Embodiments disclosed herein include devices for time release of measured quantities of an active ingredient and storage of animal management information. One embodiment disclosed herein releases an active ingredient, and then, at optionally varied intervals, releases additional doses into the same environment. The active ingredients are compartmentalized and, upon receiving an appropriate signal, open to dispense the active ingredient into the animal. Accordingly, in one embodiment, a device includes an engagement member to move a cap to dispense the active ingredient, and in another embodiment, includes a pellet that is attached to the cap to move the cap and dispense the active ingredient.

The present invention relates to an improved mask apparatus for veterinary applications. The mask may be used for dogs in particular. Most prior art masks are conical. This leads to problems in comfort and effectiveness. The present mask has a cross sectional profile and an opening shaped similar to an animal's muzzle. It has a flat top and a flat bottom, slightly wider than the top, and rounded sides. It also extends backwardly from the top of the opening to the bottom of the opening, so as to comfortably cover the commissure of the animal's lips.

A stand-alone chamber or multi-chamber inhalation system has at least two alternative vaporized test liquid supply systems for passive or self-administered delivery of vaporized test fluid and air to one or more test chambers, which can be passive or restraint chambers, based on operator selection of delivery on and off times in a passive mode or actuation of an actuator in the chamber by a test animal in a self-administered mode. In one case, a multiple inhalation chamber system has two or more separate test fluid delivery systems and provides options for selective passive uniform drug delivery to multiple chambers or selective delivery of two or more different drugs to different groups of chambers from different delivery systems so that two different drugs or different concentrations of delivered drugs can be tested simultaneously.

A scalpel body including an attachment for a removable blade, a spray head adapted to operatively deliver a surgical liquid as a spray proximal to a removable blade, and an external connection for allowing the spray head to be connected to an external supply of surgical liquid. A release mechanism allows for selective release of the spray, proximal to the blade.

In some aspects, provided herein are antimicrobial compositions comprising partially esterified polygalacturonic acid and certain fatty acids (e.g., caprylic acid). In some embodiments, the antimicrobial composition may be administered (e.g., topically or orally) to a subject, such as a human patient to treat an infection (e.g., an infection comprising a biofilm). In some aspects, improved catheters are provided.

A system and method for automatically delivering a substance to an animal or fish including a positioning system that positions each animal singularly and a sensor that detects the location of a predetermined targeted area on the animal. The system further includes a delivery device for delivering a substance to the targeted area. The position of the delivery device may be adjustable. The delivery device is in communication with the sensor. The delivery device adjusts its position in response to the data received from the sensor and delivers a substance to the targeted area.

Tubular propulsion devices and systems and methods for using such devices and systems to restore, replace, or augment or otherwise modulate active transport of fluids through a diseased or damaged tubular organ or organ segment are described. The devices have a hollow center surrounded by a peripheral wall. The devices can be multilayer devices. The devices may be single tube devices or multi-section devices. Typically, elements for altering the structure of the device, such as via compression, expansion, twisting, and/or contraction of one or more sections of the peripheral wall, are included in the walls or are outside or inside, of the walls of the device. The devices undergo intermittent change of the contained volume (luminal volume) in a sequential manner to direct fluid flow. In use, the devices are able to serve as local mini- or regional-pumps.

A biological lighting system to provide temporally- and spatially-modulated photon flux output and spectral power distributions to plants on a circadian and circannual basis, or circadian and life cycle basis, to maximize effective and efficient growth in a horticultural setting. The photon flux or irradiance output and the spectral power distribution are modulated to match circadian and circannual rhythms, with individual or multiple luminaires controlled through one or more controllers. Different lighting spectra can be employed depending on the direction of illumination. The photon flux or irradiance output and the spectral power distribution may be set as best suited for any particular plant species, and the system is also useful for raising animals.

Disclosed is an applicator comprising or including, a dosing body including, at least one barrel; a piston moveable within the at least one barrel to stroke between a variable first position and a second position. In use, movement of the piston towards the first position can draw a first fluid into the barrel, and movement of the piston towards the second position can force the first fluid out of the barrel. There is at least one fluid inlet valve to allow the fluid to flow into the at least one barrel at least under action of the piston, and at least one fluid outlet valve to allow the first fluid to flow out of the at least one barrel at least under action of the piston. A piston actuating assembly, selectively engageable with the dosing body, is present, the piston actuator assembly having a user operable handle to drive a second actuation member which in turn can drive the piston between the first position and the second position, the connection between the second actuation member, or part thereof being a releasable one.

Disclosed is an applicator, and a handle for an applicator. The applicator has at least one barrel and a piston moveable within the at least one barrel to stroke between a variable first position and a second position. In use, movement of the piston towards the first position can draw a first fluid into the barrel, and movement of the piston towards the second position can force the first fluid out of the barrel. The barrel has at least one fluid inlet valve to allow the fluid to flow into the at least one barrel at least under action of the piston, and at least one fluid outlet valve to allow the first fluid to flow out of the at least one barrel at least under action of the piston. A handle has a piston actuator assembly, housed at least in part within a body of the handle, operable to move the piston towards the second position to dispense the first fluid from the applicator. The piston actuator has a first actuating component driven by a user operated handle to pivot and tension a first biasing component, a second actuating component held in position against a force of the first biasing component, a first trigger component that holds the second actuating component in place until a required force is reached by the first biasing component, or a second trigger component releases the first trigger component. The second actuating component is then released and driven by the force of the first biasing component to in turn drive the piston toward the second position. The movement of the first actuating component is independent of the stroke of the piston.