Patent Grant
7615002
The invention relates to an endoscope having a proximal end area, a distal end area introducible into the body of a human being, a shaft extending in a longitudinal direction, and an optical device extending through the shaft in the longitudinal direction thereof and movable relative to the shaft.
Endoscopes of the kind described hereinabove are used for various purposes when performing minor surgery on the human body. An operating surgeon can view the operating site with the aid of the optical device extending through the shaft. With conventional endoscopes, the optical device is introducible from the proximal end into the shaft and displaceable therein in axial direction. It has proven to be disadvantageous that the optical device can be moved in an uncontrolled manner.
The object of the present invention is, therefore, to so improve an endoscope of the kind mentioned hereinabove that the optical device is easier and safer to handle.
This object is accomplished with a generic endoscope, in accordance with the invention, in that the optical device is fixable in axial direction relative to the shaft in a first position and in at least a second position differing from the first position.
This configuration makes it possible for the optical device to be held in precisely defined positions at least in the longitudinal direction of the shaft. An undesired relative movement between the shaft and the optical device is thereby avoided. By selecting two positions, for example, a diagnosis position and a work position, the optical device can be employed in the desired manner. Thus, for example, in the diagnosis position, it can protrude far beyond the distal end of the endoscope without the distal end of the endoscope or tools arranged thereon impeding a view of the operating site. By transferring the optical device from the diagnosis position to the second position serving, for example, as work position, an optical monitoring of employment of tools arranged on the shaft is rendered possible in a defined manner. In the second position, a free end of the optical device could, however, also be retracted into the shaft to such an extent that the optical device is protected. Owing to the possibility of axially fixing the optical device in two positions relative to the shaft, considerably easier and safer handling of the endoscope is possible.
The optical device is fixable in axial direction in a particularly simple way when at least one locking device is provided for fixing the optical device in the first position and/or the second position. In particular, the optical device can thereby be fixed automatically upon reaching one of the two predetermined positions. With corresponding design of the locking device, the fixed optical device can also be released again and moved in axial direction.
The optical device is preferably fixed in circumferential direction relative to the shaft in the first position and/or in the second position. This results in a fully defined position of the optical device relative to the shaft.
It is expedient for the optical device to be fixable in axial direction and to be freely rotatable about the longitudinal axis of the shaft in a third position. In the third position, the optical device may, for example, be completely retracted into the interior of the shaft, which protects it against outer influences. A free rotatability about the longitudinal axis of the shaft makes it possible for connection lines proceeding from the proximal end of the optical device to be orientated in any chosen way.
Provision may be made in a preferred embodiment of the invention for the distal end of the optical device to protrude in the first position over the distal end of the endoscope. An operating site which can be viewed by the optical device is thus not restricted by the endoscope or elements arranged thereon.
In the second position, it is expedient for the distal end of the optical device to project over the distal end of the shaft, and for the distal end of the endoscope to project over the optical device. When the second position is provided in such a way, the distal end of the endoscope which is formed, for example, by tool elements projecting from the shaft can be viewed with the optical device. A movement of tool elements during use is thus optically controllable.
To enable use of conventional optical devices in conjunction with an endoscope according to the invention, provision may be made for the endoscope to comprise a device for receiving the optical device, for the device for receiving the optical device to be movable relative to the shaft and fixable in axial direction in the first position and/or in the second position and/or in the third position. The at least one position in which the optical device is fixable in axial direction relative to the shaft is now defined by a corresponding configuration of the endoscope and the device for receiving the optical device.
The optical device is preferably freely rotatable about the longitudinal axis relative to the device for receiving the optical device. In this way, the optical device can be freely rotated and an operating site freely viewed even when the device for receiving the optical device is fixed in axial direction. Furthermore, connection lines proceeding from a proximal end of the optical device can be orientated in any desired way.
A particularly simple design of the locking device is obtained when the locking device comprises a locking member movable relative to a locking recess, when the locking recess or the locking member is arranged on the optical device or on the device for receiving the optical device, and when the locking member or the locking recess is arranged on a receptacle of the endoscope for the optical device or the device for receiving the optical device. A fixing of the respective position is achieved by the locking member dipping into the locking recess. Conversely, release is achievable in a simple way by the locking member being guided out of the locking recess.
Provision may be made in accordance with a further preferred embodiment of the invention for the endoscope to comprise an inflow channel for feeding a fluid from the proximal to the distal end area, an outflow channel for conducting a fluid away from the distal to the proximal end area, an inflow connection in flow communication with the inflow channel, and an outflow connection in flow communication with the outflow channel. Owing to this configuration, a fluid can be conducted via the inflow connection from the proximal end to the distal end of the endoscope and issue there, for example, to flush the operating site. At the same time, the fluid or body tissue which has been removed can be conducted away through the outflow channel.
It is expedient for the inflow connection, the outflow connection and the optical device to be rotatable relative to one another about an axis of rotation extending substantially in the longitudinal direction of the shaft. In this way, connection lines proceeding from the respective connections can be arranged in any chosen position, which also reduces the danger of the connection lines becoming twisted or knotted together.
Furthermore, it is advantageous for the inflow connection, the outflow connection and the optical device to be rotatable relative to the shaft about the axis of rotation extending substantially in longitudinal direction of the shaft. Owing to this configuration, the shaft can be introduced into the interior of the body and left lying there in a non-rotatable manner. On the other hand, lines proceeding from the inflow connection, the outflow connection or the optical device can be orientated in any chosen way so as not to obstruct the operator or so as to prevent twisting of the lines. Furthermore, owing to the shaft resting in this way within the body, the risk of damage to the interior of the body owing to rotation of the shaft is virtually excluded.
In order not only to be able to view an operating site with the endoscope but also to be able to actually perform surgery, it is expedient for at least one movable tool to be arranged at the distal end of the shaft. The tool may be, for example, a fixation forceps, scissors or the like.
It is advantageous for the movable tool to be rotatable relative to the shaft about an axis of rotation extending substantially in the longitudinal direction of the shaft. A relative position of the movable tool relative to a shaft which is stationary within the body can thus be optionally altered.
Provision may be made in a preferred embodiment of the invention for the tool to comprise at least one jaw part which is mounted for movement relative to the shaft. Scissors or fixation forceps can thus be formed in a simple way.
To increase a range of action of the tool, it is expedient for at least two jaw parts which are movable relative to each other to be provided. These may, for example, be pivoted outwardly far beyond a cross-sectional area of the shaft and grasp body tissue, in particular, for the removal of septa, polyps or the like, some of which are of larger cross section than the cross section of the shaft introduced into the interior of the body.
It is advantageous for the at least one movable jaw part to be pivotable relative to the shaft about a pivot axis extending substantially transversely to the longitudinal direction of the shaft. A pivotal movement of the jaw part, in particular, a sideways pivoting of the jaw part, can thereby be implemented in a particularly easy way.
It is preferable for an actuating device associated with the at least one jaw part to be provided and for the actuating device to be rotatable relative to the shaft. A movement of the jaw part can be brought about with the actuating device. Owing to the rotatability of the actuating device relative to the shaft, a conclusion can be drawn from the position of the actuating device as to the relative orientation of the associated jaw part.
For example, in order to keep a fixation forceps in a closed position, it is expedient for the actuating device to be lockable in an actuated position of the at least one movable jaw part. Locking is, however, also conceivable in an open position of the jaw parts.
It is expedient for at least two jaw parts to be provided, which, in a closed position in which the two jaw parts rest against each other, are formed symmetrically in relation to a plane containing the longitudinal axis of the shaft. Irrespective of whether only one or both of the jaw parts are movably mounted on the shaft, a particularly simple design of the endoscope is thereby achieved.
Preferably, the optical device is arranged in the area of the at least two jaw parts on a side of the stationary jaw part, and the movable jaw part is arranged on that side of the stationary jaw part which faces away from the optical device. The optical device is thus arranged outside the work area of the two jaw parts and cannot get in between these and thereby become damaged. Rather, in this way it is arranged so as to be protected.
A particularly good protection of the optical device is obtained when the stationary jaw part is concavely curved in the direction pointing towards the optical device. The optical device can thus lie snugly against the concave area of the jaw part. The cross section of the portion of the endoscope introducible into the interior of the body is thereby also minimized.
Provision may be made in accordance with a further preferred embodiment of the invention for the shaft to have adjacent to the distal end of the endoscope a shaft section which is introducible into the body of a human being, for the axis of symmetry of the optical device in the area of the shaft section to extend parallel to the axis of symmetry of the shaft in the area of the shaft section, and for both axes of symmetry to be spaced from each other. Such an eccentric arrangement of the longitudinal axes of the shaft section and the optical device make it possible for the shaft and, in particular, tools arranged thereon to be rotatable about the optical device. The longitudinal axis of the optical device thus also forms, as a whole, the axis of rotation for the entire portion of the endoscope that is introducible into the interior of a body.
For use of the endoscope in the field of high-frequency surgery, it is advantageous for an HF connecting device to be provided for connecting the endoscope to a high-frequency generator and for this HF connecting device to be arranged so as to be rotatable relative to the optical device. Connection lines can thus also be arranged in any desired orientation, and twisting of the connection lines is thereby prevented.
The following description of a preferred embodiment of the invention serves in conjunction with the drawings to explain the invention in further detail.
Adjoining a proximal end of the shaft 12 is a handling portion 20 of the endoscope 10, which comprises a main body 22 rigidly connected to an outer shaft sleeve 13 of the shaft 12. Extending through the shaft 12 and the main body 22 is an optical channel 24 which widens in the form of a step in the area of the main body 22 in the direction towards its proximal end, thereby forming a ring-shaped stop 26. Provided in the proximal end area of the main body 22 for rotation around the main body 22 and relative to each other are an inflow connection 28 and an outflow connection 30, which are in flow communication with an inflow channel 32 and an outflow channel 34, respectively, which are of lens-shaped cross-section and extend through the main body 22 and the shaft 12. Also mounted for rotation on the main body 22 is an HF connection 36 which is conductively connected to the two jaw parts 16 and 17 via electric connections, not shown, which extend in the longitudinal direction through the shaft 12.
Arranged for rotation about a distal portion of the main body 22 is a grip portion 38 which comprises a stationary branch 40 projecting sideways from the main body 22 and pointing in proximal direction with a thumb opening 20, and a branch 44 pivotal on the grip portion 38 about a pivot axis 45 extending transversely to the longitudinal axis of shaft 12 relative to the branch 40 with a finger opening 46. Inserted into a manipulation channel 48 extending through the shaft 12 in the longitudinal direction thereof is a push-and-pull rod 50 whose proximal end is movably mounted on the branch 44 and whose distal end is movably connected to the jaw part 17 via bearing pins 54 protruding at the sides and extending into guide slots 52 of the jaw part 17. By a pivotal movement of the branch 44 the push-and-pull rod 50 is moved in the longitudinal direction of the shaft 12, whereby the jaw part 17 is pivoted relative to the jaw part 16.
With the locking lever 56 a pivoted position of the branch 44 relative to the branch 40 can be locked, whereby the movable jaw part 17 is held in a desired position, for example, in abutment against the stationary jaw part 16 or in an open position in which it is turned sideways away from the jaw part 16.
Inserted into the optical channel 24 at the proximal end is a guide sleeve 58 which rests with its distal end almost at the stop 26. The guide sleeve 58 is part of an optical adapter 68 via which a connection portion 61 at the proximal end of an optical device 60 is connectable to further optical devices, for example, a camera, a microscope or the like. By means of a connection between the optical adapter 68 and the connection portion 61, an axial fixing of the two elements is achievable, for example, via a releasable locking connection. A relative axial movement between the guide sleeve 58 and the optical device 60 is thereby prevented in the connected state. If desired, the locking connection may be designed so as to allow rotation of the connection portion 61 relative to the optical adapter 68.
The rod-shaped optical device 60 can be pushed in through the guide sleeve 58 from the proximal end of the endoscope 10. The optical device 60 has an end 64 which is beveled relative to its longitudinal axis 62 and is formed by a surface inclined at an angle of inclination 66 relative to the longitudinal axis 62.
As shown in
The grip portion 38 is provided with two radial threaded bores 80 and 82 offset in relation to each other through approximately 90° in circumferential direction for guiding the guide sleeve 58. Inserted into the threaded bore 80 is a threaded pin 84 whose end 88 is designed so as to correspond to the longitudinal groove 72 as shown, for example, in
Owing to the configuration of the two recesses 76 and 78 and of the annular groove 70, the optical adapter 68 is fixable in three axial positions relative to the shaft 12, which will be explained in further detail in conjunction with
In the so-called diagnosis position the ball 94 dips into the recess 78. The end 64 of the optical device 60 protrudes in the diagnosis position somewhat beyond the end of the stationary jaw part 16 in the distal direction. In this way, an operating site can be viewed without the two jaw parts 16 and 17 impeding the view. This is shown in
When the optical adapter 68 is retracted even further in axial direction, the ball 94 finally dips into the annular groove 70 into which the free end 88 of the threaded pin 84 also dips simultaneously, and rotation of the guide sleeve 58 relative to the grip portion 38 is thereby enabled. In this third position of the optical adapter 68, the end 64 of the optical device 60 is retracted into the optical channel 24 so that the end 64 is protected.
In the area of the shaft 12, the longitudinal axis 62 of the optical device 60 is offset in parallel with the longitudinal axis of the shaft 12, thereby resulting, in all, in an eccentric rotation of the shaft 12 around the optical device 60. In the area of the stationary jaw part 16 which, as well as the jaw part 17, is provided with an elongate transverse opening 96 and 97, respectively, the optical device 60 fits snugly into a radially outwardly pointing concave recess 98 of the stationary jaw part 16. The optical device 60 is thus guided on a side of the stationary jaw part 16 facing away from the movable jaw part 17. Damage to the optical device 60 by the two jaw parts 16 and 17 is thereby avoided.
| Number | Date | Country | Kind |
|---|---|---|---|
| 102 55 082 | Nov 2002 | DE | national |
This application is a continuation of international application number PCT/EP03/12634 filed on Nov. 12, 2003. The present disclosure relates to the subject matter disclosed in international application PCT/EP03/12634 of Nov. 12, 2003, which is incorporated herein by reference in its entirety and for all purposes.
| Number | Name | Date | Kind |
|---|---|---|---|
| 3889662 | Mitsui | Jun 1975 | A |
| 4430996 | Bonnet | Feb 1984 | A |
| 4702229 | Zobel | Oct 1987 | A |
| 4765314 | Kolditz et al. | Aug 1988 | A |
| 4784117 | Miyazaki | Nov 1988 | A |
| 5287845 | Faul et al. | Feb 1994 | A |
| 5349942 | Heimberger | Sep 1994 | A |
| 5486155 | Muller et al. | Jan 1996 | A |
| 5582575 | Heckele et al. | Dec 1996 | A |
| 5607435 | Sachdeva et al. | Mar 1997 | A |
| 5733242 | Rayburn et al. | Mar 1998 | A |
| 5807240 | Muller et al. | Sep 1998 | A |
| 5843000 | Nishioka et al. | Dec 1998 | A |
| 5954632 | Heckele et al. | Sep 1999 | A |
| 6099550 | Yoon | Aug 2000 | A |
| 6129683 | Sutton et al. | Oct 2000 | A |
| 6264664 | Avellanet | Jul 2001 | B1 |
| 6350234 | Foerster-Klein et al. | Feb 2002 | B1 |
| 6358200 | Grossi | Mar 2002 | B1 |
| 6419626 | Yoon | Jul 2002 | B1 |
| 6436117 | Waller et al. | Aug 2002 | B1 |
| 6464631 | Girke et al. | Oct 2002 | B1 |
| 6471639 | Rudischhauser et al. | Oct 2002 | B2 |
| 6695772 | Bon et al. | Feb 2004 | B1 |
| 6743166 | Berci et al. | Jun 2004 | B2 |
| 6808491 | Kortenbach et al. | Oct 2004 | B2 |
| 7070602 | Smith et al. | Jul 2006 | B2 |
| 20010053873 | Schaaf et al. | Dec 2001 | A1 |
| 20010056222 | Rudischhauser et al. | Dec 2001 | A1 |
| 20020049367 | Irion et al. | Apr 2002 | A1 |
| 20020072652 | Berci et al. | Jun 2002 | A1 |
| 20020183589 | Brommersma et al. | Dec 2002 | A1 |
| 20030144661 | Brommersma et al. | Jul 2003 | A1 |
| 20040019256 | Cubb et al. | Jan 2004 | A1 |
| Number | Date | Country |
|---|---|---|
| 35 12 602 | Oct 1986 | DE |
| 39 20 706 | Jan 1991 | DE |
| 42 18 706 | Dec 1993 | DE |
| 44 05 720 | Oct 1995 | DE |
| 197 21 138 | Sep 1998 | DE |
| 198 13 781 | Oct 1999 | DE |
| 198 22 167 | Dec 1999 | DE |
| 200 03 797 | Aug 2000 | DE |
| 201 12 949 | Dec 2001 | DE |
| 0048505 | Aug 2000 | WO |
| Number | Date | Country | |
|---|---|---|---|
| 20050021010 A1 | Jan 2005 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | PCT/EP03/12634 | Nov 2003 | US |
| Child | 10886058 | US |
