A method of suturing an abdominal cavity includes inserting a spool of suture in the abdominal cavity. The method also includes capturing a first portion of the suture and removing the first portion from the abdominal cavity. The method also includes capturing a second portion of the suture and removing the second portion from the abdominal cavity. The method also includes tying the first portion to the second portion outside of the abdominal cavity.

A system to facilitate sealing a puncture of a vessel includes an implant having first and second expandable sections, and a delivery device that includes an inner tube and a circumscribing outer tube. The outer tube defines a first lumen configured to retain the implant, and a second lumen configured to channel fluid from the vessel through a distal opening proximal to the implant. A pusher circumscribed at least partially by the outer tube is configured to compress the implant to selectively expand the first and second expandable sections. The outer tube is selectively retractable relative to the inner tube such that the first expandable section remains substantially within the first lumen and the second expandable section is positioned outside of the first lumen. The outer tube is further selectively retractable relative to the inner tube such that the first expandable section is positioned outside of the first lumen.

Aspects herein relate to a medical device for providing a leak-resistant seal for use in a vascular access device. In various embodiments, a device for vascular access hemostasis is included. The device can include an enclosure configured to at least partially receive a medical device, the enclosure defining a cavity. The enclosure can have a first seal portion and a second seal portion, the cavity disposed between the first seal portion and the second seal portion. The enclosure can include the second seal portion comprising a split, septum seal. The enclosure can include a barrel in structural communication with the second seal portion. The device can include a constriction ring disposed around the barrel, the constriction ring interfacing with the second seal portion to limit movement of the split, septum seal.

Aspects of the present disclosure include a simulated wound apparatus allowing a wearer to simulate injuries for purposes of casualty simulation and medical response training. Aspects of the present disclosure are directed towards a wearable medical training device and more specifically a device for training of hemorrhage control procedures on junctional bleeding. The present disclosure, when used by a live actor, may allow users to safely simulate hemorrhaging in some of the most challenging blood vessels in the most challenging anatomical locations such as the carotid artery, the axillary artery, and the femoral artery. The present disclosure may further provide the ability for users to safely perform hemorrhage control procedures, such as compression and ligation. The simulated wound of the present disclosure may be compressed to control hemorrhage. The simulated wound receptacle of the present disclosure may be packed with hemostatic or simple gauze to control hemorrhage. The simulated blood vessel of the device may be ligated with hemostats or other ligating instruments or material and bandaged with pressure dressings to control hemorrhage.

A surgical closure apparatus includes an outer member dimensioned for positioning within a wound opening, a needle assembly at least partially positioned within the outer member and a suture configured for at least partially closing the wound opening within the tissue. The needle assembly includes an elongate member defining a longitudinal opening, a suture needle coupled to the elongate member and extending to a needlepoint and being configured for movement between an unarmed condition where the needlepoint is in a relative radial inward position and an armed condition where the needlepoint is in a relative radial outward position and a deployment member extending at least partially through the longitudinal opening of the elongate member and coupled to the suture needle. The deployment member is movable within the longitudinal opening to permit the suture needle to move between the unarmed condition and the armed condition.

Techniques are described for closure of a defect in material, such as closure of a laparoscopic surgical defect. A defect closure device can be inserted into the defect to capture first material adjacent to the defect. The device houses at least first and second suture pins coupled together by a suture. A first interaction with a trigger structure can force the first suture pin through the captured first material and into a containment sub-assembly. After rotating the device to capture second material adjacent to the defect, a second interaction with the trigger structure can force the second suture pin through the captured second material and into the containment sub-assembly. As such, the suture is passed through the first and second portions of the material, and the ends of the suture can be cinched, and cut to form a stitch.

A medical insertion device includes an elongated shaft extending from a proximal end to a distal end and having flexibility sufficient for insertion through a working channel of an endoscope along a tortuous path. The elongated shaft includes a coil extending from the proximal end to the distal end and having a channel extending longitudinally therethrough and a braided portion extending around a portion of the coil, the braided portion including a plurality of lines wound together such that first and second ones of the lines intersect to enclose a predetermined angle therebetween, the angle being between 25 and 55 degrees.

Expandable occlusive plugs and methods of using them are disclosed. The devices generally include a tubular body bearing multiple slits defining leaves, which expand radially outward when the ends of the device are brought toward one another.

Implementations of a delivery device and method are disclosed. One implementation is a delivery device comprising a flow chamber with an inlet port for receiving a fluid flow in the flow chamber, and an outlet port for exiting a material from the flow chamber. The flow chamber may include a formation portion in which a suspension of the material is formed, and a collection portion that directs the suspension toward and/or into the outlet port. An amount of the material may collect in the collection portion adjacent the outlet port. The device may further comprise an insertion port for permitting insertion of the material in the flow chamber, and/or a pusher operable to move the amount of material through the outlet port. Related devices and methods also are disclosed.

A sealant delivery device includes a housing, a matrix container connected with a distal end of the housing and being moveable between closed and opened positions, and a matrix, such as a hemostatic substrate, disposed within the matrix container. The sealant delivery device includes a sealant dispensing system in fluid communication with the matrix container that is configured for dispensing a sealant onto the matrix disposed within the matrix container. An actuator is coupled with the sealant dispensing system and the matrix container. The actuator is engageable for opening the matrix container for exposing the matrix and expressing the sealant onto the matrix. A component of the matrix container may be used to press the matrix and sealant expressed onto the matrix against target tissue to control bleeding of the target tissue.