Abstract: One aspect provides a multiple access body uniport for performing single site surgery on a body that comprises a one-piece body anchor defined by a longitudinal length and an uppermost surface and a lowermost surface. The uniport includes at least two surgical instrument passageways located through the one-piece body anchor and terminate at an entrance aperture on the uppermost surface and at an exit aperture on the lowermost surface, and also includes at least a third surgical instrument passageway located through the one-piece body anchor and having an elongated access opening extending across a portion of the uppermost surface and having an exit aperture on the lowermost surface.

Abstract: An access port is disclosed for use in minimally invasive surgical procedures performed within a patient's abdominal cavity, which includes a body defining a bore configured to guide at least one surgical instrument into the abdominal cavity, and concave and convex anchoring regions for securing the access port relative to the abdominal cavity.

Abstract: A single body port or body flange access device having an oval shape and associated stabilizer anchor for performing laparoscopic surgery is disclosed. The device is slipped into the body anchor stabilizer first so that the anchor stabilizer lifts up fat and peritoneum inside the body thereby keeping the operating area clear and acting to hold the body flange in place. The device further has a plurality of crisscrossing conduits assuming the shape of a cone through which surgical instruments may be inserted. The instruments are manipulated so that triangulation is obtained using one patient body flange while standard surgical procedures are performed on the patient. Due the oval shape of the device, the device minimally rotates while instruments are manipulated.