Abstract: A single port surgical method comprises inserting only a single trocar through the abdominal wall; inserting a camera into the abdominal cavity; magnetically anchoring the camera to the abdominal wall; obtaining a first instrument comprising an elongate shaft with a distal end and a proximal end connected to a first handle; passing the distal end of the first instrument through the abdominal wall independent of a trocar; attaching in vivo an end effector to the distal end of the first surgical instrument; obtaining a second instrument comprising an elongate shaft with a distal end with an end effector and a proximal end connected to a second handle; passing the distal end of the second instrument through the trocar; and manipulating tissue in the abdominal cavity with the first and second surgical instrument end effectors under visualization from the magnetically anchored camera.

Abstract: A surgical grasping device is disclosed. The surgical grasping device may comprise a clevis; a first jaw member pivotably coupled to the clevis; a second jaw member pivotably coupled to the clevis; and an actuating mechanism coupled to the clevis, the first jaw member and the second jaw member and a translating member coupled to and extending proximally from the actuating mechanism. The actuating mechanism may be configured to cause the first jaw member and the second jaw member to close in response to a first proximally directed force received via the translating member. The actuating mechanism may also be configured to cause the first jaw member and the second jaw member to open in response to a subsequent proximally directed force received via the translating member.

Abstract: Various embodiments are directed to a surgical device including an end effector. The end effector may include a first jaw member defining a first groove and a second jaw member defining a second groove. The first jaw member and the second jaw member may be selectively pivotable between an open position and a closed position. Also, the first groove and the second groove may align to form a combined helical groove when the first jaw member and the second jaw member are in the closed position. In addition, the first jaw member may define a wire opening aligned with the first groove. Further, the first jaw member may define a beveled edge directed distally and substantially parallel to a distal portion of the wire opening.

Abstract: Methods and devices are provided to assist in providing multiple devices access to a surgical site through a single port. In one exemplary embodiment an access device includes a body having a plurality of ports. The ports can include at least one primary instrument port and at least one secondary instrument port. A self-sealing passageway can be disposed between the primary and secondary instrument ports to allow communication between the two ports. As a result, a surgical instrument can be repositioned from one port to another without removing the instrument from the access device. In one embodiment a combined end effector nominal width of surgical instruments disposed in the ports can be greater than a diameter of the primary instrument port and/or a diameter of the body of the access device. Exemplary systems and methods for performing procedures using multiple devices in a single surgical opening are also provided.

Abstract: Methods and devices are provided to assist in providing multiple devices access to a surgical site through a single port. In one exemplary embodiment an access device includes a body having a plurality of ports. The ports can include at least one primary instrument port and at least one secondary instrument port. A self-sealing passageway can be disposed between the primary and secondary instrument ports to allow communication between the two ports. As a result, a surgical instrument can be repositioned from one port to another without removing the instrument from the access device. In one embodiment a combined end effector nominal width of surgical instruments disposed in the ports can be greater than a diameter of the primary instrument port and/or a diameter of the body of the access device. Exemplary systems and methods for performing procedures using multiple devices in a single surgical opening are also provided.

Abstract: Devices and systems are provided for controlling movement of a working end of a surgical device by means of a robotic system. In one embodiment, systems and devices are provided for moving an end effector on a distal end of a surgical fastening device. Movement can include rotational movement of the end effector about an axis of the shaft, articulation of the end effector relative to the shaft, and actuation of an end effector, e.g., closing, firing, and/or cutting.

Abstract: Surgical scissors devices are disclosed. The surgical scissors devices may comprise an end effector with first and second blade members. The first and second blade members may respectively comprise proximally positioned cams and distally positioned blade ends. Also, the first and second blade members may be coupled at a pivot point by a fastener held in tension along its longitudinal axis by the blade members. A reciprocating shuttle may comprise at least one pin positioned within slots defined by the respective cams of the blade members. Distally-directed motion of the shuttle may cause the first and second blade members to open and proximally-directed motion of the shuttle may cause the first and second blade members to close. Methods and apparatuses for forming the surgical scissors device are also disclosed.

Abstract: Devices and methods useful for manipulating tools at a surgical site are disclosed. In one exemplary embodiment, an accessory device is provided and can include an insertion member and a control wire. The insertion member can have a lumen for receiving a tool therethrough, such as an endoscope. The control wire can be coupled to the insertion member and have a distal portion extending distally from the insertion member and be adapted to receive and to manipulate a tool extending through the insertion member. The control wire can have a wide variety of configurations, and in certain exemplary embodiments the control wire can be slidably received in one or more control wire lumens formed through the insertion member. In use, the control wire can be manipulated, for example by axially sliding the control wire in one or more control wire lumens to control a tool.

Abstract: Devices and methods useful for delivering tools and/or materials to a surgical site are disclosed. In one embodiment, an accessory device for an endoscope is provided and can include an elongate sheath and an accessory channel. The elongate sheath can be adapted to receive an endoscope therein, and it can include a mating element extending longitudinally between proximal and distal ends thereof. The accessory channel can be adapted to receive a tool therethrough and it can also have a mating element extending between proximal and distal ends thereof and adapted to slidably mate to the mating element formed on the elongate sheath. In certain exemplary embodiments, a distal portion of the accessory channel can be adapted to derail from at least a distal portion of the elongate sheath while a proximal portion of the accessory channel remains mated to a proximal portion of the elongate sheath.

Abstract: A surgical stapling and cutting device having an elongate shaft with proximal and distal ends. The distal end of the shaft has a flexible neck extending therefrom. The device includes an end effector disposed on a proximal end of the flexible neck. The end effector includes opposed first and second jaws adapted to receive tissue therebetween. The first jaw has a staple cartridge attached thereto, wherein the staple cartridge has multiple staples disposed therein for being driven into tissue. The second jaw includes an anvil for deforming the staples. The device also includes a remotely controlled user interface coupled to the proximal end of the elongate tube. The interface is operatively associated with the flexible neck such that movement of the remotely controlled user interface is mimicked by the flexible neck.

Abstract: Various exemplary methods and devices are provided for manipulating and/or anchoring devices and body parts during surgical procedures. In one embodiment, an anchor member is provided for anchoring a device or body part to tissue, such as an internal wall of a body cavity. The device can be, for example, an endoscopic device, an accessory channel coupled to an endoscopic device, or a support member adapted to support or manipulate an organ. The anchor member can include or form an opening through which the device can be inserted. The anchor member or device can thus be manipulated relative to the tissue to control movement of and/or provide support to the device, tools inserted through the device, and/or organs grasped by the device or tools.

Abstract: A selectively positionable camera assembly for use in connection with a guide tube assembly that has a guide tube handle portion and at least one guide tube protruding therefrom. In various embodiments, the camera includes an elongated flexible camera portion that is sized to operably extend through at least one of the guide tubes of the guide tube assembly. A camera handle is operably coupled to the elongated flexible camera portion such that the handle is movably supported by at least a portion of the guide tube handle portion. At least one retainer is provided on the guide tube handle and/or the camera handle for releasably retaining the camera handle in any one of a plurality of orientations relative to the portion of the guide tube handle.

Abstract: Methods and devices are provided for controlling movement of a working end of a surgical device. In one embodiment, methods and devices are provided for moving an end effector on a distal end of a surgical fastening device. Movement can include rotational movement of the end effector about an axis of the shaft, articulation of the end effector relative to the shaft, and actuation of an end effector, e.g., closing, firing, and/or cutting. In other embodiments, a single cable actuator is provided and is movable between a first position, in which it is effective to rotate an end effector without actuating (i.e., closing and firing) the end effector, and a second position, in which it is effective to actuate the end effector without rotating the end effector. In other aspects, methods and devices are provided for moving a flexible neck formed on a distal end of an accessory channel for use with an endoscope.

Abstract: Various surgical devices, kits, and/or methods are provided herein that may be useful in performing a surgical procedure through a natural orifice. Such a surgical procedure may utilize one or more devices, kits, and/or methods to create an access port to a body cavity of a patient, to perform a specific surgical procedure, and to close the access port. In various embodiments, the specific surgical procedure may comprise a sleeve gastrectomy, a ventral hernia repair, a hybrid transgastric cholecystectomy, and/or a hybrid transgastric appendectomy.

Abstract: A surgical device comprises an ex vivo magnet and an in vivo sled magnetically attracted to the ex vivo magnet. The sled can be positioned and anchored within a patient by moving the ex vivo magnet. The sled defines a longitudinal axis. An arm extends from the sled. The arm being moveable relative the sled between a retracted position and an extended position. The arm comprises an end effector. A locking mechanism operatively connected to the arm to lock the arm in the retracted and extended positions. The mechanism may include a rack that both rotates about a pinion and translates tangentially about the pinion.

Abstract: A laparoscopic surgical method comprises obtaining a first instrument comprising an elongate shaft with a distal end and a proximal end connected to a first handle. The distal end of the first instrument is passed through a percutaneous incision. A surgical end effector is obtained having a distal end with operable jaws and a proximal end selectively attachable to and detachable from the distal end of the first instrument. A second instrument is obtained comprising a distal end and a proximal end connected to a second handle. The surgical end effector is loaded ex vivo on the distal end of the second instrument. The distal end of the second instrument with the loaded surgical end effector is passed through a second incision spaced from the percutaneous incision. The proximal end of the surgical end effector is attached in vivo to the distal end of the first instrument. Tissue is manipulated by actuating the handle of the first instrument to operate the jaws of the surgical end effector.

Abstract: A laparoscopic surgical device comprises an elongate shaft defining a longitudinal axis, the shaft comprising a distal end and a proximal end. A plurality of arms project distally from the distal end of the elongate shaft, the arms each comprising a lateral notch. The arms are axially slideable relative the elongate shaft and are medially deflectable. An elongate pin is positioned medially relative the arms. The elongate pin is axially slideable relative the arms between a locked position preventing medial deflection of the arms and an unlocked position allowing medial deflection of the arms. A surgical end effector is selectively attachable in vivo and detachable in vivo to the mating feature of the arms, the surgical end effector comprising jaws that open and close in response to the axial movement of the two arms when attached to the surgical end effector.

Abstract: A surgical device for use in combination with a percutaneous elongate shaft defining a longitudinal axis. The shaft comprises a distal end and a proximal end, the distal end comprising an attachment mechanism. A surgical end effector is selectively attachable in vivo and detachable in vivo to the attachment mechanism of the percutaneous elongate shaft. A percutaneous elongate loader comprises an articulating distal end. The distal end comprises a tube with an opening at the distal tip, the tube being dimensioned to receive the surgical end effector. The distal end further comprises an engagement feature capable of frictionally holding the surgical end effector in the tube during in vivo attachment to and in vivo detachment from the percutaneous elongate shaft.

Abstract: A medical apparatus and method useful for positioning a device, such as an endcap, on an end of an endoscope, is disclosed. The apparatus can exert a pulling force on the endoscope through the endcap while a pushing force is applied to the endcap. The apparatus can be used to press an endcap onto the distal end of an endoscope without grasping by hand a sheath in those applications where the endoscope is disposed in a sheath.

Abstract: Devices and methods are provided for positioning a tool. In one embodiment, an endoscopic rotation device is provided having a rotatable collet, a flexible elongate translating mechanism, and an actuating mechanism. The rotatable collet can be configured to receive and engage a tool disposed therethrough, and the translating mechanism can be coupled to the collet. The actuating mechanism can be operatively associated with the translating mechanism and can be effective to cause the translating mechanism to apply a rotational force to the collet to rotate the tool disposed therethrough.