Wireless energy transfer apparatus include, in at least one aspect, a device resonator configured to supply power for a load by receiving wirelessly transferred power from a source resonator; a temperature sensor positioned to measure a temperature of a component of the apparatus; a tunable component coupled to the device resonator to adjust a resonant frequency of the device resonator, an effective impedance the device resonator, or both; and control circuitry configured to, in response to detecting a temperature condition using the temperature sensor, (i) tune the tunable component to adjust the resonant frequency of the device resonator, the effective impedance of the device resonator, or both, and (ii) signal the source resonator regarding the temperature condition to cause an adjustment of a resonant frequency of the source resonator, a power output of the source resonator, or both.

Devices and methods for providing localized pressure to a region of a patient's heart to improve heart functioning, including: (a) a jacket made of a flexible biocompatible material, the jacket having an open top end that is received around the heart and a bottom portion that is received around the apex of the heart; and (b) at least one inflatable bladder disposed on an interior surface of the jacket, the inflatable bladder having an inelastic outer surface positioned adjacent to the jacket and an elastic inner surface such that inflation of the bladder causes the bladder to deform substantially inwardly to exert localized pressure against a region of the heart.

A biomimetic actuation device includes a flexible substrate, conformable for disposition about an object, defining an apex and a base, bearing at least one soft actuator configured to change state from a first state to a second state upon introduction of a pressurized fluid to an internal volume of the at least one soft actuator.

A system and method for evaluating, altering and/or creating an opening around the heart to receive a construct. Using a minimally invasive techniques, a first guide is advanced into an area adjacent to the heart. The first guide is used to probe the area and determine if an opening can be safely formed in that area. The guide is then used to direct a larger guide catheter into the targeted area. The larger guide catheter is used to direct a more robust guide into the targeted area. The robust guide is then used to direct a delivery guide catheter into the targeted area. The delivery guide catheter can be used to stall a device deployment guide. Either the delivery guide catheter or the device deployment guide can be used to advance the construct into the targeted area.

A system and method for evaluating, altering and/or creating an opening around the heart to receive a construct. Using a minimally invasive techniques, a first guide is advanced into an area adjacent to the heart. The first guide is used to probe the area and determine if an opening can be safely formed in that area. The guide is then used to direct a larger guide catheter into the targeted area. The larger guide catheter is used to direct a more robust guide into the targeted area. The robust guide is then used to direct a delivery guide catheter into the targeted area. The delivery guide catheter can be used to stall a device deployment guide. Either the delivery guide catheter or the device deployment guide can be used to advance the construct into the targeted area.

Steering engagement catheter devices, systems, and methods of using the same for accessing a tissue, including internal and external tissues of a heart, are disclosed. In at least one embodiment, a steering engagement catheter is provided, comprising an elongated tube having a proximal end, a distal end, and a first wall positioned circumferentially along a length of the elongated tube, the elongated tube configured such that a delivery catheter is capable of at least partial insertion into the elongated tube, at least one steering wire having a proximal end and a distal end, the distal end of the at least one steering wire coupled to the first wall of the elongated tube at or near the distal end of the elongated tube, and a controller operably coupled to the at least one steering wire at or near the proximal end of the at least one steering wire.

A pericardial access system includes an introducer sheath and a mandrel. The introducer sheath has a proximal end, a distal end, and a lumen extending therethrough. The mandrel has a proximal end, a distal end, end a handle at the proximal end. A wire electrode is disposed at the distal end of the mandrel, and a power supply is coupled to the wire electrode and configured to apply a short burst of energy sufficient to allow the wire electrode to penetrate a pericardial sac of a patient. The pericardial access system is used to deliver an implantable cardiac assist catheter connectable to an external drive unit. An anchor catheter is percutaneously advanced into a patient's pericardial sac and includes an anchor at its distal which may be expanded within the pericardial sac.

A pericardial access system includes an introducer sheath and a mandrel. The introducer sheath has a proximal end, a distal end, and a lumen extending therethrough. The mandrel has a proximal end, a distal end, end a handle at the proximal end. A wire electrode is disposed at the distal end of the mandrel, and a power supply is coupled to the wire electrode and configured to apply a short burst of energy sufficient to allow the wire electrode to penetrate a pericardial sac of a patient. The pericardial access system is used to deliver an implantable cardiac assist catheter connectable to an external drive unit. An anchor catheter is percutaneously advanced into a patient's pericardial sac and includes an anchor at its distal which may be expanded within the pericardial sac.

A medical device for actively stretching a stomach wall of a patient for creating a sensation of satiety. The medical device being implantable and comprising a first member configured to be fixated to a first portion of the stomach wall, a second member configured to be fixated to a second portion of the stomach wall, an operation device for operating the second member to displace the second member in a first direction relative to the first member, for stretching the stomach wall between the first and second portion.

A medical device for actively stretching a stomach wall of a patient for creating a sensation of satiety. The medical device being implantable and comprising a first member configured to be fixated to a first portion of the stomach wall, a second member configured to be fixated to a second portion of the stomach wall, an operation device for operating the second member to displace the second member in a first direction relative to the first member, for stretching the stomach wall between the first and second portion.