A catheter system may include a catheter hub, a catheter tube, a needle carrier, a needle extending distally from the needle carrier and through the catheter tube, a guidewire slider, and a guidewire extending distally from the guidewire slider. The guidewire slider may be configured to couple to the needle carrier in response to sliding of the guidewire slider. The catheter system may include a safety slider configured to slide with the guidewire slider from a proximal position to a distal position. In response to the guidewire slider and the safety slider sliding together from the proximal position to the distal position, the safety slider may be configured to couple to a proximal end of the needle carrier. In response to rotation of an additional slider into a cutout tab of a housing, the guidewire slider may be configured to uncouple from the additional slider.

A coupling system is disclosed for connecting a tube set to a trocar that includes a multi-lumen trocar having a housing that has a connector extending outwardly from the housing, the connector having a plurality of coaxial flow passages defined therein by a plurality of concentric annular walls, a multi-lumen tube set including a plurality of tubes arranged in a parallel relationship, a coupling including a generally cylindrical body having a first end portion adapted and configured to selectively mate with the coaxial flow passages of the connector of the trocar and a second end portion adapted and configured for attachment to the parallel tubes of the tube set, and a latch assembly operatively associated with the cylindrical body of the coupling for selectively engaging the connector of the trocar housing when the coupling mates with the connector.

A catheter connector for fluidly connecting a catheter to a receptacle, the catheter connector comprising two body portions, one body portion for attachment to the catheter and the other body portion for attachment to the receptacle, the connector providing a fluidly open passage from the catheter to the receptacle when the first body portion is coupled to the second body portion, each body portion automatically fluidly closing off the respective catheter and receptacle when disengaged from the other body portion.

The disclosure generally relates to adjustable sheath devices for insertion into the body to provide intravascular access to various medical devices, involving a dynamically expandable sheath capable of expanding within the blood vessel when a medical device is passed through the sheath and retracting back to almost its original size when the medical device is removed from the sheath. Embodiments generally comprise a rigid collar and an elongated sleeve comprising a continuous elastomeric outer layer and an expandable inner layer.

A system can include a needle that includes a distal tip configured to be inserted into a vessel of a patient, the needle defining an outer surface. The system can further include a catheter that includes a distal end and an inner surface that defines a lumen within which a portion of the needle is positioned, the distal tip of the needle being at a position that is distal to the distal end of the catheter, the catheter further comprising a catching region of reduced diameter that extends inwardly at the distal end of the catheter. The system can include a longitudinally extending stiffener positioned between the outer surface of the needle and the inner surface of the catheter, the stiffener including a distal end that engages the catching region of the catheter when the catheter and the stiffener are inserted distally into the vessel of the patient over the needle, the stiffener being configured to disengage from the catheter and translate proximally relative thereto to leave the catheter positioned within the vessel of the patient as the stiffener is withdrawn from the catheter in a proximal direction.

The subject invention is directed to a new and useful coupling system for connecting a tube set to a trocar. More particularly, the system includes a trocar connector having no more than two coaxial flow passages formed therein including an inner flow passage and an outer flow passage. The inner flow passage is defined by an inner annular wall and the outer flow passage is defined between the inner annular wall and an outer annular wall. A dual lumen tube set is included with a first tube having a first diameter and a second tube having a second diameter that is greater than the diameter of the first tube. The system further includes a coupling including a generally cylindrical body having a first end portion configured to mate with the two coaxial flow passages of the trocar connector and a second end portion configured for attachment to the two tubes of the dual lumen tube set.

A system can include a handle and a needle fixedly secured to the handle. The needle can include a distal tip that can be inserted through a sidewall of a vessel of a patient. The system can further include a catheter that defines a lumen through which the needle extends and includes an engagement surface at an interior thereof. A stiffener can be positioned within the lumen of the catheter at an exterior of the needle and can include an engagement surface that can press distally on the engagement surface of the catheter to advance the catheter distally over the needle and through a lumen of the vessel when the stiffener is advanced distally over the needle. The system can further include a stiffener hub attached to the stiffener, the stiffener hub being movably coupled with the handle so as to translate relative thereto. The stiffener hub can be configured to move distally relative to the handle from a retracted position to a deployed position to advance the stiffener and the catheter over the needle and to a target depth within the lumen of the vessel as the handle is held stationary relative to the vessel.

A catheter manufacturing method includes positioning a shaft in a cavity of a mold. The shaft is an elongated tubular body configured to be inserted into a living body. The mold includes a first mold die and a second mold die that contact one another to define a closed space which is the cavity. The method includes injecting a molding material into the cavity from a gate at a position between the proximal end and the distal end of the shaft in the axial direction. The injecting position is offset from the center of the shaft in the transverse direction. The method includes molding a hub onto the shaft by solidifying the injected molding material in the cavity onto the outer surface of the shaft.

A device for the detection of endovascular pressure of a fluid in a vessel detects through an air column which inside capillary ducts, is in contact with endovascular fluid which exerts its pressure thereon, by separating such air column from outside in each process phase, and then prevents that the fluid from being polluted or infected thereby, and including a connector with a valve, which defines a connection terminal cavity arranged outside a needle-holding element and is in fluid communication with the capillary ducts through a duct extending from the needle-holding element to the connector; and a re-usable element including a pressure sensor and connector to connect to the connector at the terminal cavity of the disposable portion, which receives the pressure sensor, with the terminal cavity, the opening of the valve being determined by the connection between the re-usable element and the disposable portion.

A connector device includes a connector. An electrical lead wire is positioned in the connector. The electrical lead wire is configured to provide communication between the connector device and an external device. In certain embodiments, the electrical lead wire includes a contact point on a surface of the connector for electrically coupling the connector device to the external device. In addition to or as an alternative to the electrical lead wire, the connector device may include an optical coupling or channel in the connector configured for optical light transmission between the connector device and the external device.