An improved injection port identification for injection ports implanted under the skin of a patient. The injection port has an x-ray discernable marker allowing for the determination of a pressure rating for the injection port when so implanted. A plurality of concurrent visual, RF, light emitting and sonic means for signaling the port's pressure rating are also employable to provide multiple concurrent affirmations of the port's readiness for high pressure injections.

Embodiments of the invention provide devices, systems, and methods that precisely identify a minimum of one predetermined spot which is hidden under a skin. The system comprises a locator device and corresponding implanted target device. The port locator device preferably comprises one magnet with north and south magnetic pole, a body and a suspending component. The body may utilize specific geometry which improves accuracy. The implanted target device may include at least one magnet and at least one target or a plurality of targets and at least one magnet. Various configurations can be provided that precisely identify a single spot or a plurality of spots which are hidden under a skin.

A medical tube management system, kit, and method of use; including a fastener, a length of tubing, and a releasable spring to retain and release slack in the tubing when accidentally tugged. The fastener being universal and interchangeable, able to connect various springs. The spring is capable of reversibly restricting flow in the tubing when uncoupled from the fastener. The fastener is capable of notifying the patient, or care taker, when the system has been tugged into the uncoupled position.

An implantable pump configured to enable tuning of a delivery velocity of a fixed quantity of medicament. The implantable pump including a pump, an accumulator and a valve configured to enable tuning of a delivery velocity of a fixed quantity of medicament, wherein operating the pump with the valve continuously in the open state enables a steady-state delivery of medicament at a first velocity, and wherein closing of the valve enables the pump to at least partially fill the accumulator and subsequent opening of the valve enables the at least partially filled accumulator to dispense medicament, thereby delivering a bolus of medicament at a second velocity, wherein the second velocity is greater than the first velocity.

An medical system configured to aid a user in locating an access port of an implantable medical device, the medical system including an implantable port comprising a medicament chamber accessible through a septum, a localizer base operably coupled to the implantable port comprising an array of electromagnetic field emitting coils, an antenna array comprising a plurality of electromagnetic field sensing coils, and a user interface adapted to display data received by the antenna array to visually depict a relative position of the antenna array relative to the localizer base.

A tissue expander comprising: a port assembly including a drain port and a fill port, a magnet housing assembly fitted to the port assembly, the magnet housing assembly including a single magnet having a magnetic field that is detectable on an exterior surface of a biological tissue of a patient; a shell defining the interior cavity of the tissue expander; and a drain assembly in fluidic communication with the drain port via the drain tubing.

Implantable ports used for intravenous administration and methods of using the same.

An access port for providing subcutaneous access to a patient is disclosed. In one embodiment, the port includes an internal body defining a fluid cavity that is accessible via a septum. A compliant outer cover including silicone is disposed about at least a portion of the body. A flange is included with the port body and is covered by the outer cover. The flange radially extends about a perimeter of the port body proximate the septum so as to impede penetration of a needle substantially into the outer cover in instances where the needle misses the septum. The flange can further include both an anchoring feature for securing the outer cover to the port body and an identification feature observable via x-ray imaging technology for conveying information indicative of at least one attribute of the access port. The outer cover provides a suitable surface for application of an antimicrobial/antithrombotic coating.

An apparatus to determine if a constituent member has been damaged. The constituent member can be a medical product comprising a coating, or a substance kneaded into the product, which emits a fluorescence in the near-infrared region. The apparatus to determine if this constituent member has been damaged includes an irradiation light source, an optical filter, an imaging unit, a display unit and a control unit connected to the light source, the optical filter and the imaging unit to determine and inform that damage has occurred in the constituent member.

An implantable vascular access device includes a fluid reservoir, a self-sealing cover disposed over the reservoir, and an outlet port configured to mate with a catheter, the outlet port fluidically coupled to the fluid reservoir. One or more sensors coupled to the device are configured to capture physiological data while the device is implanted within a patient. The device can also include a data communications unit configured to receive physiological data from the one or more sensors and transmit the physiological data to one or more remote computing devices. The device may also be inductively powered and/or can emit a localization signal in response to wireless interrogation.