Disclosed herein are improved methods and apparatuses for providing hemostasis within a cavity defined by an internal surface of a bleeding tissue space. A catheter comprising a proximal end and a distal end may be advanced into the cavity through a proximal opening of the tissue space into the cavity. A distal balloon coupled to the catheter may be expanded, and the catheter tensioned to apply pressure to the internal surface of the tissue space to inhibit bleeding of the tissue space.

A ready-to-use urinary catheter assembly (20) includes a catheter (26) comprising a shaft (28) having a proximal insertion end (30) and a distal end (32) spaced from the proximal insertion end. The assembly also includes a protective sleeve (54) including a protective sleeve tip (36) being configured to cover the proximal insertion end of the catheter shaft as the proximal insertion end of the catheter shaft is inserted into a distal portion of the urethra. The proximal insertion end (30) of the catheter shaft (28) is advanced proximally to rupture the protective sleeve tip (36) and to be advanced through the remainder of the urethra.

A method for insertion, maintenance, and removal of urethral catheters in mammals including humans includes steps for preventing or reducing the incidence of catheter associated urinary tract infections. In addition to sterile procedures currently practiced or as may be practiced in the future in connection with catheter use, the method includes the steps of applying an antiseptic, zwitterionic, and acidic skincare solution capable of preserving the stratum corneum to the perineum, meatus, and contiguous mucosa surrounding the insertion site before insertion, after insertion, periodically during the period of indwelling, in connection with any incidence of incontinence, and, optionally, before and after removal of the catheter. Application of the solution optionally is continued after catheter removal on a periodic basis until the threat of an infection associated with catheter use has passed, typically at least about five (5) to seven (7) days and up to thirty (30) days. The solution pH is desirably from about 4.4 to 5.5.

Drug delivery devices are provided in which much of a drug payload within the device remains within an area proximal to a wall of the device through which the drug must pass for release of the drug from the device into a patient. In one case, the device may include a drug reservoir portion which has a drug reservoir lumen bounded by a reservoir wall having an inner surface; a drug located in the drug reservoir lumen; and a core region which does not comprise the drug, wherein the drug is disposed between the inner surface of the reservoir wall and the core region. The device may be elastically deformable between a first shape suited for insertion through a lumen into a body cavity of the patient and a second shape suited to retain the device within the body cavity.

Disclosed herein are improved methods and apparatuses for providing hemostasis within a cavity defined by an internal surface of a bleeding tissue space. A catheter comprising a proximal end and a distal end may be advanced into the cavity through a proximal opening of the tissue space into the cavity. A distal balloon coupled to the catheter may be positioned adjacent a distal opening of the tissue space, and expanded to seal the distal opening. A hemostatic agent may be applied from the catheter to the internal surface of the tissue space to inhibit bleeding of the tissue space. The hemostatic agent may be applied without occluding the proximal opening, the distal opening, and a path extending therebetween with the hemostatic agent.

Disclosed herein are improved methods and apparatuses for providing hemostasis within a cavity defined by an internal surface of a bleeding tissue space. A catheter comprising a proximal end and a distal end may be advanced into the cavity through a proximal opening of the tissue space into the cavity. A distal balloon coupled to the catheter may be positioned adjacent a distal opening of the tissue space, and expanded to seal the distal opening. A hemostatic agent may be applied from the catheter to the internal surface of the tissue space to inhibit bleeding of the tissue space. The hemostatic agent may be applied without occluding the proximal opening, the distal opening, and a path extending therebetween with the hemostatic agent.

Disclosed herein are improved methods and apparatuses for providing hemostasis within a cavity defined by an internal surface of a bleeding tissue space. A catheter comprising a proximal end and a distal end may be advanced into the cavity through a proximal opening of the tissue space into the cavity. A distal balloon coupled to the catheter may be positioned adjacent a distal opening of the tissue space, and expanded to seal the distal opening. A hemostatic agent may be applied from the catheter to the internal surface of the tissue space to inhibit bleeding of the tissue space. The hemostatic agent may be applied without occluding the proximal opening, the distal opening, and a path extending therebetween with the hemostatic agent.

Disclosed herein are improved methods and apparatuses for providing hemostasis within a cavity defined by an internal surface of a bleeding tissue space. A catheter comprising a proximal end and a distal end may be advanced into the cavity through a proximal opening of the tissue space into the cavity. A distal balloon coupled to the catheter may be expanded, and the catheter tensioned to apply pressure to the internal surface of the tissue space to inhibit bleeding of the tissue space.

Disclosed herein are improved methods and apparatuses for providing hemostasis within a cavity defined by an internal surface of a bleeding tissue space. A catheter comprising a proximal end and a distal end may be advanced into the cavity through a proximal opening of the tissue space into the cavity. A distal balloon coupled to the catheter may be positioned adjacent a distal opening of the tissue space, and expanded to seal the distal opening. A hemostatic agent may be applied from the catheter to the internal surface of the tissue space to inhibit bleeding of the tissue space. The hemostatic agent may be applied without occluding the proximal opening, the distal opening, and a path extending therebetween with the hemostatic agent.

A catheter including a tube with a coupling assembly at one end. The coupling assembly has an interior volume within which a ball is capture between a seat and a retainer. When fluid flows through the catheter in a first directed the fluid flows around the ball and exits through a port. When fluid starts to back-flow in a second direction the ball seals against the seat preventing flow in the second direction.