Abstract: Traction means (14) for excising a tissue sample comprising a distal portion (14a), comprising at least one clip (20) suitable for being fixed to at least one portion (12) of tissue to be excised and a proximal portion (14b) suitable for being subjected to traction. Said at least one clip (20) is suitable for being connected to a distal end (22a) of a suture (22) to pull the tissue to be excised, said suture (22) extending between said distal end (22a) and a proximal end corresponding to the proximal portion of said traction means (14). Moreover, said at least one clip (20) is connected to a ring (24) formed at a distal end (24a) of said suture (22) to pull the tissue to be excised.

Abstract: A delivery device for delivering a plurality of individual surgical fasteners. The delivery device includes a drive mechanism having distal and proximal ends. The drive mechanism has a moving member and a fixed opposing member, wherein the moving member is moveable proximally and distally with respect to the delivery device. The moving member has a sharpened distal end for piercing tissue. The device includes at least one surgical fastener located between the first and the second members. Each of the at least one surgical fasteners has a proximal end and a distal end. The device also has an actuator having at least two sequential positions. A first position for moving the moving member distally and piercing tissue, and a second position for moving the moving member proximally, thereby deploying the distal end of the fastener.

Abstract: In a rectally insertable surgical system (1), a sleeve device (2) having a proximal end and a distal end (16) is open at its proximal end and has a window area (20) longitudinally extending on one side of the sleeve device (2) up to its distal end region. A shield (4) is adapted to slide along the sleeve device (2) to at least partially close the window area (20). The sleeve device (2) including the shield (4) is insertable into an anus dilator ring (6).

Abstract: An anastomotic device, particularly a circular stapler (10), comprises a handle (12) and a stem (14). A channel suitable to receive a guide wire at least partially develops along the length of the stapler. The stem (14) is made of a flexible material, such as to facilitate reaching the site requiring anastomosis. The circular stapler (10) comprises an anvil (16) suitable to be introduced on the free end of the stem (14). The anvil (16) comprises a channel (22) suitable to receive a guide wire (66) and extending along the anvil, and a portion (20) suitable to act as a striker against the wall of one of the portions (A; B) of the tissues to be joined.

Abstract: A delivery device for delivering a plurality of individual surgical fasteners. The delivery device includes a drive mechanism having distal and proximal ends. The drive mechanism has a moving member and a fixed opposing member, wherein the moving member is moveable proximally and distally with respect to the delivery device. The moving member has a sharpened distal end for piercing tissue. The device includes at least one surgical fastener located between the first and the second members. Each of the at least one surgical fasteners has a proximal end and a distal end. The device also has an actuator having at least two sequential positions. A first position for moving the moving member distally and piercing tissue, and a second position for moving the moving member proximally, thereby deploying the distal end of the fastener.

Abstract: An anastomotic device, particularly a positioning device (24) extending along a longitudinal axis (30) comprises a first component, or proximal component (26) and a second component, or distal component (28). The proximal and distal components are suitable to lock an elastic ring (52) in a deformed configuration therebetween. The proximal component (26) has a substantially cylindrical outer structure with a cavity (32) for receiving a proximal end (52a) of the elastic ring (52). The distal component (28) comprises a head (42) and a stem (44) developing along the longitudinal axis (30). The head (42) has a cone or truncated-cone shape.

Abstract: An electrosurgical stapling instrument includes an end effector capable of applying bipolar RF energy into tissue. The end effector has a first pole electrode and a second pole electrode for forming an RF contact circuit with tissue. At least one of the electrodes may have a dielectric coating thereon to create a RF circuit with tissue. The dielectric coating can cover one of the electrodes to create a capacitive coupling circuit with tissue, or can have at least one open passageway extending through the dielectric coating to enable tissue contact with the electrode and the passage of RF energy therethrough. The dielectric coating on the electrode can be masked to create passageways through the dielectric, or the dielectric coating can be locally removed with a variety of techniques to form passageways. The dielectric coating may provide a barrier to prevent shorting between the dielectrically coated electrode and a conductive fastener embedded within tissue.

Abstract: A method for delivering a plurality of individual surgical fasteners. The method includes the step of providing a surgical fastener delivery device having a drive mechanism with distal and proximal ends, the drive mechanism comprising moving and fixed opposing members, the moving member being moveable proximally and distally with respect to the delivery device, and the fixed member being fixed with respect to the delivery device, the device having the plurality of surgical fasteners located between the moving and the fixed members. The method further involves the step of penetrating tissue and placing a distal end one of the surgical fasteners within tissue, by moving the moving member distally. The method further involves the step of deploying a distal end of one of the surgical fasteners by moving the moving member proximally.

Abstract: A method for delivering a plurality of individual surgical fasteners. The method includes the step of providing a surgical fastener delivery device having a drive mechanism with distal and proximal ends, the drive mechanism comprising moving and fixed opposing members, the moving member being moveable proximally and distally with respect to the delivery device, and the fixed member being fixed with respect to the delivery device, the device having the plurality of surgical fasteners located between the moving and the fixed members. The method further involves the step of penetrating tissue and placing a distal end one of the surgical fasteners within tissue, by moving the moving member distally. The method further involves the step of deploying a distal end of one of the surgical fasteners by moving the moving member proximally.

Abstract: A delivery device for delivering a plurality of individual surgical fasteners. The delivery device includes a drive mechanism having distal and proximal ends. The drive mechanism has a moving member and a fixed opposing member, wherein the moving member is moveable proximally and distally with respect to the delivery device. The moving member has a sharpened distal end for piercing tissue. The device includes at least one surgical fastener located between the first and the second members. Each of the at least one surgical fasteners has a proximal end and a distal end. The device also has an actuator having at least two sequential positions. A first position for moving the moving member distally and piercing tissue, and a second position for moving the moving member proximally, thereby deploying the distal end of the fastener.

Abstract: An electrosurgical instrument includes a housing and a first connector in the housing for receiving electrical energy. A shaft assembly is movably connected to the housing. The shaft assembly also includes at least one electrode at a distal end of the shaft assembly as well as at least one conductive portion for passing the electrical energy to the electrode. A spring is positioned between the shaft assembly and the housing for biasing the shaft assembly a distance away from the first connector. The distance defines a pre-determined gap between the first connector and the shaft assembly. The shaft assembly is proximally movable in the housing upon an application of force at the shaft assembly distal end for compressing the spring such that the conductive portion traverses the predetermined gap such that electrical energy is passed from the first connector to the electrode through the conductive portion.

Abstract: An electrosurgical instrument is provided for cauterization and/or welding of tissue of varying impedances, thicknesses and vascularity especially in the performance of endoscopic procedures. The instrument compresses the tissue between one pole of a bipolar energy source located on one interfacing surface, and a second interfacing surface. A second pole is located one of the two interfacing surfaces. In a preferred embodiment, the second pole is located on the same interfacing surface as the first pole and an insulator electrically isolates the two poles. A preferred application of the invention is in a cutting instrument wherein a hemostatic line is formed along a cut line using RF energy.

Abstract: An surgical stapling instrument is provided which uses a thermogenic energy preferably bipolar radiofrequency energy for cauterization and/or welding tissue. The instrument compresses tissue between one pole of a bipolar energy sources contained on a first interfacing surface and a second pole of a bipolar energy source contained on a second interfacing surface. Staples and thermogenic energy are applied to the compressed tissue. In a preferred embodiment a cutting element for cutting tissue is incorporated into the instrument.

Abstract: An electrosurgical instrument is provided for cauterization and/or welding of tissue of varying impedances, thicknesses and vascularity especially in the performance of endoscopic procedures. The instrument compresses the tissue in the compression zone between first interfacing surface and second interfacing surfaces. The compression zone is formed by an insulator which forms a compression ridge in one of the interfacing surfaces and separates first and second electrically opposite electrodes. A preferred application of the invention is in a cutting instrument wherein a hemostatic line is formed using RF along a cut line.

Abstract: A bipolar electrosurgical tool comprises a retractable cutting element movable along a cutting path and an electrical energy supply source which communicates electrical energy (e.g., radio frequency energy) through one or more energy delivering electrodes associated with a tissue affecting portion of the tool to tissue adjacent the electrodes. One or more additional electrodes, such as return electrodes, form a second pole of the bipolar electrical connection are also associated with the tissue affecting portion and are electrically isolated from the energy delivering electrode. Various combinations of electrically conductive and electrically isolated elements associated with the tissue affecting portion of the device can be used as the two poles of the bipolar system.

Abstract: An electrosurgical instrument is provided for cauterization and/or welding of tissue of varying impedances, thicknesses and vascularity especially in the performance of endoscopic procedures. The instrument compresses the tissue between one pole of a bipolar energy source located on one interfacing surface, and a second interfacing surface. A second pole is located one of the two interfacing surfaces. In a preferred embodiment, the second pole is located on the same interfacing surface as the first pole and an insulator electrically isolates the two poles. A preferred application of the invention is in a cutting instrument wherein a hemostatic line is formed along a cut line using RF energy.