Articulated tip part for an endoscope

An articulated tip part (3) for an endoscope (1). The articulated tip part (3) comprises a distal end segment (4), a proximal end segment (6) and a number of intermediate segments (5) arranged between the distal end segment (4) and the proximal end segment (6). Each intermediate segment (5) comprises a first passage (8) adapted to accommodate and support an outer wall (11) of a tube (9) providing a working channel of the endoscope (1).

CROSS REFERENCE TO RELATED APPLICATION

This is a § 371 application of International Application No. PCT/DK2013/050002, entitled “An Articulated Tip Part For An Endoscope,” filed on Jan. 7, 2013, the full disclosure of which is expressly incorporated herein by reference in its entirety.

TECHNICAL FIELD

The present invention relates to endoscopes, and more specifically to an articulated tip part for an endoscope.

BACKGROUND OF THE DISCLOSURE

Endoscopes are well known devices for visually inspecting inaccessible places such as human body cavities. Typically, the endoscope comprises an elongated insertion tube with a handle at the proximal end as seen from the operator and visual inspections means, such as a built in camera, at the distal end of the elongated insertion tube. Electrical wiring for the camera and other electronics such as LED lighting run along the inside of the elongated insertion tube from the handle to the tip at the distal end. Instead of using cameras, endoscopes may also be fibre-optic, in which case the optical fibres run along inside of the elongated insertion tube.

In order to be able to manoeuvre the endoscope inside the body cavity, the distal end of the endoscope may comprise a section with increased flexibility, e.g. an articulated tip part allowing the operator to bend this section. Typically this is done by tensioning or slacking pull wires also running along the inside of the elongated insertion tube from the articulated tip part to a control mechanism of the handle. Furthermore, a working channel may run along the inside of the insertion tube from the handle to the tip, e.g. allowing liquid to be removed from the body cavity or allowing the insertion of surgical instruments or the like into the body cavity.

U.S. Pat. No. 4,911,148 discloses a fibre-optic endoscope with an articulated tip part. The articulated tip part is an integrally moulded member with cut-out progressively increasing in size towards the distal end. The cut-outs are provided in one side only, thus only allowing the bending of the articulated tip in one direction. The articulated tip comprises a central working channel. The pull wire and the fibre-optic cables are located in lumens arranged in the wall part of the articulated tip part.

US-A-2004/0199052 discloses a camera endoscope with an articulated tip part. The articulated tip comprises a central lumen. Though not clearly described, a working channel appears to be arranged in this central lumen. All cables except the pull wires are also arranged in this central lumen. The pull wires are located in lumens arranged in the wall part of the articulated tip part.

U.S. Pat. No. 4,580,551 discloses an articulated tip part for a fibre-optic endoscope. The cross-section of the articulated tip part comprises several lumens. In one of the lumens a tube for air or water is provided. This tube is comparatively narrow and will not be able to serve as a working channel as such.

SUMMARY OF DISCLOSED EMBODIMENTS

Based on the above prior at it is an object of the present invention to provide an improved articulated tip part for an endoscope.

According to a first aspect of the invention this object is achieved by an articulated tip part for an endoscope where the articulated tip part comprises a distal end segment, a proximal end segment and a number of intermediate segments arranged between the distal end segment and the proximal end segment, each intermediate segment comprising a passage, characterized in that the passage is adapted to accommodate and support an outer wall of a tube providing a working channel of the endoscope.

Adapting the passage to accommodate and support the outer wall of the tube providing the working channel allows the use of a large diameter tube with a relatively thin wall because the support provided by the passage through the individual segments makes the tube less prone to kinking when bending and/or collapsing when vacuum suction is applied. Having a large diameter tube with a relatively thin wall, in turn, provides for a large working channel, through which tools may be inserted and/or fluids withdrawn.

According to a preferred embodiment of the invention, the intermediate segments have a generally circular cross-section with a centre and the passage is off-set with respect to said centre. This allows the diameter of the working channel to be further increased. Preferably, the diameter is so large that centre of the generally circular cross-section of the segments lies within the passage.

According to a further preferred embodiment of the invention, each of said intermediate segments comprises a further passage adapted for accommodating electrical wires. Thus the working channel is separated from the electrical wires.

According to another preferred embodiment of the invention, adjacent intermediate segments are connected via flexible hinge members arranged in a plane corresponding to the first diameters of the cross-sections said two adjacent segments. This allows the location of the passage for the working channel and the further passages in the bending plane, thus providing maximum radius of the curvature of the working channel when bending, thus further reducing the risk kinking of collapsing of the tube.

According to another preferred embodiment of the invention, at least some of the flexible hinge members are adapted to engage and support the outer wall of the tube providing said working channel of the endoscope. Having the hinge members engage the outer wall of the tube further supports the tube. The tube thus becomes even less prone to kinking and/or collapsing.

According to yet a further preferred embodiment of the invention, the individual thickness of the flexible members decreases from one to the next in the direction from the proximal end segment to the distal end segment. Thus, the bending ability increases towards the distal end, which, in turn, increases manoeuvrability.

According to another preferred embodiment of the invention, pull wire passages are arranged symmetrically opposite each other on a second diameter orthogonal to and on either side of the first diameter in each of said intermediate segments. This allows the pull wire passages to be located where the wall thickness of the segment is the largest, thus giving good support against the forces occurring when the pull wires are tensioned.

According to yet another preferred embodiment of the invention, the distal end segment, the proximal end segment and said number of intermediate segments is provided as a one-piece integrally moulded part. This facilitates manufacturing in a cost-efficient manner.

According to another preferred embodiment of the present invention, the surface of at least some of the segments comprises recesses or cut outs. This ensures good connections between the articulated tip part and other parts of the endoscope, such as the plastic material moulded around the camera and electronics, adhesion to the outer sheath of the elongated insertion tube and the like.

According to a second aspect of the invention an endoscope comprising an articulated tip part as described above is provided.

According to a preferred embodiment of the second aspect of the invention, the tube providing the working channel comprises a first section and a second section along the length thereof, wherein the second section has a higher degree of flexibility than the first section. This provides the working channel with a high degree of flexibility where it needs to bend in tight curves, but is supported by the segments of articulated tip part according to the first aspect of the invention.

DETAILED DESCRIPTION

Referring first toFIG. 1, an endoscope1is shown. The endoscope is disposable, and not intended to be cleaned and reused. The endoscope1comprises an elongated insertion tube12. At the proximal end of the insertion tube12an operating handle13is arranged. The operating handle13has a control lever14for manoeuvring an articulated tip part3at the distal end of the insertion tube12by means of pull wires15(visible inFIG. 2only). The control lever14is secured by means of a removable securing clip16to be removed before use.

Turning now toFIG. 2details of the distal end of the insertion tube12with the articulated tip part3is shown, i.e. details from in the circle marked II inFIG. 1. Some parts, such as an external sheath normally covering the articulated tip part3, have been removed for clarity. The articulated tip part3comprises a number of segments4,5,6. More specifically a distal end segment4, a proximal end segment6(not visible inFIG. 2) and a number of intermediate segments5. In the illustrated embodiments, the number of intermediate segments5is eight, but the skilled person will understand that the precise number is less important. The distal end segment4comprises a camera17, light emitting diodes18as well as a tube9. The tube9extends inside the insertion tube12all the way from the distal end segment4of the articulated tip part3to the operating handle13, so as to form a working channel. The working channel may via a suction port on the handle (not visible) be connected to a standard external suction, e.g. wall suction present in hospital environment by means of an attached tube. The external suction may be activated by means of a push-button20on the operating handle.

One embodiment of the articulated tip part3is shown inFIGS. 3 to 7without any attached parts. It can be seen that there is one distal end segment4one proximal end segment6and eight intermediate segments5. The segments4,5,6are interconnected by means of flexible hinge members10,10′. As can be seen the individual thickness of the flexible hinge members10,10′ vary from one to the next, increasing in thickness from the distal end towards the proximal end of the articulated tip part3, i.e. from left to right inFIG. 3. By comparison withFIG. 4, it can also be seen that flexible hinge members10,10′ interconnecting intermediate segments are arranged in a plane corresponding to the first diameters of the cross-sections of said two adjacent segments.

The flexibility of the articulated tip part3is thus higher at the distal end of the articulated tip part3than at the proximal end of the articulated tip part3. The intermediate segments5generally have the same cross-section, which generally correspond to the end view ofFIG. 4. That is to say a generally circular cross-section with four passages8,21,22. The first passage8is circular and adapted to engage and support the outer wall of a tube9forming the working channel. This first passage is relatively large, and the centre7of the cross-section of the intermediate segments actually lies within the first passage8. In a second embodiment of the articulated tip member3shown inFIGS. 8 to 12this is even more pronounced. Cf.FIG. 9. The second passage21is adapted to accommodate the electrical supply wires for the camera17and the light emitting diodes18, signal wires for the camera17etc. The camera17and the light emitting diodes18are mounted on a small circuit board to which the supply and signal wires are connected. The last two passages are pull wire passages22for guiding the pull wires15. As can be seen inFIG. 4the two pull wire passages22are arranged symmetrically opposite each other on either side of the plane in which the hinge members10,10′ extend. That is to say, symmetrically opposite each other on a second diameter orthogonal to and on either side of the first diameter in each of said intermediate segments5. At his location plenty of material surround the guide passages22, thus giving good support for the pull wires15when tensioned. The ends of the pull wires are secured in the distal end section as well as connected to the control lever14in the operating handle13. Thus by manipulating the control lever14the pull wire may be tensioned on one side of the plane of the hinge members10,10′ and slacked on the other, thus allowing the articulated tip member3to bend in a desired direction.

As can best be seen fromFIG. 5three hinge members10,10′ interconnect the intermediate segments5. The location of these hinge members10,10′ as seen in an end view correspond to the outer walls of the intermediate segments5and the wall formed between the circular passage8and the second passage21. There is thus two outer hinge members10and one central hinge member10′ interconnecting two intermediate segments5. By having not only the outer hinge members10but also the central hinge member10′ allows the tube9forming the working channel to be supported on either side between two intermediate segments, thereby reducing the tendency of the tube9to kink or collapse between the intermediate segments5, where unlike in the passages8it is not tightly accommodated and supported by the wall of the first passage8.

The extra central hinge member10′ in also advantageous in another way. Were there only the lateral hinge members10, the articulated tip member would be less resistant to torsions. More importantly there would be the risk that one or both would be compressed and two adjacent intermediate segments5thereby pre-bent in an undesired direction with respect to each other by external forces from e.g. the body cavity. If just one lateral hinge member10or even both leads to pre-bending in this uncontrolled manner, the tension from the pull wires15might further bend two intermediate segments5in the opposite direction of what is expected and desire by the operator. Having the extra central hinge member10′ mitigates this.

The proximal end segment6has a number of recesses or cut-outs23in the surface. These cut-outs aid in securing the articulated tip member3to the insertion tube12of the endoscope1. The distal end segment4also has a number of cut-outs, preferably through holes24. These help securing the camera17, light emitting diodes18, the end of the tube9etc. when these are moulded-in by means of plastic material, e.g. in a process similar to the one described in WO-A-2010/066790 incorporated herein by reference. This is particularly important when, as preferred, the articulated tip part3is moulded as a one-piece polypropylene member, which has good bending properties, but relatively poor adhesive properties.

As indicated above,FIGS. 8 to 12illustrate a different embodiment of the articulated tip part3. The difference from the first embodiment is mainly that it is adapted for a larger working channel. Consequently many parts are the same and need no repeated explanation. For the same reason corresponding reference numerals have been used. It will be noted that because the diameter of the passage8is larger in order to accommodate and support a larger diameter tube9, the intermediate segments5as well as the distal end segment4and the proximal segment6have been made shorter as compared to the overall diameter of the cross-section of the intermediate segments5. More specifically the outer diameter of the cross-section of the intermediate segments5of the first embodiment is about 4 mm and the inner diameter of the tube9forming the working channel about 1.2 mm, whereas in the second embodiment the outer diameter of the cross-section of the intermediate segments5is about 5 mm and the inner diameter of the tube9forming the working channel is about 2.5 mm. Furthermore the cut-outs and through holes24of the distal end segment4differ in order to better accommodate both the camera and the working channel in the distal end surface of the endoscope.

Both of the embodiments, however, have in common the feature of intermediate segments with first passages8, adapted to accommodate and in particular support the outer wall of the tube9forming the working passage. That is to say, the outer diameter of the tube9corresponds essentially to the inner diameter of the passage8in the intermediate segments5. This in turn allows the use of a working canal made from a tube, which does not have the same flexibility all the way from the operating handle13to the distal end of the endoscope3. Rather, the tube9providing the working channel may comprise a first proximal section and a second distal section along the length thereof, wherein the second section has a higher degree of flexibility than the first section. Preferably, the material for both the first proximal section and the second distal section is polyurethane but with different flexibility.

The skilled person will understand that many variations and deviations from the above exemplary embodiments are possible without parting from the gist of the invention. In particular other materials, other dimensions, or other numbers of segments than those mentioned above could be used.