Methods and devices for treating erectile dysfunction are disclosed. Methods are aimed at reducing blood outflow from penile tissue by delivering energy to specific penile tissue that controls blood outflow from the penile tissue and causing remodeling of the specific penile tissue. Devices may be configured to generate RF energy and to apply the generated RF energy to a penis to thereby elevate a temperature of internal penile tissue above a predetermined temperature value while maintaining a penile surface below a predetermined temperature threshold. The predetermined temperature value may be set to initiate synthesis and/or a regeneration of collagen fibers in a collagen-rich penile connective tissue and/or to increase oxygenation of endothelial cells, initiate angiogenesis and neovascularization in a vascular penile tissue. Additionally, electrical penile stimulation is disclosed, possibly applicable in conjuncture with the erectile dysfunction treatment.

Methods and devices for treating erectile dysfunction are disclosed. Methods are aimed at reducing blood outflow from penile tissue by delivering energy to specific penile tissue that controls blood outflow from the penile tissue and causing remodeling of the specific penile tissue. Devices may be configured to generate RF energy and to apply the generated RF energy to a penis to thereby elevate a temperature of internal penile tissue above a predetermined temperature value while maintaining a penile surface below a predetermined temperature threshold. The predetermined temperature value may be set to initiate synthesis and/or a regeneration of collagen fibers in a collagen-rich penile connective tissue and/or to increase oxygenation of endothelial cells, initiate angiogenesis and neovascularization in a vascular penile tissue. Additionally, electrical penile stimulation is disclosed, possibly applicable in conjuncture with the erectile dysfunction treatment.

A system for treating abnormal muscle activity via energy application includes a catheter, an electrode assembly including a plurality of electrodes, a processor configured to receive signals associated with intrinsic tissue activity sensed by the plurality of electrodes, the processor determining a location of a target tissue to be treated based on the sensed intrinsic activity, and a stimulator configured to transmit energy to at least one of the plurality of electrode located at the target tissue.

The present invention relates to a non-invasive device and method for treating and improving dysfunction or disorders associated with pelvic floor. In one advantageous form, the non-invasive device comprising a generator configured to generate a current with a predetermined intensity of milliampere at a desirable frequency; at least one electrical stimulation applicator comprising a probe unit configured to transmit the current to a target body surface of vulvar tissues and/or pelvic floor muscle for application of an electrical stimulation; wherein the probe unit comprises a negative electrode and at least one positive electrode and the probe unit is shaped for positioning on the target body surface of the vulvar tissues and/or the pelvic floor muscle.

Systems and methods for producing cervical ripening in a pregnant patient. The method includes generating an electrical stimulation current between about 0.01 milliamperes and about 6 milliamperes using a current unit, coupling an electrode probe to the current unit, and inserting the electrode probe transvaginally so that at least one electrode of the electrode probe is in contact with the patient's cervix. The method also includes applying the electrical stimulation current from the current unit through the electrode probe and the at least one electrode to the patient's cervix to produce ripening of the patient's cervix.

Provided is an implantable sling for supporting a body organ. The sling may be used, for example, as a urethral sling, a puborectal sling or a surgical mesh for pelvic organ prolapsed repair. The sling of the invention has a first sling element, having a first sling body and two or more slender first projections extending from the first sling body. The sling may further include a second sling element having a second sling body and two or more slender second projections extending from the second sling body, and one or more detachable connections connecting the first sling element and the second sling element. In some embodiments, the connections are configured to tear when the first and second sling elements are pulled apart.

Provided is a system and method for cavernosal neuromodulation as directed by a wireless remote controller and power supply. The system including: an implantable lead having at least one electrode structured and arranged to be disposed proximate to the cavernous nerve in a penis; a portable power supply; and a controller having wireless communication electronics and control circuitry associated with the wireless communication electronics structured and arranged to wirelessly couple the power supply to the at least one electrode, the controller further structured and arranged to permit a user to select at least one instruction set for the at least electrode. The controller and power supply may be provided by a control ring. An associated method of use is also provided.

A urinary dysfunction treatment apparatus is provided. The apparatus comprises an implantable constriction device configured to constrict at least one portion of the tissue wall of a patient's urethra to at least restrict the flow of urine, an operation device for operating the constriction device to change the constriction of the urethra, a control unit for controlling the operation device, wherein the control unit is configured to: control the operation device to constrict the urethra, and control the operation device to release the urethra, and a source of energy for supplying energy to the operation device. The control unit is configured to determine a current state of the source of energy, and wherein the control unit is connected to an internal signal transmitter configured to transmit information related to the current state of the source of energy.

Methods of treating premature ejaculation include arranging one or more electrodes to face dorsal penile nerves (DPNs) of a patient with premature ejaculation, and applying an electro stimulation having a frequency and a current by which seminal fluid expulsion is not induced in the patient by the one or more electrodes during a time period from before the start of sexual intercourse to ejaculation. The electro stimulation reversibly extends an intravaginal ejaculatory latency time (IELT) of the patient. Methods of controlling a premature ejaculation treatment device are also provided.

A multichannel clip device and methods of use that facilitate connection of multiple electrical components of a first device and a second device for testing and/or verification are provided herein. Such multichannel clip devices can include a spring-loaded clip having multiple electrical contacts for coupling with a contact portion of a first device and which are connected to a proximal connector through a flexible stimulation cable. The contacts can be included within a neurostimulation lead connector and the proximal connector adapted to couple with standard connectors on a clinician programmer, each contact being coupled to a corresponding contact of the proximal connector to define multiple separate channels. Such clip devices allow clinicians to test and/or verify multiple neurostimulation lead electrodes with a clinician programmers without requiring separate connection of each electrodes to a probe or test device and further allows for repeated sequencing or multi-plexing of neurostimulation leads during testing.