Various aspects of the present disclosure are directed toward apparatuses, systems and methods that include arranging an acute alteration of blood flow in, for example, heart failure patients.

The present invention provides ventricular restoration devices and snare devices as part of a papillary muscle approximation and ventricular restoration (PAP-VR) system and methods for using the same to repair mitral regurgitation (MR). The ventricular restoration devices include two collapsible anchors positioned at opposing ends of a collapsible stent, wherein the devices are threaded through a subject's anatomy such that the anchors rest outside of tissue and are held taut by the stent inbetween. The snare devices comprise an out-of-plane curved construction to navigate magnetized trapping lines around difficult to reach anatomy to lasso and tighten anatomical structures.

Systems and methods for assembling a plurality of tissue grafts are provided. A method includes applying a magnetic coating over a surface of a donor site and harvesting the plurality of micro tissue grafts from the donor site, so that an upper surface of each of the plurality of micro tissue grafts contains the coating. The method also includes arranging a magnet over the magnetic coating to induce the plurality of micro tissue grafts to organize in a desired orientation, forming a tissue construct containing the plurality of micro tissue grafts arranged in the desired orientation, and applying the tissue construct to a recipient site.

Provided are a magnetic cell for controlling a shape of a pipe with fluid flow including a magnetic material in the cell, a method of producing the same, and a system for controlling a shape of a pipe with fluid flow and an artificial intelligence planning system for controlling a shape of a pipe with fluid flow using the same, and a repulsive force or attractive force between the magnetic cells is used to induce expansion or contraction of the pipe with fluid flow to control the shape of the pipe with fluid flow.

A spinal distraction system, according to one aspect, includes an adjustable spinal distraction rod comprising first and second members, the adjustable spinal distraction rod configured for non-invasive elongation of the first and second members. The system includes an anchor rod configured for mounting to a bone of a subject, the anchor rod having one or more spring-biased tabs disposed at one end thereof, and a connector having first end and a second end, the first end having a receiving cup configured for detachable mounting on the anchor rod, wherein the one or more spring-biased tabs are configured to engage with an inner surface of the receiving cup, the connector having a second end operatively coupled to an end of a first member and wherein the second member is configured for mounting to a second bone of a subject.

A mitral valve prosthesis is percutaneously and/or transapically deployed in at least two stages. In a first stage, a mitral annular ring platform adapted for percutaneous delivery is delivered to and anchored in the mitral valve annulus. In the second stage, a valved-stent mitral valve prosthetic device adapted for percutaneously delivery is delivered to the mitral valve annulus for mounting in the mitral annular ring platform. This approach provides a consistent platform for accepting valved-stent mitral valve prosthetic devices from different vendors to be used.

There is provided herein a bone anchored implant that is used to support a nasal prosthesis in patients with a missing external nose. The implant consists of central section (which is preferably generally triangular) suspended within the aperture of the nasal cavity by four fixation arms which extend radially to engage the surrounding maxillary bone. The triangular portion may support three fixation points, one at each corner of the triangular portion, which in turn, directly engage the nasal prosthesis either via magnets or mechanical locking interface. Extending radially from the triangular section, the four fixation arms may flatten to a clover leaf arrangement of three apertures which accommodate micro-screws that secure the implant to the surrounding maxillary bone.

A device for replacing a mitral valve includes a substantially cylindrically-shaped body having a top portion, a bottom portion, and a waist portion disposed therebetween and having ferromagnetic elements arranged circumferentially, and the top portion, waist portion, and bottom portion defining an aperture extending therethrough for allowing blood flow; and a clamping ring formed of a ferromagnetic material and supporting a plurality of ferromagnetic spheres thereon.

A minimally invasive magnetic vocal fold manipulator system and method is disclosed. Namely, a magnetic vocal fold manipulator system is provided that includes a magnetics-based thyroid cartilage implant, a magnetics-based arytenoid cartilage implant, and an implant introducer device. Additionally, a method is provided of using the minimally invasive magnetic vocal fold manipulator system for performing lateralization and/or medialization of the vocal cord.

A device and method for managing obstructive sleep apnea in patients. The device includes a first implantable member and a second implantable member, both configured to generate a magnetic field. The first implantable member is implanted in a base of a tongue and the second implantable member is implanted in a soft palate such that like magnetic poles of the first implantable member and the second implantable member face each other resulting in repulsion between the first implantable member and the second implantable member. The repulsive force between the first implantable member and the second implantable member can open the respiratory airway and keep it open.