An adaptive system for efficient and long-range wireless power delivery using magnetically coupled resonators responds to changes in a dynamic environment, and maintains high efficiency over a narrow or fixed frequency range. The system uses adaptive impedance matching to maintain high efficiency. The wireless power transfer system includes a drive inductor coupled to a high-Q transmitter coil, and a load inductor coupled to a high-Q receiver coil. The transmitter coil and receiver coil for a magnetically coupled resonator. A first matching network is (i) operably coupled to the drive inductor and configured to selectively adjust the impedance between the drive inductor and the transmitter coil, or (ii) is operably coupled to the load inductor and configured to selectively adjust the impedance between the load inductor and the receiver coil.

An apparatus for guiding cannulation with a dialysis needle of an arteriovenous dialysis access graft subcutaneously implanted in a body of a subject. The guiding apparatus comprises an elongated body member comprising a base portion terminating in longitudinal edges, a distance between the longitudinal edges of the base portion being substantially equal to a lateral dimension of the aces graft, and an elongated tubular sleeve defining an pocket having a longitudinal dimension and a lateral dimension configured to receive the body member. The body member is adapted to be received in the pocket of the sleeve for securing adjacent the subcutaneous access graft such that the inner surface of the base portion is aligned with a cannulation point of the graft for guiding location of a needle insertion.

A filling aid. The filling aid includes a needle housing portion including at least one tab having a starting position and a filling position, and a filling needle cradle including a filling needle, the filling needle cradle slidable connected to the needle housing portion and having a starting position and a filling position, wherein when the at least one tab on the needle housing moves from a starting position to a filling position, the filling needle cradle slides from a starting position to a filling position, and wherein when the at least one tab on the needle housing moves from a filling position to a starting position, the filling needle cradle slides from a filling position to a starting position.

An implantable medical pump system configured to selectively permit access to a medicament reservoir by way of at least one contactless key, including an implantable medical pump having an medicament reservoir fluidly couple to an access port via a conduit including an access valve, and at least one contactless key configured to impart a magnetic field upon a portion of the implantable medical pump to manipulate the access valve between a closed position isolating the medicament reservoir from the access port, and an open position fluidly coupling the medicament reservoir to the access port.

An implantable medical device configured to selectively permit access to a medicament reservoir or fluid pathway by way of at least one contactless key, including an implantable medical device having a medicament reservoir fluidly coupled to an access port via a first conduit and a second conduct via an access valve, and at least one contactless key configured to impart a magnetic field upon a portion of the implantable medical pump to manipulate the access valve between a first position fluidly coupling the medicament reservoir to the access port via the first conduit, and a second position fluidly coupling the medicament reservoir to the access port via the second conduit, and a third position isolating the medicament reservoir from the access port.

An access port system, comprising an implantable access port, the access port including an access port body, an access port needle and a fluid flow passage provided within the body and the needle; wherein the needle is fully containable within the body, and the needle is exposable outside the body; wherein the needle is arranged within the body to penetrate outwardly of the subject from within the subject when the access port is implanted in the subject; wherein, when the needle is exposed outside the body, the fluid flow passage is open to a flow of a fluid within the access port in at least a direction entering the access port through the needle and thereafter exiting the access port from the body; and wherein the assess port includes at least one sensor configured to detect the fluid within the fluid flow passage.

A lubrication device for lubricating a joint of a human or mammal patient, which is entirely implantable in a patient's body, comprises a reservoir for storing a lubricating fluid and a fluid connection for introducing the lubricating fluid into the joint when the device is implanted in the patient's body. Further, the fluid connection comprises a fluid connection device connecting the reservoir with the joint such that a lubricating fluid flow is established from the reservoir into the joint. The fluid connection comprises either an infusion needle adapted to be intermittently placed into the joint for injecting the lubricating fluid, or a tube adapted to be permanently placed into the joint for continuously injecting the lubricating fluid.

A method for using a universal electronic toolset for indicating and adjusting of an implantable programmable bodily fluid drainage valve regardless of whether the valve includes a fixed reference magnet used to determine an angle of orientation of the implantable programmable bodily fluid drainage valve or not. A magnetic field detection sensor array in an indicator tool of the electronic toolset determines whether the fixed reference magnet is present in the implantable programmable bodily fluid drainage valve. If the presence of the fixed reference magnet is detected then the center and direction of flow of the adjustable valve unit is ascertained via electronic feedback from the electronic toolset; otherwise, the center and direction flow is ascertained via exclusively by manual physical palpation of the valve.

A system for monitoring patient intake includes an acquisition and transmission device having an electrode configured to detect vagus nerve activity. A first internal inductive coil is configured to communicate a signal indicative of the vagus nerve activity detected by the electrode to a second external inductive coil. The system also includes a processor configured to execute instructions stored in a memory that cause the system to process the signal received by the second induction coil into data corresponding to intake of the patient and communicate the data to a server that is accessible by a clinician.