The invention relates to a method for increasing the lifespan of animal sperm comprising contacting said sperm with an inhibitor of Slo3 potassium channel.

The invention also relates to a use of an inhibitor of Slo3 potassium channel, for increasing the lifespan of animal sperm or motility of capacitated animal sperm, comprising contacting an inhibitor of Slo3 potassium channel with said sperm. Moreover, the invention relates to an artificial insemination instrument for use in artificial insemination of an animal, comprising animal sperm in contact with an inhibitor of Slo3 potassium channel.

The invention also relates to a method for artificially inseminating an animal using said artificial insemination instrument.

Eventually, the invention relates to a method for increasing the fertility of an animal, comprising contacting sperm of said animal with an inhibitor of Slo3 potassium channel; then artificially inseminating said animal with said sperm.

Disclosed are fluid controllers configured for removable attachment to a fluid introduction device, wherein the fluid controller comprises a body configured to extend at least partially over the fluid introduction device; an orifice arranged relative to the body to facilitate transfer of a fluid from the fluid introduction device through the fluid controller; a fluid retention structure extending outwardly from at least a portion of the body, wherein the fluid retention structure is configured to engage with a wall of a vaginal canal and inhibit a flow of the fluid from the vaginal canal; and at least one connector configured to releasably attach the fluid controller to the fluid introduction device.

Everting balloon systems and methods for using the same are disclosed herein. The systems can be configured to access and dilate body lumen and cavities. For example, the systems can be used to dilate the cervix and access the uterine cavity. The systems can also be used to occlude the cervix. The systems can also be used to occlude the urethra.

Disclosed are fluid controllers configured for removable attachment to a fluid introduction device, wherein the fluid controller comprises a body configured to extend at least partially over the fluid introduction device; an orifice arranged relative to the body to facilitate transfer of a fluid from the fluid introduction device through the fluid controller; a fluid retention structure extending outwardly from at least a portion of the body, wherein the fluid retention structure is configured to engage with a wall of a vaginal canal and inhibit a flow of the fluid from the vaginal canal; and at least one connector configured to releasably attach the fluid controller to the fluid introduction device.

An apparatus may include a plunger and a substantially cylindrical body. The substantially cylindrical body may include an end portion having rounded edges and may define a cavity sized to receive the plunger. The substantially cylindrical body may include at least one opening extending from the cavity to an external surface. The at least one opening may a substantially irregular shape. In some embodiments, the at least one opening may extend from the cavity through a nub to the external surface. The nub may have a rounded shape. In some embodiments, the substantially irregular shape may include one of a slit, an oval shape, an elliptical shape, an hourglass shape, a rectangular shape, and a diamond shape. In some embodiments, the opening may be part of a non-cylindrical fluid passage.

The present invention provides apparatus and methods for artificial insemination or in-vitro fertilization for use with livestock that maintains the sterility of the semen or embryo(s) until deposited at an optimum location in the reproductive tract of the animal without the maneuvering or tissue injury problems associated with existing devices. The invention includes a uniquely shaped opening that is provided at the tip of a sheath that is used with an artificial insemination gun. A plug or diaphragm having a rounded (convex) exterior surface completely covers the opening at the tip of the sheath, and seals it closed in a smooth, flush engagement to prevent contaminants from collecting upon the tip, or entering into the sheath during the trip through the reproductive tract of the animal. Once the sheath is properly placed in the reproductive tract, application of fluid pressure to the inside the sheath causes the plug to move or deform without becoming detached from the sheath, thereby allowing contents of the sheath to exit. The unique tip with its opening and corresponding plug may be provided in a separate cap that is installed at the end of an insemination sheath.

An apparatus for collecting seminal fluids, and specifically an artificial cervix for collecting seminal fluids for artificial insemination, is provided herein. The cervix comprises an elongated cylindrical member having either a closed end for receiving and storing ejaculated semen or an open end for allowing ejaculate to pass through, and an open end having a rim of a diameter sufficient to receive the penis of the animal. A handle can be detachably connected to the cylindrical member that allows users to hold the cervix in the correct position during collection of the animal's seminal fluids.

Microfluidic systems are configured to process liquid samples that include cumulus-oocyte complexes (COCs), such as raw follicular fluid, in an automated and continuous manner to produce oocytes separate or “denuded” from surrounding cumulus cells. The systems include a substrate and a channel that can have two or more sub-channels. Each channel includes an inlet, an outlet, and one or more stages arranged in series. Each of the stages includes one or more expansion units and one or more constriction units. At least one stage includes constriction units having jagged internal surfaces, e.g., teeth, that help remove the cumulus cells from the COCs.

The straw comprises a tube (11) and a stopper (12) fixed relative to the tube (11) and comprising a male connector tip (29) configured in order that a syringe needle (44) having a female connector tip (45) with a frusto-conical internal surface in accordance with a standard can be connected to said stopper (12) by engagement of the female connector tip (45) of the needle on the male connector tip (29) of the stopper (12). The injection device comprises such a straw (10) and a syringe needle (44). The method of emptying the straw comprises the step of pushing the dose of liquid-based substance (21) packaged in the straw (10) towards the stopper (12).

A device for artificial insemination, gynaecological examination of the vagina and the cervix, intra-uterine treatments and uterine sample collection in livestock. The device includes: a guiding sleeve having a proximal end for being positioned in the reproductive system of the animal and a distal end for being handled by the user; a gynaecological instrument, such as an insemination gun, an insemination or treatment catheter, or a sample-collection swab, slidingly housed in the guiding sleeve, the instrument being capable of being operated by the user at the rear end thereof, located on the side of the distal end of the guiding sleeve, in order for the front end thereof to lead through an opening located at the proximal end of the guiding sleeve so as to allow the insemination, treatment or sample collection. The guiding sleeve has a blocking element for blocking the sliding of the instrument inside the guiding sleeve.