Provided is an applicator for the dispensing of a powder such as a pharmaceutical powder, on a target location. Also, provided are methods of applying a powder on a surface using the applicator.

The present disclosure relates to apparatus, assemblies, combinations, and methods for infusing fluids by hollow microneedles.

This invention discloses methods and composition to form biodegradable polymer implant arrays in the live tissue. Artificial cavities are created in the live tissue by using laser ablation, oscillating needle, microneedle array and other methods. The cavities are then filled with biodegradable polymer solution. The solvent in the polymer solution is dissipated in the tissue to form a biodegradable polymer implant in artificial cavities. The cavities and implants formed are arranged to form of an array of implants. The biodegradable polymer in the cavity can also be loaded with drug to form biodegradable drug delivery array in the live tissue.

A device for delivery of particles into biological tissue includes at least one conduit and a propellant source fluidically coupled to the conduit and configured to deliver a propellant into the conduit. A particle source is configured to release elongated particles into the conduit, the elongated particles having a width, w, a length, l>w. The propellant source and the conduit are configured to propel the elongated particles in a collimated particle stream toward the biological tissue. An alignment mechanism is configured to align a longitudinal axis of the elongated particles to be substantially parallel to a direction of the particle stream in an alignment region of the conduit. The aligned elongated particles are ejected from the conduit and impact the biological tissue.

This invention discloses methods and composition to form biodegradable polymer implant arrays in the live tissue. Artificial cavities are created in the live tissue by using laser ablation, oscillating needle, microneedle array and other methods. The cavities are then filled with biodegradable polymer solution. The solvent in the polymer solution is dissipated in the tissue to form a biodegradable polymer implant in artificial cavities. The cavities and implants formed are arranged to form of an array of implants. The biodegradable polymer in the cavity can also be loaded with drug to form biodegradable drug delivery array in the live tissue.

Disclosed is a fluid injection device for a needle free syringe is provided that is spring-loadable and comprises a trigger positioned within the housing and actuated by depression of a push-button disposed opposite the dispensing end at an external actuation surface disposed transverse to the injection axis. The trigger has a trigger latch configured to release a trigger catch as heaving part of the spring-loaded piston of the device. The trigger catch is configured to urge the trigger latch in a direction transverse to the injection axis when the piston moves from the unloaded position to the loaded position. The compression spring is retained around the piston and retained within the housing by a piston head. The device further comprises a syringe adapter and a safety cap which prevents accidental triggering.

A method of forming an implant in tissue can include: providing a polymer solution having an effective amount of polymer dissolved in a biocompatible, water-soluble organic solvent; injecting a plurality of droplets of the polymer solution in the tissue; fusing the injected droplets together; dissipating the biocompatible, water-soluble organic solvent in the tissue; and precipitating the polymer from the injected polymer solution so as to form the implant.

A method of forming an implant in a tissue can include: providing an injectable liquid composition comprising one or more precursors of a crosslinkable composition; injecting the injectable composition into the tissue at the rate of about 10-12000 injections per minute and/or at an amount of 1.0E-02 ml to 1.0E-16 ml per injection; and crosslinking the one or more precursors of the crosslinkable composition so as to form a crosslinked composition.

The invention relates to a needleless injection device or a device for the needleless injection of a substance into a tissue or body, with which device a substance, in particular an active substance, can be injected by means of high pressure. A device according to the invention comprises a chamber (11) containing a pyrotechnic material, wherein the chamber has a fixed double membrane (13, 15) at a discharge opening, wherein the skin-side membrane (15) of the double membrane (13, 15) is provided with a substance application (25). A successful injection lies in the fact that sufficient substance is introduced into the body through the tissue barrier or body barrier, in particular such as the skin.

This invention discloses methods and composition to form biodegradable polymer implant arrays in the live tissue. Artificial cavities are created in the live tissue by using laser ablation, oscillating needle, microneedle array and other methods. The cavities are then filled with biodegradable polymer solution. The solvent in the polymer solution is dissipated in the tissue to form a biodegradable polymer implant in artificial cavities. The cavities and implants formed are arranged to form of an array of implants. The biodegradable polymer in the cavity can also be loaded with drug to form biodegradable drug delivery array in the live tissue.