Abstract: An endoscopic system may include an endoscope including a handle and an elongate shaft extending distally therefrom. The handle may include a non-motorized and non-ratcheting actuation mechanism configured to articulate a distal tip portion of the elongate shaft. The distal tip portion may be articulatable in response to a manually applied force exerted upon the actuation mechanism. Removal of the manually applied force may lock the distal tip portion in its then-current configuration. The non-motorized and non-ratcheting actuation mechanism may include a clutch mechanism actuatable in response to an electrical signal generated in response to sensing a user-applied force to the actuating mechanism by a strain gauge.

Abstract: A steering system for a medical device may include a first drive member having a central longitudinal axis; a central shaft extending through the first drive member; a control knob coupled to the first drive member; a braking knob coupled to the central shaft and including a first protrusion; and a brake shoe member coupled to the central shaft between the control knob and the braking knob. The first protrusion may be positioned within a first channel of the brake shoe member; the first protrusion may be configured to engage the brake shoe member to move a first arm of the brake shoe member radially outward towards a wall of the control knob when the braking knob is rotated in a first direction; and the first arm may be configured to move away from the wall when the braking knob is rotated in a second direction.

Abstract: A self-locking device of an endoscope is provided. The endoscope includes a housing and a toggle assembly. The toggle assembly includes a toggle support, an elastic support and a toggle handle. The toggle handle is sleeved on the toggle support. An inner side of the toggle support is provided with a toggle lever and a friction piece. One end of the toggle lever is hinged to the toggle handle, and the other end of the toggle lever is not connected to the friction piece. The toggle lever has an L-shaped cross section, with a middle bend fixed to the toggle support. The toggle lever is hinged to the toggle support through a first pin. When being stressed, the toggle lever is rotatable around the first pin, so as to push the friction piece to move.

Abstract: A control unit that includes a braking system for fixing the position of an endoscope tip is provided. The control system includes an up-down control knob and a right-left control knob. The brakes are engaged by rotating the control knob itself counter-clockwise from a free wheeling position. After the brakes have been engaged, a sufficient amount of force applied to the control knobs will move the endoscope tip slightly in the corresponding direction, allowing for fine tuning of tip position after braking.

Abstract: A steerable device, such as a steerable catheter, may include a control handle and an insertion shaft extending outwardly therefrom. In use, the insertion shaft is navigated to an area of interest for examination and/or treatment thereof. The steerable device may include a steering system that controls the deflection angle of the distal end of the insertion shaft in two or more non-planar directions for navigating the insertion shaft to the area of interest. The steering system may also include a locking mechanism for arresting or partially arresting the movement of the distal end of the insertion shaft in a first direction independent of arresting or partially arresting the movement of the distal end in a second non-planar direction.

Abstract: Several embodiments of the present invention are generally directed to medical visualization systems that comprise combinations of disposable and reusable components, such as catheters, functional handles, hubs, optical devices, etc. Other embodiments of the present invention are generally directed to features and aspects of an in-vivo visualization system that comprises an endoscope having a working channel through which a catheter having viewing capabilities is routed. the catheter may obtain viewing capabilities by being constructed as a vision catheter or by having a fiberscope or other viewing device selectively routed through one of its channels. The catheter is preferably of the steerable type so that the distal end of the catheter may be steered from its proximal end as it is advanced with the body. A suitable use for the in-vivo visualization system includes but is not limited to diagnosis and/or treatment of the duodenum, and particularly the biliary tree.

Abstract: Several embodiments of the present invention are generally directed to medical visualization systems that comprise combinations of disposable and reusable components, such as catheters, functional handles, hubs, optical devices, etc. Other embodiments of the present invention are generally directed to features and aspects of an in-vivo visualization system that comprises an endoscope having a working channel through which a catheter having viewing capabilities is routed. the catheter may obtain viewing capabilities by being constructed as a vision catheter or by having a fiberscope or other viewing device selectively routed through one of its channels. The catheter is preferably of the steerable type so that the distal end of the catheter may be steered from its proximal end as it is advanced with the body. A suitable use for the in-vivo visualization system includes but is not limited to diagnosis and/or treatment of the duodenum, and particularly the biliary tree.

Abstract: A catheter includes a handle and an elongate member extending from the handle. The catheter may also include steering system coupled to the handle. The steering system may be configured to deflect at least a portion of the elongate member in at least one direction. The catheter may also include a locking mechanism configured to lock the portion of the elongate member in a deflected configuration, and a lever coupled to the handle. The lever may be configured to move from a first position to a second position to engage the locking mechanism. The lever may also be configured to be separably retained at least at one of the first position or the second position to prevent movement therebetween.

Abstract: Devices for assisting manipulation of input mechanisms of medical instruments are disclosed. According to an aspect, a device includes a body defining an interior shaped to substantially surround and attach to the input mechanism of a medical instrument. The device also includes multiple protrusions attached to the body and each extending in one or more directions towards the medical instrument.

Abstract: Several embodiments of the present invention are generally directed to medical visualization systems that comprise combinations of disposable and resuable components, such as catheters, functional handles, hubs, optical devices, etc. Other embodiments of the present invention are generally directed to features and aspects of an in-vivo visualization system that comprises an endoscope having a working channel through which a catheter having viewing capabilities is routed. the catheter may obtain viewing capabilities by being constructed as a vision catheter or by having a fiberscope or other viewing device selectively routed through one of its channels. The catheter is preferably of the steerable type so that the distal end of the catheter may be steered from its proximal end as it is advanced with the body. A suitable use for the in-vivo visualization system includes but is not limited to diagnosis and/or treatment of the duodenum, and particularly the biliary tree.

Abstract: In one embodiment, a method for a stereo endoscope includes receiving electromagnetic radiation through an inner protective window; focusing the electromagnetic radiation with a left optical component toward a left pixel array of a stereo image sensor along an optical axis of the left optical component parallel with but offset from a center axis of the left pixel array; and focusing the electromagnetic radiation with a right optical component toward a right pixel array of the stereo image sensor along an optical axis of the right optical component parallel with but offset from a center axis of the right pixel array. The left pixel array and the right pixel array are offset from the center optical axis of the stereo endoscope to provide stereo image convergence.

Abstract: In one embodiment, a minimally invasive surgical system includes a patient side manipulator, a hermetically sealed endoscopic camera instrument, a vision cart, and a monitor. The patient side manipulator has a robotic arm. The endoscopic camera instrument has a housing at a proximal end to couple to the robotic arm. The endoscopic camera instrument further has a hermetically sealed camera sensor at a distal end, a shaft coupled to the housing, and a wristed joint coupled between the shaft and the camera sensor. The vision cart has a camera control unit coupled in communication with the hermetically sealed camera sensor to capture the images of the surgical site. The monitor is coupled in communication with the camera control unit to display the captured images of the surgical site.

Abstract: A surgical device includes a jaw assembly, an articulating assembly and a drive shaft. The jaw assembly includes first and second jaws. The articulating assembly is removably coupled to a proximal end of the jaw assembly and includes a distal joint member, a proximal joint member, and a pivot pin. The pivot pin is fixedly coupled to the distal joint member and is rotatably coupled to the proximal joint member. The jaw assembly and the distal joint member together define a first longitudinal axis. The proximal joint member defines a second longitudinal axis. The drive shaft includes a gear element that is meshingly engaged with a pivoting gear element that is fixedly coupled to the pivot pin. Longitudinal movement of the first drive shaft pivots the jaw assembly relative to the proximal joint member about a pivot axis defined by the pivot pin.

Abstract: An apparatus for advancement along a predetermined curved trajectory, comprising: a conduit having a conduit distal end; an elongated member having a main axis, at least partially extending within said conduit and movable therein along its length, said elongated member comprising a segmented assembly formed of a plurality of segments hingedly connected with each other, each having an orientation axis perpendicular to the main axis; and a deflecting member extending along said main axis so as to have a first state with a first extension along at least a part of the segmented assembly including its most distal segment, and a second state with a second extension along said part of the segmented assembly, the second extension exceeding the first extension.

Abstract: Provided is an endoscope device and a method of operating the endoscope device. The endoscope device includes: a knob driving part configured to be driven in a mode selected by an operator from either of an automatic mode and a manual mode; a bending part connected to the knob driving part and configured to change a position of a distal end of the endoscope device by driving of the knob driving part, a power generating part configured to provide power to the knob driving part; and a power transmitting part configured to drive the power generating part according to a manipulation of the knob driving part.

Abstract: A catheter includes a handle and an elongate member extending from the handle. The catheter may also include steering system coupled to the handle. The steering system may be configured to deflect at least a portion of the elongate member in at least one direction. The catheter may also include a locking mechanism configured to lock the portion of the elongate member in a deflected configuration, and a lever coupled to the handle. The lever may be configured to move from a first position to a second position to engage the locking mechanism. The lever may also be configured to be separably retained at least at one of the first position or the second position to prevent movement therebetween.

Abstract: A brake adjustment body is disposed in a direction orthogonal to turning shafts between a bending drive shaft and a lock operation shaft. The brake adjustment body is configured by including an intermediate member that abuts a cam portion of the lock operation shaft, and a brake member that applies to the bending drive shaft a pressure according to displacement of the intermediate member. The intermediate member has a shaft body portion and a cylindrical sliding portion screwed together, and by rotating the sliding portion in a state where the shaft body portion and the sliding portion are screwed together, the distance between a proximal end portion and a distal end portion of the intermediate member may be adjusted, and when fixing force on the bending drive shaft is reduced, the distance may be re-adjusted to restore the fixing force.

Abstract: An object information acquiring apparatus, includes: an irradiator irradiating an object with light; a probe having a plurality of transducers which receive an acoustic wave generated from the object irradiated with the light and output a reception signal; and a controller using the reception signal to acquire property information on the interior of the object, and the probe has a plurality of apertures and a surface on which the plurality of transducers are arranged has a spherical surface shape.

Abstract: In a semiconductor device and an information processing system according to one embodiment, an external device generates external device unique information by using a unique code which is a value unique to the semiconductor device, and generates second information by encrypting the first information with the use of the external device unique information. The semiconductor device stores the second information and generates the principal device unique information independently of the external device, with the use of the unique code of the semiconductor device holding the second information, and decrypts the second information with the use of the principal device unique information to obtain the first information.

Abstract: The dial unit includes a dial including a shaft and being rotatable around the shaft, a detector to detect a rotation amount of the dial, a rotator engaged with the dial and rotatable together with the dial. The dial unit includes a rotation transmission member to keep the dial and the rotator separated from each other before the rotation angle of the dial reaches a first angle and to transmit rotation of the dial to the rotator when the rotation angle exceeds the first angle. The dial unit includes an elastic member which is shaped as a coil-shaped portion and contains the rotator inside the coil-shaped portion. The elastic member applies to the rotator a torque in an opposite direction to a rotational direction of the rotator when the rotator rotates.

Abstract: Endoscopic instrument with a control element, an instrument shaft, an adjustment element, a pull element, an actuator, an intermediate element which is operatively connected to the control element and to the adjustment element such that a force applied to the control element by the user can be transmitted to the adjustment element via the intermediate element in order to move the adjustment element, a detection device for detecting a torsion of the intermediate element, and an abutment device, which defines a free rotatory movement range of the control element relative to the adjustment element.

Abstract: A catheter includes a handle and an elongate member extending from the handle. The catheter may also include steering system coupled to the handle. The steering system may be configured to deflect at least a portion of the elongate member in at least one direction. The catheter may also include a locking mechanism configured to lock the portion of the elongate member in a deflected configuration, and a lever coupled to the handle. The lever may be configured to move from a first position to a second position to engage the locking mechanism. The lever may also be configured to be separably retained at least at one of the first position or the second position to prevent movement therebetween.

Abstract: A control system for allowing a physician to control the orientation of a medical device or a medical instrument in a variety of directions with one hand. An actuator selectively tensions one or more control cables having ends secured at or adjacent a distal tip of the medical device in order to bend the distal tip in a desired direction. In one embodiment, a physician can adjust the movement of the distal tip in a desired direction without affecting the orientation of the medical device in other directions.

Abstract: A steering mechanism is used as part of a medical device such as a catheter or an endoscope to allow movement of a steerable distal portion of the catheter or endoscope. The mechanism can include a elongate housing and an actuation system. The elongate housing is adapted to be coupled to the steerable portion of the medical device. The actuation system includes an actuator, a first cam, and a second cam. The actuator can move the first cam between a first position and a second position as the actuator is moved along a first axis (or about a second axis different than the first axis). Movement of the first cam between its first and second positions moves the steerable portion of the medical device along a first plane. The actuator can move the second cam between a first position and a second position as the actuator is moved along the second axis (or about the first axis).

Abstract: A control system for allowing a user to control the orientation of a medical device or a medical instrument in a variety of directions. An actuator selectively tensions one or more control cables having ends secured at or adjacent a distal tip of the medical device in order to bend the distal tip in a desired direction. In one embodiment, a physician can adjust the movement of the distal tip in a desired direction without affecting the orientation of the medical device in other directions.

Abstract: An endoscopic system includes a sheath having a flexible sheath body. A tip is attached to a distal end of the sheath body. A handle is attached to the proximal end of the sheath body. A steerable section may be provided in the sheath adjacent to the tip. Steering controls may then be provided on the handle for steering the steerable section. Lumens extend from the tip to the handle. The distal end of each lumen is sealed to the tip. Bodily fluids can only enter into the lumens and not other areas within the sheath. In some embodiments, a shapelock assembly has an elongated hollow body positionable within the sheath body. The shapelock body may be switched between generally rigid and flexible conditions. The sheath provides a sterile barrier around the shapelock body. The shapelock assembly can be readily reused and the sheath may be disposable. In other embodiments, the flexible sheath has a composite construction that provides improved torque transmission capabilities.

Abstract: The various embodiments of the present inventions provide stabilization devices and methods for use of the stabilization devices with minimally invasive gynecological procedures such as methods of preventing pregnancy by inserting intrafallopian contraceptive devices into the fallopian tubes.

Abstract: A steerable stereoscopic endoscope including a shaft having a distal end, a proximal end, and an articulating region therebetween; a stereo image acquisition mechanism disposed at the distal end of the shaft for acquiring stereo images of a remote site; and a mechanism for steering the portion of the shaft distal to the articulating region.

Abstract: A highly articulated robotic probe (HARP) is comprised of a first mechanism and a second mechanism, one or both of which can be steered in desired directions. Each mechanism can alternate between being rigid and limp. In limp mode the mechanism is highly flexible. When one mechanism is limp, the other is rigid. The limp mechanism is then pushed or pulled along the rigid mechanism. The limp mechanism is made rigid, thereby assuming the shape of the rigid mechanism. The rigid mechanism is made limp and the process repeats. These innovations allow the device to drive anywhere in three dimensions. The device can “remember” its previous configurations, and can go anywhere in a body or other structure (e.g. jet engine). When used in medical applications, once the device arrives at a desired location, the inner core mechanism can be removed and another functional device such as a scalpel, clamp or other tool slid through the rigid sleeve to perform.

Abstract: Contact between a face to be pressed and a cam face in an interaxial direction T of two inner guide sheaths is set so that a contact width H therebetween is shorter than an interaxial distance L, and so that the contact position is located between axes of the two inner guide sheaths. As a result, even in a case where external diameters of two inner guide sheaths that form a pair are slightly different to each other, a braking member can be tilted to cause a contact face to simultaneously come in contact with the respective inner guide sheaths, and a pressing force from an eccentric cam can be transmitted equally to the respective inner guide sheaths.

Abstract: An endoscope including a bending operation apparatus including a bending operation mechanism section and a bending portion braking mechanism section in an operation section, the bending operation mechanism section includes a bending lever, a first bearing member transmitting a force of the lever, and a cylindrical member rotated with an operation of the lever, and the bending portion braking mechanism section includes a bending state keeping lever, a braking shaft body transmitting a force of the lever, a second bearing member pivotally supporting the braking shaft body, a rotation pressing member rotating around an axis of the second bearing member, and having inclined projection portions, a slide pressing member having inclined projection portions opposed to the projection portions, a friction member abutting on the cylindrical member, a regulation member regulating a gap where the friction member is disposed, and positioning members regulating a braking force of the friction.

Abstract: An endoscope including a shaft having a deflectable distal end; a main section at a proximal end of the shaft, where the main section forms a handle of the endoscope; and a deflection control connected to the distal end. The deflection control includes a combined lock and deflection control member at the main section comprising a control lever pivotably connected to the main section at a pivot and extending away from the pivot in a general cantilever fashion, and a lock lever pivotably connected to the control lever. A first end of the lock lever is configured to contact the main section. A second end of the lock lever is configured to be pressed inward on the control lever towards the main section to pivot the first end out of contact with the main section.

Abstract: A bendable portion control device for an endoscope including a control portion and an insertion portion extending therefrom, the insertion portion having a bendable portion at a distal end thereof, the bendable portion control device includes a control wire fixed thereto and extending to the control portion through the insertion portion; a control knob disposed on the control portion; an operating force transmission mechanism having a pair of relatively rotatable members connected to the control knob and a proximal end of the control wire, respectively; and a torque limiting mechanism for allowing torque to be transmitted to the bendable portion via the control wire when the torque is equal to or less than a predetermined torque, and for preventing the torque from being transmitted to the bendable portion via the control wire by disengaging the relatively rotatable members from each other when exceeding the predetermined torque.

Abstract: A wire-operated selective compliance mobile platform (100), in particular for endoscopic surgery devices, obtains a perfect and precise mobility and thus it allows to handle, in the most effective way, the supported instruments, and comprises a mobile surface (1), a connecting base (2) apt to be connected to a flexible tubular duct (4) for endoscopic uses, a plurality of supporting elements (3), apt to permit the motion of said mobile surface (1) relative to said base (2), characterized in that said supporting elements (3) have at least a selective compliance turning pair (31) and a number of joints (32, 34) so as to provide a predetermined number of degrees of freedom to said platform (100), neither determining any over-constraining, nor forcing the system to be deformed in unselected directions, each supporting element (3) being operated by moving means (51, 52) so as to move said mobile surface (1).

Abstract: An instrument comprises a headpiece at a proximal end, a shaft connected to said headpiece, said shaft can be deflected at least in a distal end area thereof. A deflection mechanism is provided for deflecting said shaft. Said deflection mechanism has control wires and a control element for controlling a deflection movement of said deflection mechanism. A lock is provided for locking said deflection mechanism. Said lock has a catch mechanism connected to said control element in such a way that said catch mechanism, without actuation, is automatically forced into a locking position and a movement of said control element first opens said catch mechanism and only then permits a deflection of said shaft. A release of said control element in any position of said deflection mechanism causes an enforced locking by said catch mechanism in said position.

Abstract: A steerable shaft of a medical instrument is steered by one or more control cables. The control cables are in contact with a steering system tension control device that reduces the tension in the control cables caused by bends in the shaft.

Abstract: An insertion apparatus includes a moving unit moving between a first movement position in a state that a motion portion performs a motion and a second movement position in a state that the motion of the motion portion is regulated. A link unit oh the insertion apparatus includes a coupling portion which couples a first link with a second link in a state that the first link and the second link form a substantially V-like shape having a link coupling position as an apex when the moving unit is placed at the first movement position and in a state that the first link and the second link form a substantially linear shape that does not bend at the link coupling position when the moving unit is placed at the second movement position.

Abstract: An insertion device sets engage range which it prescribed in return power to the neutral position by elastic force of the spring and rotation resistance force by the slide power by elastic member for dial portion performing curving operation of a curving portion. If a rotary angle is beyond an engage range, the dial part lets a rotary point of view to order return in an engage range and, if there is a rotary angle in an engage range, the dial part keeps a target part in an observation field of vision.

Abstract: An insertion instrument and an endoscope are provided that include: a bending portion provided in an insertion portion; a flexible tube portion connected in series to a proximal end side of the bending portion; an inside guide pipe provided inside the insertion portion, and inside which a wire is inserted to freely advance and retract; and an outside guide pipe provided inside the insertion portion, and inside which the inside guide pipe is inserted to freely advance and retract. Inside the insertion portion, a distal end of the inside guide pipe is fixed to a midway position of the bending portion, and a proximal end of the inside guide pipe is configured to be switchable between a fixed state and a non-fixed state. Further, inside the insertion portion, a distal end of the outside guide pipe is fixed to a distal end of a flexible tube portion, and a proximal end thereof is fixed at a more rearward position than the flexible tube portion.

Abstract: An endoscope including a shaft having a deflectable distal end; a handle at a proximal end of the shaft; and a deflection control connected to the distal end. The deflection control includes a combined lock and deflection control member at the handle. The control member is adapted to be moved to a selected location by a single finger of a user and thereby deflect the distal end. The control member is adapted to be locked at the user selected location by movement of the control member to a locked position by the single finger of the user.

Abstract: A steerable device, such as a steerable catheter, may include a control handle and an insertion shaft extending outwardly therefrom. In use, the insertion shaft is navigated to an area of interest for examination and/or treatment thereof. The steerable device may include a steering system that controls the deflection angle of the distal end of the insertion shaft in two or more non-planar directions for navigating the insertion shaft to the area of interest. The steering system may also include a locking mechanism for arresting or partially arresting the movement of the distal end of the insertion shaft in a first direction independent of arresting or partially arresting the movement of the distal end in a second non-planar direction.

Abstract: Several embodiments of the present invention are generally directed to medical visualization systems that comprise combinations of disposable and reusable components, such as catheters, functional handles, hubs, optical devices, etc. Other embodiments of the present invention are generally directed to features and aspects of an in-vivo visualization system that comprises an endoscope having a working channel through which a catheter having viewing capabilities is routed. the catheter may obtain viewing capabilities by being constructed as a vision catheter or by having a fiberscope or other viewing device selectively routed through one of its channels. The catheter is preferably of the steerable type so that the distal end of the catheter may be steered from its proximal end as it is advanced with the body. A suitable use for the in-vivo visualization system includes but is not limited to diagnosis and/or treatment of the duodenum, and particularly the biliary tree.

Abstract: A bending operation device includes a bending operation knob, a friction plate, two tabular fastening members, an annular member including a cam groove for moving the two tabular members from a first position to a second position, and a fixing lever configured to actuate the annular member.

Abstract: There is provided a flexibility/rigidity adjustable apparatus which can change over its state between a flexible state in which such apparatus is freely bendable and a rigid state in which such bending is restricted when in use. A flexible closing cover 18 which can expand/shrink is provided on an outer circumference 2 of a flexible tube 1. A latching member 7 which moves together with the closing cover 18 is provided, and a latching-member receiving part 11 with which the latching member 7 can engage is provided at the outer circumference 2 of the tube 1. A closed space 21 formed between the closing cover 18 and the tube 1 is connected to an air inlet/outlet part 22. As the air is evacuated through the inlet/outlet part 22 to change the pressurized condition of the closed space 21 from an atmospheric pressure condition to a negative pressure condition, the closing cover 18 reduces its diameter around an axis 4, and the latching member 7 is caused to engage with the latching-member receiving part 11.

Abstract: An endoscopic instrument includes an instrument section which may be deflected transversely to the instrument axis. The instrument section is connected via at least one control wire to an actuation element arranged on the instrument at the proximal side. A safety coupling, which limit a force exerted by the actuation element onto the control wire, are arranged between the control wire and the actuation element.

Abstract: Lead screws and nut members screwed to the respective lead screws are provided on a wire operation section for operating wires for operating a bending section in a bending manner, and a driving force generating section, a drive coupling shaft rotationally driven in a spin direction by a driving force from the driving force generating section, and drive couplings are provided on a drive source unit separably coupled to the wire operation section. The lead screws are rotationally driven in a spin direction from the driving force generating section via the drive coupling shaft to move the nut members in the axial direction thereby performing pulling operation of the wires during coupling of the drive source unit and the wire operation section.

Abstract: Methods and devices are provided for controlling an endoscope in a body cavity. In one exemplary embodiment, a stiffening element for an endoscopic surgical system includes an elongate member having a diameter configured for insertion and use in a channel of an endoscope. The elongate member can be movable between an unlocked position in which the elongate member is freely movable to assume a desired configuration, and a locked position in which the elongate member is maintained in a desired configuration. In one embodiment, the elongate member is formed from a plurality of links that are pivotally coupled to one another. Methods for controlling a surgical device in a body cavity, as well as systems for use in endoscopic surgeries, are also provided herein.

Abstract: An endoscope including a bending operation apparatus including a bending operation mechanism section and a bending portion braking mechanism section in an operation section, the bending operation mechanism section includes a bending lever, a first bearing member transmitting a force of the lever, and a cylindrical member rotated with an operation of the lever, and the bending portion braking mechanism section includes a bending state keeping lever, a braking shaft body transmitting a force of the lever, a second bearing member pivotally supporting the braking shaft body, a rotation pressing member rotating around an axis of the second bearing member, and having inclined projection portions, a slide pressing member having inclined projection portions opposed to the projection portions, a friction member abutting on the cylindrical member, a regulation member regulating a gap where the friction member is disposed, and positioning members regulating a braking force of the friction.

Abstract: An endoscope comprising a flexible catheter probe 1 having a plurality of lumens, a handle 12 provided at the proximal end of the probe, an optical system 6 provided in at least one optical system lumen of the catheter probe 1, at least one working lumen for a surgical instrument and a control element which is fixed to the distal end 20 of the probe or in the proximity thereof for bending the end of the probe and is guided movably in the axial direction at the probe, wherein the optical system 6 which projects beyond the proximal end of the catheter probe 1 is guided in a flexible tube which is elastically resilient in its longitudinal direction and exerts a prestressing on the optical system in the longitudinal direction thereof in a direction towards the translucently closed optical system lumen.

Abstract: An endoscope includes a bending section for bending a bending portion, a manipulating section for operating the bending portion to bend the bending portion, a drive section for bending the bending portion with the bending section, a brake instruction section and a brake release instruction section, and a bend amount detecting section. In response to a brake instruction, the bend amount at a point in time the brake instruction was given is detected, and the drive section is so controlled as to maintain the bend amount whereas in response to a brake release instruction, the drive force of the drive section for maintaining the bend amount is gradually reduced.