Abstract: There is disclosed systems and methods for non-invasive delivery of an agent to biological tissues. Delivery of the agent to the tissues can be by one or more modalities. In some embodiments the systems and methods use agent carrier body including a tissue contacting surface for non-invasively engaging tissues under treatment. The tissue contacting surface can be at least partly defined by a plurality of protrusions that are in fluid communication with one or more reservoirs forming part of the agent carrier body. The protrusions may extend outward from an inside of a void and terminate at said tissue contacting surface.

Abstract: There is disclosed systems and methods for non-invasive delivery of an agent to biological tissues. Delivery of the agent to the tissues can be by one or more modalities. In some embodiments the systems and methods use agent carrier body including a tissue contacting surface for non-invasively engaging tissues under treatment. The tissue contacting surface can be at least partly defined by a plurality of protrusions that are in fluid communication with one or more reservoirs forming part of the agent carrier body. The protrusions may extend outward from an inside of a void and terminate at said tissue contacting surface.

Abstract: There is disclosed systems and methods for non-invasive delivery of an agent to biological tissues. Delivery of the agent to the tissues can be by one or more modalities. In some embodiments the systems and methods use agent carrier body including a tissue contacting surface for non-invasively engaging tissues under treatment. The tissue contacting surface can be at least partly defined by a plurality of protrusions that are in fluid communication with one or more reservoirs forming part of the agent carrier body. The protrusions may extend outward from an inside of a void and terminate at said tissue contacting surface.

Abstract: There is disclosed systems and methods for non-invasive delivery of an agent to biological tissues. Delivery of the agent to the tissues can be by one or more modalities. In some embodiments the systems and methods use agent carrier body including a tissue contacting surface for non-invasively engaging tissues under treatment. The tissue contacting surface can be at least partly defined by a plurality of protrusions that are in fluid communication with one or more reservoirs forming part of the agent carrier body. The protrusions may extend outward from an inside of a void and terminate at said tissue contacting surface.

Abstract: The present invention relates to agent delivery systems for application to biological tissues. More specifically, the present invention relates to devices and methods for the non-invasive delivery of agents (e.g. pharmaceuticals and the like) into and across biological tissues using ultrasound and nanoporous carriers.

Abstract: There is disclosed systems and methods for non-invasive delivery of an agent to biological tissues. Delivery of the agent to the tissues can be by one or more modalities. In some embodiments the systems and methods use agent carrier body including a tissue contacting surface for non-invasively engaging tissues under treatment. The tissue contacting surface can be at least partly defined by a plurality of protrusions that are in fluid communication with one or more reservoirs forming part of the agent carrier body. The protrusions may extend outward from an inside of a void and terminate at said tissue contacting surface.

Abstract: There is disclosed systems and methods for non-invasive delivery of an agent to biological tissues. Delivery of the agent to the tissues can be by one or more modalities. In some embodiments the systems and methods use agent carrier body including a tissue contacting surface for non-invasively engaging tissues under treatment. The tissue contacting surface can be at least partly defined by a plurality of protrusions that are in fluid communication with one or more reservoirs forming part of the agent carrier body. The protrusions may extend outward from an inside of a void and terminate at said tissue contacting surface.

Abstract: The present invention relates to a device, comprising: an agent carrier comprising an agent transfer surface for delivery of an agent into a tissue, wherein the agent carrier comprises or is acoustically couplable to a piezoelectric substrate; an electrode electrically couplable to the piezoelectric substrate; and a controller electrically couplable to the electrode and configured to apply an electrical signal to the electrode to propagate an acoustic wave on and/or in the piezoelectric substrate which is capable of delivering the agent from the device into the tissue. Methods of using the device for non-invasive delivery of agents into target tissues are also disclosed.

Abstract: A delivery system, including a polymeric material for storing molecules and/or particles wherein the molecules and/or particles are substantially bound to said polymeric material through: the polymeric material comprising an electrical charge and the molecules and/or particles comprising an electrical charge opposite to the electrical charge of the polymeric material; and/or the molecules and/or particles being physically trapped within pores of the polymeric material; and an ultrasonic transducer configured to apply an ultrasonic signal to the polymeric material to release the molecules and/or particles and to transport the released molecules and/or particles through the polymeric material to a surface for delivery to an entity.

Abstract: A delivery system, including: a material for storing molecules and/or nanoparticles by substantially binding said molecules and/or nanoparticles to said material; a means for applying an electric field to said material to release said molecules and/or nanoparticles; and a means for applying an ultrasonic signal to said material to transport said molecules and/or nanoparticles through said material to a surface for delivery to an entity.

Abstract: There is disclosed systems and methods for non-invasive delivery of an agent to biological tissues. Delivery of the agent to the tissues can be by one or more modalities. In some embodiments the systems and methods use agent carrier body including a tissue contacting surface for non-invasively engaging tissues under treatment. The tissue contacting surface can be at least partly defined by a plurality of protrusions that are in fluid communication with one or more reservoirs forming part of the agent carrier body. The protrusions may extend outward from an inside of a void and terminate at said tissue contacting surface.

Abstract: There is disclosed systems and methods for non-invasive delivery of an agent to biological tissues. Delivery of the agent to the tissues can be by one or more modalities. In some embodiments the systems and methods use agent carrier body including a tissue contacting surface for non-invasively engaging tissues under treatment. The tissue contacting surface can be at least partly defined by a plurality of protrusions that are in fluid communication with one or more reservoirs forming part of the agent carrier body. The protrusions may extend outward from an inside of a void and terminate at said tissue contacting surface.

Abstract: An agent carrier delivers an agent to biological tissues by one or more modalities. The modality of delivery may be one or more transportation stimulus that causes the agent to be transported through the agent carrier. The transportation stimulus also enhances or permits penetration of the agent into the tissue. The agent carrier has an agent carrier body that is configured to retain the agent within the agent carrier body. The agent carrier body has a tissue-contacting surface for engaging tissues under treatment. Application of the transportation stimulus causes transportation of the agent through the agent carrier body to the tissue-contacting surface.

Abstract: A delivery system, including: a material for storing molecules and/or nanoparticles by substantially binding said molecules and/or nanoparticles to said material; a means for applying an electric field to said material to release said molecules and/or nanoparticles; and a means for applying an ultrasonic signal to said material to transport said molecules and/or nanoparticles through said material to a surface for delivery to an entity.

Abstract: A delivery system, including: a material for storing molecules and/or nanoparticles by substantially binding said molecules and/or nanoparticles to said material; means for applying an electric field to said material to release said molecules and/or nanoparticles; and means for applying an ultrasonic signal to said material to transport said molecules and/or nanoparticles through said material to a surface for delivery to an entity.