Intermittent delivery of ventricular pacing pulses synchronized to occur during an atrial diastole time period can be used to provide atrial stretch therapy and augment the production and release of atrial natriuretic hormone.

A valve prosthesis system is provided, which includes a prosthetic aortic valve and a non-implantable unit. The prosthetic aortic valve which includes a plurality of prosthetic leaflets; a 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. The non-implantable unit includes an energy-transmission coil; and non-implantable control circuitry, which is configured to drive the cathode and the anode to apply a pacing signal and to set parameters of the pacing signal, by wirelessly transferring energy from the energy-transmission coil to the prosthetic-valve coil by inductive coupling. Other embodiments are also described.

An adaptive treatment management system includes a sensor system, a treatment optimization system, and a treatment delivery system. The treatment optimization system may update a treatment regimen multiple times between physician visits to facilitate optimization of treatment. The treatment optimization system may determine a treatment regimen based on at least one of patient data, treatment compliance data, and related treatment data. Patient data may be provided by the sensor system. Treatment compliance data may be provided by the treatment delivery system. Related treatment data may be provided by a remote system.

The invention is directed to methods for diagnosing reperfusion/non-reperfusion hemorrhage and predicting cardiac arrhythmias and sudden cardiac death in subjects comprising using imaging techniques to detect regional iron oxide deposition. The invention also provides treatment methods for subject at increased risk of sudden cardiac death.

In some embodiments, a method includes delivering to a native valve annulus (e.g., a native mitral valve annulus) of a heart a prosthetic heart valve (200) having a body (242) expandable from a collapsed, delivery configuration to an expanded, deployed configuration. The method can further include, after the delivering, causing the prosthetic heart valve to move from the delivery configuration to the deployed configuration. With the prosthetic heart valve in its deployed configuration, an anchoring tether (191) extending from the prosthetic heart valve can be secured to a wall (Vw) of the heart (H). An electrode (189) coupled to at least one of the prosthetic heart valve or the anchoring tether can then be used to at least one of pace the heart or sense a signal associated with the heart.

An apparatus and method are disclosed for a biofunctional molecular imprint medical device configured to remain in permanent or temporary contact with a body comprising a supportive structure, a surface material that receives and retains a molecular imprint and that is positioned to contact a body tissue or other substance during use, a molecular imprint of a bioactive molecule wherein an imprinted cavity is of a bioactive molecule that catalyzes the promotion or suppression biological processes and at least one of a semiconductor, a nanoparticle quantum dot, a nano-island, and a quantum wire, wherein the nanoparticle quantum dot, nano-island, or quantum wire produces an electron wave function configuration that dynamically reconfigures the electron charge distribution within the molecular imprint, enabling tuning of the imprinted cavity.

High purity lithium and associated products are provided. In a general embodiment, the present disclosure provides a lithium metal product in which the lithium metal is obtained using a selective lithium ion conducting layer. The selective lithium ion conducting layer includes an active metal ion conducting glass or glass ceramic that conducts only lithium ions. The present lithium metal products produced using a selective lithium ion conducting layer advantageously provide for improved lithium purity when compared to commercial lithium metal. Pursuant to the present disclosure, lithium metal having a purity of at least 99.96 weight percent on a metals basis can be obtained.

In one aspect, the present disclosure provides nano and microstructures of conducting polymers which may be used in the treatment of neuron regeneration. In some embodiments, the microstructures may be a microcup or a nanogroove structure. The present disclosure also provides methods of preparing the conducting polymer coated microstructures and methods of using these compositions or structures.

Techniques for facilitating authorized telemetry with an implantable device are provided. In one embodiment, for example, a method includes comparing, by a first device having a processor, first electronic information with second electronic information. The first electronic information is indicative of a first motion of a second device external to a body in which the implantable device is located, and the second electronic information is indicative of a second motion of the implantable device. The method also includes determining whether a defined level of correlation exists between the first electronic information and the second electronic information, and initiating a telemetry session between the second device and the implantable device based on a determination that the defined level of correlation exists between the first electronic information and the second electronic information.

An atrioventricular prosthesis device is provided. The device includes a frame at least partially defining and enclosing a central cavity, the frame having a distal portion, a proximal portion, and a middle portion connected therebetween. The device further includes a valve construct formed, at least in part, from a cell growth scaffold, at least partially disposed within the central cavity defined by the frame. The valve construct includes: an annular portion defining an aperture and being connected to the frame for positioning the valve construct within the central cavity of the frame, and a plurality of leaflets extending longitudinally and radially inward from the annular portion. The frame and valve construct are transitionable to a deployed state, in which a diameter of at least a portion of the frame and the valve construct substantially conform to a diameter of a tricuspid and/or mitral valve opening.