A pet-care kit comprising a container, a quick-reference card, a number of alcohol wipes, a thermometer, a supply of hydrogen peroxide, a supply of over-the-counter medicines, an oral syringe, a pill splitter, a set of latex-free gloves, and a supply of lubricant. The container includes means for holding a photograph of a user's pet for associating the container with the user's pet and forms a chamber for retaining the other components of the pet-care kit. The quick-reference card includes information for responding to emergencies related to pet's health.

A pet-care kit comprising a container, a quick-reference card, a number of alcohol wipes, a thermometer, a supply of hydrogen peroxide, a supply of over-the-counter medicines, an oral syringe, a pill splitter, a set of latex-free gloves, and a supply of lubricant. The container includes means for holding a photograph of a user's pet for associating the container with the user's pet and forms a chamber for retaining the other components of the pet-care kit. The quick-reference card includes information for responding to emergencies related to pet's health.

A remote delivery device is disclosed which has a tubular body and a tubular tail piece. The tubular body is crimped onto said tail piece at a desired axial position with a rearmost edge of the body abutting the protrusions at only contact segments of the rear-most edge. With the provision of spaced-apart protrusion on the tail piece, axial expansion of said tubular body caused by a crimping operation imparts less stress and axial force on the tail piece as compared to stress and force which would be imposed upon a tail piece which has a singular annular abutment extending around an entire circumference of said tail piece. This results in reducing a rate of failure of said tail piece breaking off from said body when the remote delivery device is subjected to outside stresses or forces and allows for the use of a wider range of acceptable crimp lengths.

Fish embryos may be successfully vaccinated or therapeutically treated if the therapeutic agent is injected into the yolk sac. Therapeutic agents may be directly injected or released from microspheres and enter the circulation and tissues. Injection into the yolk sac, combined with the use of carriers, allows for a continued, controlled release of therapeutic agents and processing of antigens. Fish vaccination or therapeutic treatment, selecting fish embryos post fertilization at the one-cell to eyed egg stage of development, and injecting the yolk sac with carriers associated with an antigen(s) or therapeutic agent(s), may be fully automated.

This document describes devices and methods for suturing an anastomosis. For example, this document describes transurethral probe devices that can be used to suture a vesicourethral anastomosis with one continuous stitch along a helical toroidal path.

An injector for injecting pellets includes a main body, a delivery opening which is formed on the main body and to which a hollow-bore needle can be connected and a magazine guide formed in the main body for a magazine which, for accommodating the pellets, comprises several barrels. Each barrel includes a hollow cylindrical compartment with an open front end and an open rear end. The magazine guide brings the magazine, barrel by barrel, into an injection position, in which a plunger of the injector can be introduced into the barrel via the rear end of the barrel positioned in the injection position and moved in the direction of the delivery opening in order to deliver the pellet provided in the barrel via the delivery opening. A drawer is formed in the main body for accommodating a replacement hollow-bore needle.

An injector for injecting pellets includes a main body, a delivery opening which is formed on the main body and to which a hollow-bore needle can be connected and a magazine guide formed in the main body for a magazine which, for accommodating the pellets, comprises several barrels. Each barrel includes a hollow cylindrical compartment with an open front end and an open rear end. The magazine guide brings the magazine, barrel by barrel, into an injection position, in which a plunger of the injector can be introduced into the barrel via the rear end of the barrel positioned in the injection position and moved in the direction of the delivery opening in order to deliver the pellet provided in the barrel via the delivery opening. A drawer is formed in the main body for accommodating a replacement hollow-bore needle.

Method and device to inject fluid into animals through a sterile needle, requiring control of fluid volume, flow rate of injection, accuracy of injection site, depth of penetration, disposal administration of consumable materials and quality control of the fluid and fluid administration using a portable applicator controlled by an external software controlled pump and controller system used in administering fluid medications, organic castration compounds and other fluids to be administered to live animals.

Method and device to inject fluid into animals through a sterile needle, requiring control of fluid volume, flow rate of injection, accuracy of injection site, depth of penetration, disposal administration of consumable materials and quality control of the fluid and fluid administration using a portable applicator controlled by an external software controlled pump and controller system used in administering fluid medications, organic castration compounds and other fluids to be administered to live animals.

A semi-automated veterinary medicine delivery device may sense whether and how much air may have been incorporated into a dose delivered to an animal. The device may also sense an incomplete injection in some cases, and may cause a second dose to be administered to make up for the incomplete dose. The device may compare a position sensor on a syringe in combination with a current sensor on a motor attached to the syringe to detect any abnormalities. In the case of an improper dose, the device may alert the user and administer a second dose.