An endoscope system includes a shaft portion having a proximal end and a distal end and defining a longitudinal axis. The system also includes a first image receiver coupled to the shaft portion. The first image receiver is directed toward a first direction to receive an image of a first portion of the interior of a lumen. The system also includes a second image receiver coupled to the shaft portion. The second image receiver is directed toward a second direction to receive an image of a second portion of the interior of the lumen. The first direction is generally opposite the second direction. The system further includes a monitor, wherein the image of the first portion and the image of the second portion are displayed simultaneously on the monitor.

An endoscope system includes a shaft portion having a proximal end and a distal end and defining a longitudinal axis. The system also includes a first image receiver coupled to the shaft portion. The first image receiver is directed toward a first direction to receive an image of a first portion of the interior of a lumen. The system also includes a second image receiver coupled to the shaft portion. The second image receiver is directed toward a second direction to receive an image of a second portion of the interior of the lumen. The first direction is generally opposite the second direction. The system further includes a monitor, wherein the image of the first portion and the image of the second portion are displayed simultaneously on the monitor.

A medical instrument having integrated arms extending from a proximal end to a distal end, and a handpiece with actuators to control movement of the arms. The instrument includes an insertion tube having arm channel(s) for receiving an arm therethrough. Each arm includes an engagement member at the distal end of resilient material with a natural non-linear configuration when deployed but deforming when retracted into the arm channel when retracted. Arm channels may be located at different radial distances from one another in the insertion tube so the engagement members may be at radial angles relative to one another when deployed. Arms and engagement members are movable between at least a first position and second position relative to one another by rotation and/or translational motion of the corresponding actuator, to contact tissue or deflect a tool extended through the working channel of the endoscope.

Systems, devices, and methods for controlling cooperative surgical instruments with variable surgical site access trajectories are provided. Various aspects of the present disclosure provide for coordinated operation of surgical instruments accessing a common surgical site from different approach and/or separate body cavities to achieve a common surgical purpose. For example, various methods, devices, and systems disclosed herein can enable the coordinated treatment of tissue by disparate minimally invasive surgical systems that approach the tissue from varying anatomical spaces and must operate differently, but in concert with one another, to effect a desired surgical treatment.

Systems, devices, and methods for controlling cooperative surgical instruments with variable surgical site access trajectories are provided. Various aspects of the present disclosure provide for coordinated operation of surgical instruments accessing a common surgical site from different approach and/or separate body cavities to achieve a common surgical purpose. For example, various methods, devices, and systems disclosed herein can enable the coordinated treatment of tissue by disparate minimally invasive surgical systems that approach the tissue from varying anatomical spaces and must operate differently, but in concert with one another, to effect a desired surgical treatment.

An endoscope system includes an endoscope, and an insertion auxiliary tool into which the endoscope is inserted. A flexible portion of the insertion section of the endoscope includes, from a distal end side toward a proximal end side, a low flexural rigidity portion, a flexural rigidity varying portion in which a flexural rigidity increases from the distal end side toward the proximal end side, and a high flexural rigidity portion with flexural rigidity higher than that in the low flexural rigidity portion. When at least a part of the flexible portion projects from a distal end opening of the tube body, a position of the proximal end of the low flexural rigidity portion is positioned closer to a proximal end of the insertion auxiliary tool than the distal end opening of the tube body from the proximal end of the insertion auxiliary tool.

An endoscope system includes an endoscope, and an insertion auxiliary tool into which the endoscope is inserted. A flexible portion of the insertion section of the endoscope includes, from a distal end side toward a proximal end side, a low flexural rigidity portion, a flexural rigidity varying portion in which a flexural rigidity increases from the distal end side toward the proximal end side, and a high flexural rigidity portion with flexural rigidity higher than that in the low flexural rigidity portion. When at least a part of the flexible portion projects from a distal end opening of the tube body, a position of the proximal end of the low flexural rigidity portion is positioned closer to a proximal end of the insertion auxiliary tool than the distal end opening of the tube body from the proximal end of the insertion auxiliary tool.

Introduced here is an ingestible device comprising a capsule, a camera, an antenna, and a propulsion component. The camera can capture images of various in vivo environments as the ingestible device traverses the gastrointestinal tract, and these images can be wirelessly transmitted to an electronic device located outside of the living body. The images may be transmitted to the electronic device for review by an operator responsible for controlling the ingestible device.

Introduced here is an ingestible device comprising a capsule, a camera, an antenna, and a propulsion component. The camera can capture images of various in vivo environments as the ingestible device traverses the gastrointestinal tract, and these images can be wirelessly transmitted to an electronic device located outside of the living body. The images may be transmitted to the electronic device for review by an operator responsible for controlling the ingestible device.

A control system for a colonoscope having a shaft deflectable via two rotatable knobs is provided. The system includes a first drive unit mounted externally to a housing of the colonoscope. The first drive unit includes a first drive mechanism for engaging the two rotatable knobs or gears replacing the two rotatable knobs. The system further includes a second drive unit attachable to the shaft of the endoscope. The second drive unit is capable of linearly translating the shaft forward and backward. A user interface engageable by a palm of a hand controls the first drive mechanism.