Abstract: Disclosed herein are diketopiperazine microparticles having a specific surface area of less than about 67 m2/g. The diketopiperazine microparticle can be fumaryl diketopiperazine and can comprise a drug such as insulin.

Abstract: Inhalable compositions for treating pulmonary hypertension comprising treprostinil, derivative thereof or analogs thereof and a method for treating pulmonary arterial hypertension and/or idiopathic pulmonary fibrosis are disclosed herein. Methods of manufacturing pharmaceutical compositions are also disclosed. Compositions are based on diketopiperazine powders for pulmonary inhalation.

Abstract: Disclosed herein are diketopiperazine microparticles having a specific surface area of less than about 67 m2/g. The diketopiperazine microparticle can be fumaryl diketopiperazine and can comprise a drug such as insulin.

Abstract: Disclosed herein are DKP microcrystals made by an improved method where they do not irreversibly self-assemble into microparticles. The microcrystals can be dispersed by atomization and re-formed by spray drying into particles having spherical shell morphology. Active agents and excipients can be incorporated into the particles by spray drying a solution containing the components to be incorporated into microcrystalline diketopiperazine particles. In particular, the microcrystalline particle compositions are suitable for pulmonary drug delivery of one or more peptides, proteins, nucleic acids and/or small organic molecules.

Abstract: Disclosed herein are DKP microcrystals made by an improved method where they do not irreversibly self-assemble into microparticles. The microcrystals can be dispersed by atomization and re-formed by spray drying into particles having spherical shell morphology. Active agents and excipients can be incorporated into the particles by spray drying a solution containing the components to be incorporated into microcrystalline diketopiperazine particles. In particular, the microcrystalline particle compositions are suitable for pulmonary drug delivery of one or more peptides, proteins, nucleic acids and/or small organic molecules.

Abstract: Disclosed herein are heat-stable dry powders which include peptides or protein such as oxytocin for use as a pharmaceutical composition. The composition is highly stable at increased temperatures and relatively high humid environments, and are intended for storage at room temperature with an improved shelf-life. In particular, the dry powders are intended for inhalation, however, other routes of administration can be used when reconstituted in solution.

Abstract: Methods are provided for coating crystalline microparticles with an active agent by altering the surface properties of the microparticles in order to facilitate favorable association on the microparticle by the active agent. Types of surface properties that are altered by the disclosed methods include electrostatic properties, hydrophobic properties, and hydrogen bonding properties.

Abstract: Disclosed herein are heat-stable dry powders which include peptides or protein such as oxytocin for use as a pharmaceutical composition. The composition is highly stable at increased temperatures and relatively high humid environments, and are intended for storage at room temperature with an improved shelf-life. In particular, the dry powders are intended for inhalation, however, other routes of administration can be used when reconstituted in solution.

Abstract: Disclosed herein are diketopiperazine microparticles having a specific surface area of less than about 67 m2/g. The diketopiperazine microparticle can be fumaryl diketopiperazine and can comprise a drug such as insulin.

Abstract: Disclosed herein are DKP microcrystals made by an improved method where they do not irreversibly self-assemble into microparticles. The microcrystals can be dispersed by atomization and re-formed by spray drying into particles having spherical shell morphology. Active agents and excipients can be incorporated into the particles by spray drying a solution containing the components to be incorporated into microcrystalline diketopiperazine particles. In particular, the microcrystalline particle compositions are suitable for pulmonary drug delivery of one or more peptides, proteins, nucleic acids and/or small organic molecules.

Abstract: Disclosed herein are diketopiperazine microparticles having a specific surface area of less than about 67 m2/g. The diketopiperazine microparticle can be fumaryl diketopiperazine and can comprise a drug such as insulin.

Abstract: Disclosed herein are DKP microcrystals made by an improved method where they do not irreversibly self-assemble into microparticles. The microcrystals can be dispersed by atomization and re-formed by spray drying into particles having spherical shell morphology. Active agents and excipients can be incorporated into the particles by spray drying a solution containing the components to be incorporated into microcrystalline diketopiperazine particles. In particular, the microcrystalline particle compositions are suitable for pulmonary drug delivery of one or more peptides, proteins, nucleic acids and/or small organic molecules.

Abstract: Disclosed herein are heat-stable dry powders which include peptides or protein such as oxytocin for use as a pharmaceutical composition. The composition is highly stable at increased temperatures and relatively high humid environments, and are intended for storage at room temperature with an improved shelf-life. In particular, the dry powders are intended for inhalation, however, other routes of administration can be used when reconstituted in solution.

Abstract: Disclosed herein are DKP microcrystals made by an improved method where they do not irreversibly self-assemble into microparticles. The microcrystals can be dispersed by atomization and re-formed by spray drying into particles having spherical shell morphology. Active agents and excipients can be incorporated into the particles by spray drying a solution containing the components to be incorporated into microcrystalline diketopiperazine particles. In particular, the microcrystalline particle compositions are suitable for pulmonary drug delivery of one or more peptides, proteins, nucleic acids and/or small organic molecules.

Abstract: A prostaglandin composition and method for treating pulmonary arterial hypertension is disclose. The composition is based on diketopiperazine for pulmonary inhalation.

Abstract: Methods are provided for coating crystalline microparticles with an active agent by altering the surface properties of the microparticles in order to facilitate favorable association on the microparticle by the active agent. Types of surface properties that are altered by the disclosed methods include electrostatic properties, hydrophobic properties, and hydrogen bonding properties.

Abstract: Disclosed herein are DKP microcrystals made by an improved method where they do not irreversibly self-assemble into microparticles. The microcrystals can be dispersed by atomization and re-formed by spray drying into particles having spherical shell morphology. Active agents and excipients can be incorporated into the particles by spray drying a solution containing the components to be incorporated into microcrystalline diketopiperazine particles. In particular, the microcrystalline particle compositions are suitable for pulmonary drug delivery of one or more peptides, proteins, nucleic acids and/or small organic molecules.

Abstract: Disclosed herein are heat-stable dry powders which include peptides or protein such as oxytocin for use as a pharmaceutical composition. The composition is highly stable at increased temperatures and relatively high humid environments, and are intended for storage at room temperature with an improved shelf-life. In particular, the dry powders are intended for inhalation, however, other routes of administration can be used when reconstituted in solution.

Abstract: Methods are provided for coating crystalline microparticles with an active agent by altering the surface properties of the microparticles in order to facilitate favorable association on the microparticle by the active agent. Types of surface properties that are altered by the disclosed methods include electrostatic properties, hydrophobic properties, and hydrogen bonding properties.

Abstract: Dry powder inhalable compositions and methods for using and making the compositions are disclosed for vaccinating a subject against disease. In particular, the compositions are inhalable dry powders useful for preventing and/or treating diseases caused by microorganisms, for example, microorganisms such as viral or bacterial pathogens, including, the influenza virus. In particular, the method comprises the administration of an inhalable composition comprising virus-like particles and/or specific protein/s or antigenic peptides, peptide fragments and/or derivatives thereof using a dry powder drug delivery system.