A ventriculoperitoneal shunt includes a proximal catheter, a distal catheter, a shunt valve operably coupling the proximal catheter to the distal catheter, and a contrast container containing contrast material configured to change acoustic impedance proportionally to a change in pressure applied to the contrast container.

The invention includes a shunt for at least partial implantation into a patient that includes an elongated conduit having at least one lumen therethrough, that includes a proximal end for receipt of bodily fluids for flow through the shunt and a distal end for discharge of the bodily fluids from the shunt, and a long term source of at least one occlusion resistant agent, wherein said at least a portion of the at least one occlusion resistant agent can permeate through at least a portion of the elongated conduit. The invention also includes kits and systems.

Provided is a method for detecting injury to the brain comprising: a) determining the level of a tight junction (TJ) protein in exosomes isolated from a test sample from a subject, wherein the TJ protein is occludin, claudin-3, claudin-5, claudin-12, ZO-1, ZO-2, ZO-3, JAM-A, JAM-B or JAM-C, or any combination thereof; b) comparing the level of the TJ protein in the test sample to the level of the TJ protein in a control sample, wherein an elevated level of the TJ protein in the test sample relative to the level of the TJ protein in the control sample indicates that the subject has an injury to the brain.

A catheter assembly for transferring fluid into and out of a ventricle in the brain is disclosed. The catheter assembly include a sheath permanently installed in the brain, a catheter removably disposed in the sheath, and a connector. In some embodiments, the connector includes inner and outer connection portions, the inner connection portion connected to the sheath and catheter, respectively. A distal end of the catheter may include one or more lumens and/or one or more openings for transferring fluid. The catheter assembly may be connected to a shunt valve and distal (e.g., abdominal) catheter. The distal catheter may be removably disposed within a distal sheath that is permanently attached below the skin of the patient.

A shunt device for directing fluid from a human head, and methods thereof are provided herein. The device can be mounted at a skull and include a first catheter that extends into a portion of the head such as a lateral ventricle. The first catheter can covey fluid through, and past a valve to a shunt body. The shunt body can include openings, allowing the fluid to reenter the head, for example at the subarachnoid space. The shunt body can also include other openings that can be associated with a second catheter. Fluid can thus also be conveyed out of the body or to a subgaleal pocket.

A self-monitoring catheter system may detect an obstruction during use of a catheter. The system may include a catheter with an interior lumen that has one or more ports into the lumen; a first and a second electrode; and an impedance measurement instrument that measures changes in the impedance between the first and the second electrodes after the first electrode is exposed to fluid within the catheter lumen, thereby signaling an obstruction during use of the catheter.

A subcutaneous implantable device has one or more adjustable settings with a setting device configured to selectively change between the one or more adjustable settings. An indicator, having an ultrasound reflection enhancement, indicates each particular setting of the one or more adjustable settings.

An adjustable passive flow regulator may be used in the field of drug delivery (liquid or gaseous, e.g. for pain management) or for draining cerebrospinal fluid (CSF) for hydrocephalus patient.

An externally programmable shunt valve assembly that includes a motor having a rotor that is operable in response to an externally applied magnetic field and configured to increase or decrease the working pressure of the shunt valve assembly. The motor may further include a position sensing mechanism that allows a position of the rotor, and associated pressure setting of the valve, to be determined using an external magnetic sensor. In certain examples the motor further includes a mechanical brake that is magnetically operable between a locked position and an unlocked position and which, in the locked position, prevents rotation of the rotor.

A catheter curvature brace, catheter assembly and method for managing fluid in a patient, the brace being attachable to a distal portion of a shaft of a catheter and having an elongated frame with a distal end and a proximal end. The frame is formed with at least one curve in a relaxed curved configuration. At least two coupling elements are connected to the frame, each coupling element configured to engage an outer surface of the catheter. At least the frame is formed of an elastic, biocompatible material capable of being straightened by a force and then returning to the relaxed curved configuration after the force is removed, thereby bending the catheter to substantially conform to the relaxed curved configuration.