The present invention relates to a method of placing an artificial valve in a blood vessel of a mammal patient. The method involves placing the artificial valve into the blood vessel. The artificial valve comprises a casing and a closing mechanism, with at least part of said closing mechanism being a first moving part which is adapted to make movements relative to the casing to assume an open position and a closed position for opening and closing, respectively, a blood flow through a blood vessel of the body, as well as positions between said open and closed positions

A device for treating an aneurysm of a human or mammal patient, wherein the aneurysm may self-expand, leading to the aneurysm bursting with high risk for death of the human or mammal patient. The device comprising an implantable member adapted to be placed in connection with the outside of a blood vessel having the aneurysm, and to exercise a pressure on the outside of the blood vessel having the aneurysm, a measuring device or sensor for measuring or sensing an expansion of the aneurysm, and a pressure regulator adapted to regulate the exercised pressure on the outside of the blood vessel having the aneurysm.

Medical device delivery assemblies are disclosed. The assembly may include a catheter-based delivery system. The assembly may include a pacing element to pace a patient's heart before, during, or after a procedure. The pacing element may be a detachable, implanting pacing element. The pacing element may be an implantable pacemaker and the implantable pacemaker may be disposed on a catheter-based delivery system. The assembly may include a prosthetic heart valve with one or more pacing elements on it. The pacing element may include a pacing strip or strips. These strips may be conductive or insulative. These strips may prevent, treat, or correct abnormal electrical communication in a heart.

An intraocular lens (IOL) includes one or more haptic structures coupled to hold the IOL (100A) system in an eye. The IOL also includes one or more mechanical-to-electrical transducers (107) that detect mechanical changes in the eye and, in response to the mechanical changes, output an electrical signal. An accommodation actuator (101) is electrically coupled to the one or more mechanical-to-electrical transducers, and in response to the electrical signal the optical power of the accommodation actuator changes.

Provided herein is a system including, in some embodiments, a stent and a catheter. The stent includes a number of filaments arranged to form a tubular body of the stent, a number of microcells forming each filament of the number of filaments, and a port in an end portion of the stent. Each microcell includes a moveable microsurface. The port of the stent may be configured to accept power and control signals for moving the microsurfaces. The catheter may include a cable configured to connect with the port of the stent and provide the power and the control signals for moving the microsurfaces. Moving the microsurfaces may include matching a shape of an anatomical vessel to maintain patency thereof while mitigating stress on the anatomical vessel.

A prosthetic aortic valve is provided, which is configured to be delivered to a native aortic valve of a patient in a constrained delivery configuration within a delivery sheath. The prosthetic aortic valve includes a frame, which includes interconnected stent struts arranged so as to define interconnected stent cells; a plurality of prosthetic leaflets coupled to the frame; a cathode and an anode, which are mechanically coupled to the frame; and a prosthetic-valve coil, which is in non-wireless electrical communication with the cathode and the anode, and is coupled to a plurality of the stent struts, running along the stent struts so as to surround a plurality of the stent cells when the prosthetic aortic valve is in an expanded fully-deployed configuration upon release from the delivery sheath. Other embodiments are also described.

According to an aspect, an apparatus includes a bodily implant configured to be implanted into a body of a patient, the implant including an inflatable member and a sending unit, the sending unit having a sensor configured to sense the pressure of the inflation member; and a reading unit, the reading unit configured to be disposed outside of the body of the patient and configured to operatively communicate with the sending unit.

An implantable position detecting system is configured to detect a position of an implantable device with respect to a body structure. The system includes at least one proximity measuring transducer configured to be implanted on the body structure a distance from the implantable device, the at least one proximity measuring transducer being configured to receive energy from an external electromagnetic field generated by an external sensing interface, wherein the at least one proximity sensor is configured to emit an emitted signal responsive to the electromagnetic energy and to receive distance information comprising a sensing signal that is responsive to the distance from the implantable device.

A urinary pumping device (1) for generating a fluid flow through an urethra (22; 220) of a patient (2; 20), comprises an implantable activation arrangement (11) and a control unit (12). The implantable activation arrangement (11) is configured to induce intermittent compression and release of the urethra (22) when being implanted into the patient (2). The control unit (12) is coupled to the activation arrangement (11). The control unit (12) is configured to operate the activation arrangement (11) such that the fluid flow through the urethra (22) is generated by the activation arrangement (11) inducing intermittent compression and release of the urethra (22).

Embodiments of a modulable absorption light adjustable lens (MALAL) comprise a light adjustable lens that is capable of changing its optical properties upon an adjusting irradiation, including a photo-modifiable material; and a modulable absorption front protection layer, including a modulable absorption compound whose absorption properties can be modulated with a modulating stimulus. Other embodiments include a method of adjusting an optical property of a modulable absorption light adjustable lens, the method comprising: reducing an absorption of a modulable absorption compound of a modulable absorption front protection layer of the MALAL by a modulating stimulus, the MALAL having been previously implanted into an eye; and changing an optical property of a light adjustable lens of the MALAL by applying an adjusting irradiation.