A multi-lumen catheter with coaxial geometry that provides for a tube within a tube design. The coaxial multi-lumen catheter is designed to minimize or preclude reflux incidents where liquids from one lumen can mix with the liquids from another lumen, or flow retrograde in the other lumen. The coaxial catheter geometry can provide for a secondary support from an outer lumen during infusion pressurization. For example, a fluid pressure from an outer lumen can support an inner lumen, preventing radial expansion. Alternatively a wall of the inner lumen can impinge on an outer wall to prevent further radial expansion. An outer lumen can terminate proximally of an inner lumen to provide different infusion sites along a patient's vasculature.

A catheter has a lumen body having a distal end and a proximal end. A hub is connected to the proximal end. The hub includes a luer connection and a vacuum port assembly.

A flushable catheter device has an outer tube with a first distal end opening to be introduced into a blood vessel and defining a first lumen. An inner tube is disposed in the first lumen with a second distal end opening proximally spaced from the first distal end opening and defining a second lumen. A space axially disposed between the end openings defines an outflow/inflow inhibiting portion which inhibits a flow of fluid out from the first lumen into the into the vessel as a result of a perfusion of a flushing fluid being supplied through the first lumen and into the second lumen.

An apparatus and methods for use are provided, where the apparatus includes: (a) a first catheter having a proximal end and a distal end, and wherein a distal portion of the first catheter includes a first one or more outlets, (b) a first tubular housing having a proximal end and a distal end, wherein the first tubular housing is coupled to the first catheter proximal to the at least one first outlet, (c) one or more pressure sensors coupled to the distal end of the first tubular housing, and (d) a second catheter having a proximal end and a distal end, wherein a distal portion of the second catheter includes a second one or more outlets, and wherein the distal end of the second catheter is configured to be positioned substantially within one of (i) the first catheter or (ii) a second tubular housing coupled to one or more of the first catheter and the first tubular housing, when the second catheter is in a first position.

Engagement catheter devices, systems, and methods to use the same under suctional tissue engagement. A method of the present disclosure comprises the steps of engaging a targeted tissue under suction/vacuum using an engagement catheter, delivering a substance to, into, or through the targeted tissue from within a lumen of the engagement catheter, and injecting a fluid within a different lumen of the engagement catheter to flush the catheter and target tissue area with the fluid, and subsequently suctionally removing the injected fluid from the target area and lumens of the engagement catheter.

This is in the general field of surgical instruments and is specifically a delivery catheter with a flexible, proximally-manipulated hinge or joint region. The inventive catheter may have a balloon region. The catheter may have a shaft of varying flexibility which contains several lumen. The inner, or delivery, lumen generally may be used with a guidewire to access target sites within the body via the flexible, small diameter vessels of the body. The delivery lumen may be also used for placement of occlusive materials, e.g., in an aneurysm. Inflation of the micro-balloon, located near the distal tip of the catheter, is effected using the inflation lumen. The push/pull wire lumen contains a wire, which when manipulated, flexes the catheter's distal tip. The push/pull wire tubing may have a variable thickness to aid in adjusting the degree of flexibility. Moreover, the delivery catheter may be capable of twisting in a helical or corkscrew-like manner for traversing certain vasculature. This may be accomplished by winding the push/pull wire within the catheter and fixedly attaching it. The catheter may further include an entry in the catheter wall to allow for the insertion of a guidewire; this may facilitate the rapid exchange of catheter devices as desired by the user.

A method of delivering a solution including at least one drug is provided. The method includes providing a fluid exchange catheter system which includes an inner lumen, the proximal end of which is connected to an infusion mechanism configured to control infusion of a solution that includes at least one drug, and an outer lumen, the proximal end of which is connected to an aspiration mechanism configured to control aspiration of fluid from the body. The method also includes activating the infusion mechanism to infuse the solution into the body for a first infusion time period and at a first infusion pressure, disabling the infusion mechanism to stop infusion, and activating the aspiration mechanism to aspirate fluid for a first aspiration time period and at a first aspiration pressure. Also described is a method of unblocking a fluid exchange catheter.

A catheter-based/intravascular fluid injection system with application to renal denervation includes a multiplicity of needles which expand open around a central axis to engage the wall of a blood vessel, or the wall of the left atrium, allowing the injection of a cytotoxic and/or neurotoxic solution for ablating conducting tissue, or nerve fibers around the ostium of the pulmonary vein, or circumferentially in or just beyond the outer layer of the renal artery. The expandable delivery system includes expandable components that facilitate positioning of a multiplicity of injection needles against the inside wall of a blood vessel from where they can be advanced. The system also includes means to limit and/or adjust the depth of penetration of the ablative fluid into the tissue of the wall of the targeted blood vessel.

A coaxial draining tube, particularly for chest draining systems, includes an inner tube, which has a first opening, and an outer tube, which has a second opening. The inner tube is enclosed within the outer tube and has a smaller diameter than the second opening of the outer tube. The first and second tubes are mutually coupled by way of a supporting component and include one or more holes adapted to allow the passage of air from the chest cavity to the first opening of the inner tube and one or more holes adapted to allow the passage of liquids from the chest cavity to the second opening of the outer tube. The one or more holes are provided in the portion of the coaxial draining tube that is intended to be inserted in the chest cavity of a patient.

Disclosed is an inter- and intra-catheter flow device for the management of vascular bleeding disorders that provide a liquid flow-pass between proximal and distal balloons for bridging the circulation between the upper and lower segments of a hemorrhaging artery or blood vessel, while blocking the blood flow to the hemorrhaging middle segment(s) of the artery or blood vessel between the two or more balloons. When only one balloon is inflated, these devices can create a pressure gradient between proximal or distal and middle segments of the artery or blood vessel. These devices are useful for controlling proximal artery blood pressure, preventing distal ischemia-reperfusion injury, identifying the bleeding location, controlling the bleeding, repairing and remodeling vascular structures, extending resuscitative endovascular balloon occlusion of the aorta (REBOA) use duration, and performing fluid resuscitation.