An endovascular apparatus comprises a catheter shaft constructed and designed for insertion into a venous vessel of a patient; a capture thread positioned in at least one lumen of the catheter shaft and extending from a proximal end of the catheter shaft to a distal end of the catheter shaft for capturing components of a bodily fluid from the patient, the catheter shaft including a plurality of ports for exposing the capture thread to the bodily fluid of the patient; and an enclosure coupled to the proximal end of the catheter shaft. The enclosure includes a feed vessel in communication with a first end of the capture thread and a collection vessel in communication with a second end of the capture thread; and a drive system that controls a movement of the capture thread in the catheter shaft from the feed vessel to the collection vessel.

In some examples, a burr hole cap assembly includes one or more markers that indicate a rotational orientation of a therapy delivery member relative to the burr hole cap assembly, where the therapy delivery member extends through an opening defined by the burr hole cap assembly. In addition, in some examples, the burr hole cap assembly includes a feature that indicates the rotational orientation of the therapy delivery member after the therapy delivery member is implanted in the patient. The feature can include the one or more markers in some examples.

Systems, methods, and apparatus for securing nasal tubes are disclosed. An exemplary system includes a bridle, a magnetic portion connected to the bridle, a delivery probe, a retrieval probe, and a clamp. The delivery probe includes an elongated member having proximal and distal ends, the distal end configured to deliver the magnetic portion, and a bridle lock configured to release the bridle upon actuation of an actuator. The retrieval probe includes an elongated member having proximal and distal ends, the distal end including a magnetic portion configured to magnetically couple with the other magnetic portion, and a magnetic coupling indicator configured to provide an indication in response to a magnetic coupling. The clamp includes a channel portion with an inside diameter larger than an outside diameter of a nasal tube. The clamp is configured to secure the nasal tube following placement of the bridle by the delivery and retrieval probes.

A device for stabilizing a patient catheter includes a docking pod with a body, an inlet, an outlet, an internal fluid path between the inlet and the outlet, and a securement surface located on an underside of the docking pod. A docking pod adhesive layer located at least partially on the securement surface of the docking pod may secure the docking pod to the patient such that the securement surface and the docking pod adhesive layer form a generally planar or concave surface when secured to the patient. A valve mechanism located within the internal fluid path of the docking pod may control fluid flow through the docking pod. The device may also have a luer connector that is fluidly connected to the outlet of the docking pod and configured to be connected to the catheter.

A bi-directional perfusion cannula comprising a flexible elongated tube 1 for insertion into an artery having a first aperture 3 at a distal end and a second aperture 4 formed rearward of the first aperture, the elongated tube can be bent in correspondence of the second aperture to orient it in a direction opposite to the insertion direction. The cannula is provided with a tape 5 having a first end portion shaped as a ring, fixed on an outer surface of the elongated tube, and a second end portion opposite to the first end portion either coupled to or being integral with a belt 7 defining a strap 11 with holes 12 and at least a prong 13 integral with the strap and configured to engage a respective hole, wherein the belt is configured to be tightened around an outer surface of the artery.

In various embodiments of the invention, a manipulator attaches to and allows a sheath to be positioned inside the cervix and a catheter to thereby be inserted through the sheath and be positioned in a desired location in the uterus. In various embodiments of the invention, the manipulator may be attached or permanently connected to the sheath. In various embodiments of the invention, the sheath is fenestrated to allow the catheter to be detached from the sheath. In various embodiments of the invention, the manipulator allows the sheath to be positioned through the cervix canal to allow for catheter transmitted intrauterine pressure monitoring or balloon catheter assisted ripening of the cervix.

This invention is a device utilizing hydro-block venting material in various external male and female catheter configurations permitting adequate airflow into the catheter thereby permitting efficient and complete drainage of urine away from the user following urination. In two embodiments user's expelled urine is automatically detected by a sensor and drawn away from the user by a pump means to a user selected storage means as a pressure relief balloon prevents air interference with the sensor. In another embodiment gravity is utilized to draw user's expelled urine away from user to a user selected storage means. An adhesive, garment or strap attachment means are disclosed as attachment means to secure the external male and female catheter to user and prevent leakage. The external male and female catheters are engineered to also be able to be connected to and used in combination with an indwelling catheter.

A catheter system to reduce a risk of transfixing a blood vessel. The catheter system may include a catheter adapter, which may include a proximal end, a distal end, and a lumen extending therebetween. The catheter system may include a catheter extending distally from the distal end of the catheter adapter. The catheter system may include an introducer needle extending through the catheter. The introducer needle may include a sharp distal tip and a primary bevel extending from an outer edge of the introducer needle to the sharp distal tip. The outer edge may be parallel to a central axis of the introducer needle and aligned with the sharp distal tip. The primary bevel may include a primary bevel angle with respect to the central axis. The primary bevel angle may be between 20° and 33°.

A negative pressure therapy system is provided for inducing negative pressure in a portion of a urinary tract of a patient, the system including: (a) at least one ureteral catheter configured to be positioned within a ureter and/or kidney of a patient; (b) one or more sensor(s) configured to determine information about urine produced within a urinary tract of the patient; and (c) a controller configured to increase urine production of the patient by adjusting one or more operating parameters of a negative pressure source for inducing negative pressure through the at least one ureteral catheter into the urinary tract of the patient, based at least in part upon the information determined by the one or more sensor(s).

A method to protect kidneys of a patient undergoing cardiac surgery patient including: administrating a diuretic to the patient to increase urine output of the patient during cardiac surgery, wherein the diuretic is administered during the cardiac surgery; anesthetizing the patient with a general anesthetic during the cardiac surgery; infusing an intravenous liquid into the patient during the cardiac surgery; monitoring a rate or amount of urine output of the patient during the cardiac surgery, and automatically adjusting a rate or amount of the intravenous liquid infused into the patient to achieve or exceed a target urine output during the cardiac surgery.