A wound retractor clamp includes an annular clamp body including a periphery configured to surround a proximal end of a wound retractor, and one or more resilient members connected to the periphery of the clamp body. The one or more resilient members deflect radially outward upon engagement of the clamp body with the wound retractor. The one or more resilient members snap onto the wound retractor and secure the clamp body to the wound protector subsequent to the engagement of the clamp body with the wound protector.

Everting balloon systems and methods for using the same are disclosed herein. The systems can be configured to access and dilate body lumen and cavities. For example, the systems can be used to dilate the cervix and access the uterine cavity. The systems can also be used to occlude the cervix. The systems can also be used to occlude the urethra.

The present disclosure relates generally to the field of medical devices. In particular, the present disclosure relates to a tissue traction device for endoscopic procedures such as tissue dissection. For example, a tissue traction device may include first and second attachment members pivotably attached by first and second swivels to opposite ends of a stretchable traction band comprising a compliant or semi-compliant material.

A tissue removal system is provided which enables optimally performing a full-thickness resection of a hollow organ while minimizing invasiveness. In this tissue removal system, a tissue pressing tool which has a tissue contacting part and which is guided into the abdominal cavity, and a resection and anastomosis device work together. The resection and anastomosis device resects and performs anastomosis of tissue positioned between a main body and an anvil part, and, when pressing the tissue to be cut to the cutting position of the resection and anastomosis device by means of the tissue contacting part, the tissue contacting part is pressed against two abutment parts of the resection and anastomosis device.

Medical devices and methods for making and using medical devices are disclosed. An example medical device may include an access valve that may be retrieved after implantation. The access valve may include a frame having a lumen, a self-expandable member extending through the lumen, and an elastic membrane extending through the lumen and a second end of the frame to releasably seal the lumen. The access valve may releasably attach to a wall of a patient and releasably seal an opening through the wall. The access valve may be attached to the wall by placing the frame adjacent the wall, extending the self-expandable member through the opening in the wall, and expanding the self-expandable member such that the self-expandable member applies a first force against the wall and a second force opposite the first force against the frame to sandwich the wall between the self-expandable member and the frame.

A tissue pressing tool includes: a shaft that extends in one direction; a tissue pressing part that is a rod-like or belt-like member having a rigidity enough to hold a shape thereof even when pressed against a tissue; and a passive bending part that is arranged between the tissue pressing part and the shaft so that the tissue pressing part is capable of bending in all direction around an axis line of the shaft so as to keep an inverted state of the tissue by the tissue pressing part pressing the tissue linearly

A tissue dissector is provided. The tissue dissector includes an introducer including a lumen extending along a length thereof and defining a longitudinal axis therethrough. The introducer configured for placement adjacent target tissue. A shaft operably coupled to the introducer is deployable from a distal end thereof and includes a proximal end for approximating the distal end of the shaft adjacent target tissue. The distal end of the shaft is movable from a non-expanded configuration to an expanded configuration for separating target tissue from neighboring tissue.

A system for performing minimally invasive procedures in a body lumen of a patient including a flexible catheter having a first lumen configured and dimensioned to receive an endoscope therethrough and a second lumen configured and dimensioned to receive a first flexible tube therethrough. The first flexible tube is movable through the second lumen and has a distal portion including a first curve extending in a first direction with respect to the longitudinal axis and a second curve extending in a second different direction with respect to the longitudinal axis. A retractor system is positioned at a distal portion of the catheter and is movable from a non-expanded insertion position to an expanded position forming an expanded cage to form a larger working space. The distal portion of the first flexible tube is movable within the expanded cage.

Described is a surgical device to retain and move an organ during surgical operations, which makes it possible to easily prepare the system for holding the organ and avoids the need both for a dedicated access trocar for exclusive use and the insertion of an operating member connected irreversibly to the surgical device. The surgical device minimises the risk of tearing and/or bleeding of the organ following the actions applied on the same organ during the surgical operation.

A surgical apparatus of the present disclosure includes a wound retractor having a specimen bag attached thereto. The wound retractor includes a proximal ring, a distal ring, and a film extending therebetween. The specimen bag is attached to the distal ring of the wound retractor. Kits of the present disclosure include the surgical apparatus and a wound guard. Where the tissue specimen to be removed from the patient is too large for passing through an incision or wound, the wound guard is introduced into a lumen of the wound retractor. Mechanical devices such as scalpels or morcellators may then be introduced into the lumen of the wound guard and manipulated adjacent the wound guard to break up the tissue specimen without damaging the specimen bag or wound retractor. Methods for using the surgical apparatus and kits of the present disclosure are also provided.