An inserter for an intrauterine system can include a handle having an opening, a slider arranged in the opening, a plunger attached to the handle, an insertion tube attached to the slider and arranged around the plunger, and a lock adapted to reversibly lock at least one removal string of the intrauterine system. The lock can include a main part with an opening, the main part being rotatably mounted on a shaft or axle, an extension of the main part, and a counterpart. The removal string passes through the opening of the main part and is immobilized between the main part and the counterpart when the lock is in a locking position. The slider is configured to press against the extension of the main part and turn the main part around the shaft or axle to release the removal string as the slider is moved backwards.

Disclosed are an inserter and an inserter kit for an intrauterine system. The inserter comprises an insertion tube having a first end and an opposite second end, wherein the first end is operable to removably receive the intrauterine system and a handle having a first end portion and an opposite second end portion, the first end portion of the handle is coupled to the second end of the insertion tube. The handle comprises a handling mechanism for controlling movement of the insertion tube with respect to the intrauterine system. The inserter also comprises an indicating mechanism operatively arranged in connection with the insertion tube and the handle, the indicating mechanism is communicably coupled to the handling mechanism and is operable to provide indicative signals corresponding to operational stages of the inserter. The indicative signals comprise at least one light signal and the indicating mechanism comprises a power source.

The present invention relates to an inserter for an intrauterine system comprising a handle (3), and an insertion tube (6) having a first end and a second end, and being arranged in connection with the handle. The inserter is characterized in that the first end of the insertion tube (6) comprises at least one frame slot for receiving a frame of the intrauterine system. The invention also relates to a kit comprising an inserter according to the present invention and an intrauterine system, wherein the intrauterine system (1) comprises a therapeutic component (1b) and a continuous, closed frame (1a), the therapeutic component (1b) being connected to the frame (1a) at least one point, and therapeutic component (1b) of the intrauterine system (1) is at least mainly arranged inside the first end of the insertion tube (6) and the frame (1a) of the intrauterine system (1) is at least mainly arranged outside the first end of the insertion tube (6).

A flexible implantable contraceptive disc device can be inserted inside the female body. The circular device can be bent and inserted into a laparoscopy tube, which allows it to be delivered to the appropriate location inside a female subject. The disc has three layers, a central core silicon reservoir containing the active ingredient, such as a contraceptive, which is sandwiched and encased by upper and lower porous silicon casings. The casings are porous to the contraceptive, allowing controlled release over a prolonged period of time. The lower casing has a series of micro-hooks around the circumference, allowing the disc device to be attached to a desired tissue by rotating the disc such that the hooks engage with the tissue. Such a device is easier to insert, and to remove, than the rod-like rigid plastic T-shape IUDs which are considerably larger and more expensive to manufacture.

The present disclosure is related to kits for using an intrauterine system (insertion device) including an intrauterine device (IUD), an insertion device or applicator for inserting the IUD into the cervix of a female patient.

A method for promoting contraception by placing a contraceptive device within a uterus without blocking fallopian tubes may involve advancing a distal end of a delivery device through a cervix, advancing the contraceptive device comprising an elongate shape memory member out of the distal end of the delivery device and into the uterus, and limiting inferior migration of the contraceptive device within the uterus. Inferior migration may be limited by allowing the contraceptive device to assume a shape, when subjected to pressure that tends to cause a downward migration of the device within the uterus, in which an expandable middle portion of the device is expanded to contact the inner wall of the uterus and thus limit the downward migration of the device.

An intrauterine contraceptive device may include a frame made completely or partially of a first metal having a first galvanic potential and at least one metallic member coupled with the frame that is made of a second metal having a second galvanic potential different from the first galvanic potential. In some embodiments, the first galvanic potential may be more anodic than the second galvanic potential. In alternative embodiments, the first galvanic potential may be more cathodic than the second galvanic potential. In one embodiment, the first metal is Nitinol, and the second metal is copper. In some embodiments, the first and second galvanic potentials may be configured to achieve, at least approximately, a desired copper ion elution rate for the intrauterine device.

The invention relates to a hysteroscopic technique and specific instrument, applicator or device inserter, to insert a frameless, anchored device for intrauterine and intratubal delivery of bioactive substances for long-acting contraception and gynecological treatment. This is realized by the invention of a specially designed inserter allowing the passage through the narrow working channel of a specially designed hysteroscope for the precise insertion of an anchoring means, a non-biodegradable or biodegradable anchoring knot, or a hook, under direct vision in the fundal wall of the uterus, and to which a biological active component is attached which consists of a copper, copper-silver or another metallic ion-releasing agent, or a drug-eluting system for the release of a hormone or hormone-antagonist or other substance, active in the uterus as well as in the oviducts, and which can be hand-fixed to the hysteroscope by means of a thumbpiece fixed to the inserter tube to allow safe and controlled insertion.

A method for promoting contraception by placing a contraceptive device within a uterus without blocking fallopian tubes may involve advancing a distal end of a delivery device through a cervix, advancing the contraceptive device comprising an elongate shape memory member out of the distal end of the delivery device and into the uterus, and limiting inferior migration of the contraceptive device within the uterus. Inferior migration may be limited by allowing the contraceptive device to assume a shape, when subjected to pressure that tends to cause a downward migration of the device within the uterus, in which an expandable middle portion of the device is expanded to contact the inner wall of the uterus and thus limit the downward migration of the device.

A method for promoting contraception by placing a contraceptive device within a uterus without blocking fallopian tubes may involve advancing a distal end of a delivery device through a cervix, advancing the contraceptive device comprising an elongate shape memory member out of the distal end of the delivery device and into the uterus, and limiting inferior migration of the contraceptive device within the uterus. Inferior migration may be limited by allowing the contraceptive device to assume a shape, when subjected to pressure that tends to cause a downward migration of the device within the uterus, in which an expandable middle portion of the device is expanded to contact the inner wall of the uterus and thus limit the downward migration of the device.