A diffuser for use with a wound retractor and configured to deliver gases includes an interface tube for connecting to a gases supply and a diffuser interface positioned at a proximal end of the interface tube, the diffuser interface configured for delivering gases received from the gases supply through the interface tube, and the diffuser interface comprising a diffusion mechanism configured to deliver gases in a diffusion direction. A wound retractor with an integrated diffuser is also disclosed. The wound retractor includes an upper ring, a lower ring, a sleeve extending between and connecting the upper ring to the lower ring, and an integrated diffuser interface having a gases inlet and a diffusion mechanism.

The present disclosure provides apparatus and method for treating tension pneumothorax by using a rapid deployment chest port. The rapid deployment chest port can penetrate a patient's body to access a distressed pleural space. The rapid deployment chest port may create an airtight seal between the inside and outside of the patient's body and, when expanded, allow air or fluid to flow in one direction from inside the body to outside the body.

A radially expandable trocar, port or cannula system is provided for use in minimally invasive surgeries. The cannula creates a port access with an initial small internal diameter. The passage of the cannula devices is defined by a plurality of elongate rigid members. A number of mechanisms are provided for expanding the passage of the cannula devices, by moving the plurality of elongate rigid members towards a larger radial location, thereby creating a larger internal diameter for the port. The elongate rigid members can be prevented from unintended movement when the system is at the un-expanded state, during expansion and when it is expanded to the desired larger diameter. Exemplary embodiments include methods of preventing gas loss from the tissue that would occur through the gaps created during expansion.

A surgical access assembly includes an instrument valve housing defining a cavity, and a seal assembly disposed within the cavity of the instrument valve housing. The seal assembly includes a flange seal member and a centering mechanism. The flange seal member includes an annular member, a flange portion extending from the annular member, and a seal portion supported by the annular member and defining an opening dimensioned to receive a surgical instrument in a sealing relation. The flange portion includes first and second arcuate portions adjustably engaging the instrument valve housing in a sealing relation. The first and second arcuate portions have a parabolic profile. The centering mechanism maintains the seal assembly centered within the cavity of the instrument valve housing.

A surgical access device has a cannula tube with a collar coupled to a proximal region of the cannula tube. A balloon is attached to the cannula tube. The collar includes a receptacle and an inflater is insertable into the receptacle. The inflater has a body with a chamber and a first compound. A cap is attached to one end of the body and has a cavity containing a second compound. A membrane is disposed between the body and the cap and is configured to keep the first and second compounds separate. A button extends through an opening of the cap and a piston is coupled to the button. The piston includes a spike extending away from the button and is translatable in the cap between a rest position and an actuated position. The actuated position is defined by a portion of the spike penetrating the membrane such that the first compound interacts with the second compound generating a gas that is communicated to the balloon via a groove of the cannula tube.

Access assemblies include an instrument valve housing and a valve assembly disposed within the instrument valve housing. The valve assembly includes a guard assembly, and a seal assembly disposed adjacent the guard assembly. The seal assembly includes a plurality of seal segments defining a substantially hexagonal body. Each seal segment of the plurality of seal segments includes a base portion and a seal portion extending from the base portion. Each base portion including an outer edge formed of three segments. Each seal segment of the plurality of seal segments is disposed relative to an adjacent seal segment of the plurality of seal segments such that two of the three segments of the outer edge of the respective seal segments align with each other. The valve assembly also includes a centering mechanism for biasing the seal assembly and guard assembly towards a center of the cavity of the instrument valve.

A system of devices for treating an artery includes an arterial access sheath adapted to introduce an interventional catheter into an artery and an elongated dilator positionable within the internal lumen of the sheath body. The system also includes a catheter formed of an elongated catheter body sized and shaped to be introduced via a carotid artery access site into a common carotid artery through the internal lumen of the arterial access sheath. The catheter has an overall length and a distal most section length such that the distal most section can be positioned in an intracranial artery and at least a portion of the proximal most section is positioned in the common carotid artery during use.

A surgical access assembly includes a cannula including an elongated shaft having a proximal end portion including an anchor inflation port and a distal end portion including an expandable anchor. The elongated shaft includes an inner tube and an outer tube disposed over the inner tube. The inner tube includes at least one groove defined in an outer surface thereof that forms an inflation channel with an inner surface of the outer tube. The inflation channel is in communication with the anchor inflation port and the expandable anchor.

Methods and devices described herein facilitate diaphragm entry for posterior access of body organs.

Methods and devices described herein facilitate diaphragm entry for posterior access of body organs.