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 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 a torque transfer means and tissue contact apparatus that open and close in response to the axial movement of the two arms when attached to the surgical end effector.

Abstract: Methods and devices are provided for accessing a body cavity. In one embodiment, a surgical access device is provided that includes a housing having at least one access or sealing port for receiving a surgical instrument, and a retractor removably coupled to the housing and having a working channel configured to extend into a body cavity. The housing can include releasably matable upper and lower portions, with the upper portion being configured to freely rotate 360° relative to the lower portion and to the retractor when the housing is mated thereto.

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 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 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: Various embodiments of spacer apparatuses, and transport and/or storage apparatuses, for use with magnetic platforms configured to be magnetically coupled to a medical device within a body cavity of a patient.

Abstract: Systems, methods, apparatuses, and medical devices configured for transmural and/or transdermal magnetic actuation of a tool of a medical device (e.g., without translation of the medical device and/or relative to a platform of the medical device).

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 a torque transfer means and tissue contact apparatus that open and close in response to the axial movement of the two arms when attached to 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 a torque transfer means and tissue contact apparatus that open and close in response to the axial movement of the two arms when attached to the surgical end effector.

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: Methods and devices are provided for accessing a body cavity. In one embodiment, a surgical access device is provided that includes a housing having at least one access or sealing port for receiving a surgical instrument, and a retractor removably coupled to the housing and having a working channel configured to extend into a body cavity. The housing can include releasably matable upper and lower portions, with the upper portion being configured to freely rotate 360° relative to the lower portion and to the retractor when the housing is mated thereto.