The present invention relates to the application of medical devices that manage urinary incontinence. The inter-bladder/urethra implanted device allows for passive urine leakage above a threshold bladder pressure and subject-controlled opening and closing of a valve to allow urine passage, below the threshold bladder pressure. The valve is preferably a deformable sac which seals against the interior of the urethra when closed. The valve can be opened by withdrawing slightly from the urethra surface. Passive urine leakage to prevent over-pressure can be facilitated by including external channels on the valve sac. In another embodiment, the valve sac has a central passage which expands and contracts for opening and closing, respectively.

An operable implant adapted to be implanted in the body of a patient, the operable implant comprising an operation device and a body engaging portion, wherein the operation device comprises a first unit comprising a receiving unit for receiving wireless energy and a first gear system adapted to receive mechanical work having a first force and first velocity, and output mechanical work having a different second force and a different second velocity. The operation device further comprises a second unit comprising an electrical motor adapted to transform electrical energy to the mechanical work, and a distance element adapted to separate the first and second units such that the receiving unit, when receiving wireless energy, is not substantially affected by the second unit.

This prosthesis is likely to be implanted surgically in males for the treatment of erectile disfunction, higher degree of female satisfaction, erection improvement, greater erection management, cosmetic enhancement, and or premature ejaculation concerns and it has at least one flexible semi-rigid inflatable computerized remote controlled software driven sleeve bladder that can be inflated to create an erection or deflated on demand, implanted inside the inner wall and encompassing the circumference of the penis, and can incorporate at least one rechargeable vibrator device, at least one flexible inflatable computerized remote controlled cylindrical bladder, implanted inside the penis body, that can be inflated to create an erection, a computerized remote controlled fluid-filled reservoir implanted under the abdominal wall, a wirelessly rechargeable computerized remote controlled pump and release valve placed under the abdominal wall with a subcutaneous wireless recharging system. Each device is controlled by an erection management system (EMS) and corresponding software.

Implantable transponders comprising no ferromagnetic parts for use in medical implants are disclosed herein. Such transponders may assist in preventing interference of transponders with medical imaging technologies. Such transponders may optionally be of a small size, and may assist in collecting and transmitting data and information regarding implanted medical devices. Methods of using such transponders, readers for detecting such transponders, and methods for using such readers are also described.

Misaligned bones on opposite sides of a joint are aligned using a first rigid extension securable to one of the misaligned bones using a particular surgical approach, and a second rigid extension having a contacting surface positionable in contact with the other the two misaligned bones from the same surgical approach. The first and second rigid extensions are moved with respect to each other using a lever, whereby a pulling force is exerted on one of the bones, and a pushing force on the other, thereby aligning the first and second misaligned bones.

An apparatus for eye surgery may comprise a nozzle having a delivery lumen, an implant bay coupled to the nozzle, an implant disposed in the implant bay, and an actuator coupled to the implant bay. The actuator may comprise a housing, a plunger disposed within the housing, a bore through the plunger, a first coupling proximate to a first end of the plunger, and a second coupling integral to the housing. The bore may be fluidly coupled to the implant bay. The first coupling may be configured to receive a hydraulic driver and fluidly couple a working fluid in the hydraulic driver to the bore. A portion of the plunger may be slidingly disposed through the second coupling. In some embodiments, the second coupling may be configured to retain a drive coupling of the hydraulic driver in a fixed position relative to the housing.

Systems, methods, and devices for inserting an intraocular lens (IOL) assembly into an eye may be provided. A device for delivery of the IOL into the eye may include a housing; a nozzle operatively coupled to the housing; a first cylinder movably disposed within the housing; a second cylinder movably disposed within the housing, wherein the second cylinder is in fluid communication with the first cylinder; a plunger at least partially and movably disposed within the first cylinder; and a shaft movably disposed within the second cylinder, wherein the shaft is configured to move toward the lens component.

The invention relates to a prosthetic system including; an implanted device including: at least one inflatable element (1) that can be inflated in response to a pressure of a fluid; a tank (2) for the fluid in communication with the inflatable element; a sealed case (3) in which is mounted a motor-driven pump supplied with energy by a wireless energy transfer system, part of which (30) is mounted in the case, this pump being in communication on the one hand with the inflatable element via a one-way discharge obturator and on the other hand with the tank via a one-way suction obturator; a manual command for deflating the inflatable element (1) acting simultaneously on the one-way suction and discharge obturators; the control case (B) integrating another part of the energy transfer system and ensuring the control of the operation of the energy transfer system.

A method of treating a hip joint of a human patient using a pelvic drill comprising a driving member, a bone contacting and an operating device for operating said driving member. The method comprise the steps of creating a hole passing through the pelvic bone and into the hip joint of the human patient, and providing at least one hip joint surface to the hip joint, through said hole in the pelvic bone of the human patient. In one embodiment the method includes inserting a needle or tube like instrument into the patient's body for filling a part of the patient's body with gas and thereby expanding a cavity within the body.

An inflatable penile prosthesis may include a fluid reservoir configured to hold fluid, an inflatable member, and a pump assembly configured to transfer fluid between the fluid reservoir and the inflatable member. The pump assembly may include a pump bulb, a valve block, a plurality of valves disposed within the valve block, a first fluid port in fluid communication with the fluid reservoir, and a second fluid port in fluid communication with the inflatable member. The plurality of valves includes a control valve configured to move between an inflation position and a deflation position to control the flow of fluid within the valve block and the transfer of fluid between the fluid reservoir and the inflatable member.