquid carrier can be polymeric or non-polymeric. The neat liquid carrier can be biodegradable. The neat liquid carrier can include a viscosity-modifying agent. The injecting can form an implant with area greater than or equal to 5 mm.sup.2. The neat liquid carrier can be injected at a depth of 10 microns to 5 mm. The neat liquid solution can include a drug or other agent.

Compositions comprised of a delivery vehicle or delivery system and an active agent dispersed within the delivery vehicle or system, wherein the delivery vehicle or system contains a polyorthoester polymer and a polar aprotic solvent. Also disclosed are low viscosity delivery systems for administration of active agents. The low viscosity delivery systems have a polyorthoester polymer, a polar aprotic solvent and a solvent containing a triglyceride viscosity reducing agent. Compositions described include an amide- or anilide-type local anesthetic of the “caine” classification, and a non-steroidal anti-inflammatory drug (NSAID), along with related methods, e.g., for treatment of post-operative pain or for prophylactic treatment of pain. The compositions are suitable for delivery via, e.g., direct application and instillation, intradermal injection, subcutaneous injection, and nerve block (perineural).

A barrier layer and corresponding method of making provide anti-inflammatory, non-inflammatory, and anti-adhesion functionality for a medical device implantable in a patient. The barrier layer can be combined with a medical device structure to provide anti-adhesion characteristics, in addition to improved healing, non-inflammatory, and anti-inflammatory response. The barrier layer is generally formed of a naturally occurring oil, or an oil composition formed in part of a naturally occurring oil, that is at least partially cured forming a cross-linked gel. In addition, the oil composition can include a therapeutic agent component, such as a drug or other bioactive agent.