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.

A kit and method for intrauterine insemination is provided. The steps of the method include self-monitoring of a menstrual cycle of a patient by said patient, making an abrasion on the endometrial lining of a uterus of the patient following menstruation by the patient, predicting timing of ovulation by using an ovulation monitoring system or inducing ovulation; preparing sperm for insemination during ovulation by the patient, guiding an intrauterine insemination catheter accompanied by a cervical shield into the patient, depositing a semen sample into the uterine cavity or cervical canal, removing the catheter from the body of the patient while using a holding tool to hold the cervical shield in place at the entrance to the uterine cavity, and leaving the cervical shield in place for a predetermined time period.

A kit and method for intrauterine insemination is provided. The steps of the method include self-monitoring of a menstrual cycle of a patient by said patient, making an abrasion on the endometrial lining of a uterus of the patient following menstruation by the patient, predicting timing of ovulation by using an ovulation monitoring system or inducing ovulation; preparing sperm for insemination during ovulation by the patient, guiding an intrauterine insemination catheter accompanied by a cervical shield into the patient, depositing a semen sample into the uterine cavity or cervical canal, removing the catheter from the body of the patient while using a holding tool to hold the cervical shield in place at the entrance to the uterine cavity, and leaving the cervical shield in place for a predetermined time period.

A kit and method for intrauterine insemination is provided. The steps of the method include self-monitoring of a menstrual cycle of a patient by said patient, making an abrasion on the endometrial lining of a uterus of the patient following menstruation by the patient, predicting timing of ovulation by using an ovulation monitoring system or inducing ovulation; preparing sperm for insemination during ovulation by the patient, guiding an intrauterine insemination catheter accompanied by a cervical shield into the patient, depositing a semen sample into the uterine cavity or cervical canal, removing the catheter from the body of the patient while using a holding tool to hold the cervical shield in place at the entrance to the uterine cavity, and leaving the cervical shield in place for a predetermined time period.

A kit and method for intrauterine insemination is provided. The steps of the method include self-monitoring of a menstrual cycle of a patient by said patient, making an abrasion on the endometrial lining of a uterus of the patient following menstruation by the patient, predicting timing of ovulation by using an ovulation monitoring system or inducing ovulation; preparing sperm for insemination during ovulation by the patient, guiding an intrauterine insemination catheter accompanied by a cervical shield into the patient, depositing a semen sample into the uterine cavity or cervical canal, removing the catheter from the body of the patient while using a holding tool to hold the cervical shield in place at the entrance to the uterine cavity, and leaving the cervical shield in place for a predetermined time period.

System and associated method for capturing, preserving, and transporting a bodily fluid, including a collection jar having a base body, a lid body, and a plunger, the plunger housing a preservative when in a first plunger position and permitting a release of the preservative into an internal cavity of the collection jar when in a second plunger position, where the plunger moves from the first plunger position to the second plunger position by pushing the plunger into the internal cavity, and a transportation packaging having an outer container, at least one vacuum insulated panel, at least one phase change material bottle, and at least one collection jar holding tray, where the phase change material bottle has an indented portion corresponding to an indented portion of the collection jar holding tray, where the collection jar is configured for placement in the at least one collection jar holding tray during transportation.

System and associated method for capturing, preserving, and transporting a bodily fluid, including a collection jar having a base body, a lid body, and a plunger, the plunger housing a preservative when in a first plunger position and permitting a release of the preservative into an internal cavity of the collection jar when in a second plunger position, where the plunger moves from the first plunger position to the second plunger position by pushing the plunger into the internal cavity, and a transportation packaging having an outer container, at least one vacuum insulated panel, at least one phase change material bottle, and at least one collection jar holding tray, where the phase change material bottle has an indented portion corresponding to an indented portion of the collection jar holding tray, where the collection jar is configured for placement in the at least one collection jar holding tray during transportation.

The scope of the invention encompasses novel, multifunctional tools for maintaining the neovagina. The tools comprise novel dilator shapes that conform the anatomical pathway of the neovagina. The tools may further include a douching function for the effective and thorough washing of the neovagina, which is not achieved with standard douching devices. The tools may also comprise a measurement function for medical evaluation of the neovagina and to aid in proper dilation. Also presented herein are novel devices for delivery of agents to the natal vagina, including insemination devices.

The scope of the invention encompasses novel, multifunctional tools for maintaining the neovagina. The tools comprise novel dilator shapes that conform the anatomical pathway of the neovagina. The tools may further include a douching function for the effective and thorough washing of the neovagina, which is not achieved with standard douching devices. The tools may also comprise a measurement function for medical evaluation of the neovagina and to aid in proper dilation. Also presented herein are novel devices for delivery of agents to the natal vagina, including insemination devices.

A sterile Intracervical Insemination (ICI) fertility kit, method of sterilization, and method of use for performing self-insemination. Each sterile kit comprises: up to three sets of individually wrapped sterile, disposable, syringes and semen collection jars; printed instructions; and a QR code. The collection jar comprises a snap-on lid, and an inner surface with seamless edges to prevent semen residue. The syringes and jars are sealed in plastic wraps permeable to air and gas, and impermeable to pathogens; and are sterilized via gamma radiation or ethylene oxide. Fresh or frozen, unwashed or washed, semen is deposited into the jar, pulled into the syringe, and administered cervically during a user's maximum monthly level of luteinizing hormone. The syringe distal end is designed to push all semen out of the syringe then plug the end closed, while preventing semen residue from collecting within the syringe. Large circular syringe handles facilitate stable handling.