The invention provides a novel prostate dilation catheter, which comprises a main tube, wherein a urinary catheterization cavity, an internal capsule cavity, an external capsule cavity and a flushing cavity are provided inside the main tube, a composite bar-like high pressure water capsule is arranged in front portions of an outlet of the urinary catheterization cavity and an outlet of the flushing cavity, the composite bar-like high pressure water capsule comprises an internal capsule and an external capsule, the internal capsule is arranged inside the outer capsule and at a front end of the outer capsule, and the front ends of the internal capsule cavity and the external capsule cavity are formed with openings which are located inside the internal capsule and the external capsule respectively. Utilization of such structure makes the catheter will automatically move towards the inside of bladder after a bladder neck is dilated, so as to remove compression on an external sphincter to prevent occurrence of urinary incontinence; and in addition, it is more conducive to preoperative localization and postoperative fixation of the catheter, and can avoid bladder spasm caused by postoperative compression of the catheter on crypt.

A catheter insertable into a patient for monitoring pressure having an expandable outer balloon. An expandable inner balloon is positioned within the lumen of the catheter and has having a second outer wall and forms a gas chamber to monitor pressure within the patient. In response to pressure exerted on the outer wall of the outer balloon, fluid within the outer balloon enters an opening in the wall of the catheter lumen to exert a pressure on the outer wall of the expanded inner balloon to deform the inner balloon and compress the gas within the inner balloon. A pressure sensor communicates with the gas containing chamber for measuring pressure based on compression of gas caused by deformation of the expanded inner balloon resulting from deformation of the expanded outer balloon.

Disclosed is an expandable transluminal sheath, for introduction into the body while in a first, low cross-sectional area configuration, and subsequent expansion of at least a part of the distal end of the sheath to a second, enlarged cross-sectional configuration. The sheath is configured for use in the vascular system and has utility in the performance of procedures in the left atrium. The access route is through the inferior vena cava to the right atrium, where a trans-septal puncture, followed by advancement of the catheter is completed. The distal end of the sheath is maintained in the first, low cross-sectional configuration during advancement to the right atrium and through the atrial septum into the left atrium. The distal end of the sheath is subsequently expanded using a radial dilatation device.

An occlusion balloon device includes a shaft comprising at least one inflation lumen and an inflatable balloon, the inflatable balloon having a plurality of independently inflatable and deflatable balloon portions and being in communication with the at least one inflation lumen. A method and a system comprising the occlusion balloon device enable assessment and treatment of a perforation in a vessel of a patient.

Drug delivery systems and methods are disclosed herein. In some embodiments, a drug delivery system can be configured to deliver a drug to a patient in coordination with a physiological parameter of the patient (e.g., the patient’s natural cerebrospinal fluid (CSF) pulsation or the patient’s heart or respiration rate). In some embodiments, a drug delivery system can be configured to use a combination of infusion and aspiration to control delivery of a drug to a patient. Catheters, controllers, and other components for use in the above systems are also disclosed, as are various methods of using such systems.

The described invention provides endovascular devices that share the following general features: a working segment, a support segment, a working lumen, a support lumen, a side hole, and an angled extension. A described endovascular device includes an outer support catheter and an inner catheter with a side hole optionally containing an angled extension disposed at least partially within the lumen defined by the outer support catheter. The inner catheter can be connected to sets of grips on the outer catheter and the inner catheter, which are used by the operator to rotate one catheter relative to the other so as to position the side hole or the angled extension of the inner catheter in the targeted vessel. A radiopaque marker or intravascular ultrasound can be used to identify the position of the distal side hole in vivo. In some devices, the distal segment beyond the side hole (the support segment) for each of the described devices is effective to provide stability to each endovascular device, to provide strength to the endovascular device, to provide support for the endovascular device, to facilitate placement of the endovascular device, to anchor the endovascular device within a blood vessel, to reduce kickback of the endovascular device, or a combination thereof. The endovascular devices described can include additional support elements, for example, a balloon, a stent, a wire, or a combination thereof. The described selectively inflatable balloon is of two dimensions, a diameter and a length, sized to fit within the diameter of a vessel, for positioning the endovascular device. It may be disposed in a circumferential array of selectively inflatable balloons, as a single distal inflatable balloon or both. The circumferential array of selectively inflatable balloons is effective to position the endovascular device within a target blood vessel. The single distal balloon is effective to anchor the endovascular device within a target blood vessel. Each inflatable balloon can be selectively filled with a fluid, e.g., sterile water and saline.

Several embodiments of a catheter are described, having a balloon configured to slowly inflate and then quickly deflate to create an area of low pressure in the vessels. The balloon can be cycled near the vessels of the kidneys, thereby helping to draw out blood from the kidneys and enhance fluid processing to the bladder.

The disclosure provides for an adjustable catheter system with isovolumetric suction and restoration of fluid for the removal of a thrombus and a method of use thereof. The catheter system includes an inner catheter and an outer sheath surrounding at least a portion of the inner catheter. The inner catheter may include at least three lumina extending from the proximal end to the distal end of the inner catheter, at least one infusion fenestration along the infusion segment, and a distal encapsulation balloon at the distal end. The outer sheath may include at least three lumina extending from the proximal end to the distal end of the outer sheath and a proximal encapsulation balloon at the distal end. The catheter system may further include an agitator for mechanical morcellation of the thrombus.

An irrigation balloon catheter includes one or more inner balloons inside of an irrigation balloon. The inner balloon(s) can be compliant with a volume that is dynamically adjustable for rapid inflation, rapid deflation, complete deflation, and/or irrigation flow adjustment. An inflator tool can be configured to inflate or deflate the inner balloon to adjust flow from the outer, irrigation balloon to affect temperature at electrodes of the irrigation balloon.

A catheter (1) and vein repair method that enables vein repair surgeries without any bleeding and without hindering blood flow in veins through bypassing the blood flow in the vein to be operated and by preventing any diseases arisen due to stop of blood flow of the organ fed by the associated vein and that sustains blood flow by means of vein bypass in the course of vascular surgeries implemented for surgical processes related to veins in human body and that comprises one balloon (3) on each point close to its both ends, protective layer (4) positioned on the balloons (3); second path (5) enabling deflation inflation of the balloons (3), having monolithic pipe shape adhered to the first path (2) side by side, whose one open end terminates within the balloon (3); check valve apparatus (7) that is monolithic with back end of the second path (5) and provides substances such as air and liquid with the injector for inflation deflation of the balloon (3); protective segment (6) surrounding externally the first path (2) and second path (5), thus preventing their blockage when compressed, that may have various lengths from back end of the balloon (3) to the backside of the catheter (1), that is monolithic along with the first path (2) and the second path (5); cover (8) that prevents the catheter apparatus (1) going out of the vein or its movement, that is located on body side of the catheter apparatus (1), positioned on back of the balloon (3), that can be moved over the catheter apparatus (1) as it is wider than body of the catheter apparatus (1), that has flexible structure having both ends open, that can have the shape of funnel or circle or ellipsis or different shapes; clamping apparatus (9) used to fix the cover on its relevant location; at least one third path (10) in the shape of pipe with both ends open, whose one end is positioned within first path (2), other end is located out of first path (2) and used to draw the liquid or air; connection apparatus (11) that is integrated with outer back end of third path (10) and that enables connection with the external injector and the catheters.