GB2456561A - An articulated surgical instrument having cam and track actuacting means - Google Patents

Abstract

An articulated surgical instrument (1) is provided including a handle (2), an actuating assembly associated with the handle, and a shaft (3) including a proximal end, a deflectable portion (6) and an end effector (4). The proximal end of the shaft (3) is coupled to the handle (2), and deflection wires (13, 14) are provided, the distal portions of the wires being connected to the shaft, and the proximal portions of the wires being connected to the actuating assembly. Movement of the actuating assembly moves the deflection wires (13, 14) to cause a deflection of the deflectable portion (6). The actuating assembly includes one or more actuators (26, 27), and one or more slider members (16, 17) associated with the actuators. The slider members (16, 17) are movable linearly between first and second positions, the proximal portions of the deflection wires (13, 14) being connected to the slider members (16, 17). One of the actuators (26, 27) and slider members (16, 17) has a cam track and the other has a cam follower, such that movement of an actuator by the user of the instrument causes a linear movement of a slider member from its first position to its second position, so as to move the deflection wires (13, 14) causing a corresponding deflection of the deflectable portion (6).

Description

, 2456561

Surgical Instrument

This invention relates to an articulated surgical instrument such as a forceps, or to an electrosurgical instrument for use in the treatment of tissue.

5 US Patent Specification No. 6,283,960 discloses an articulated surgical instrument in which the distal end of the shaft of the instrument is articulated by the arcuate movement of a scissors-type handle. The present invention attempts to provide an improvement to this type of articulation mechanism.

The present invention provides an articulated surgical instrument comprising: 10 a handle;

an actuating assembly associated with the handle;

a shaft including a proximal end, a deflectable portion and an end effector, the proximal end of the shaft being coupled to the handle; and at least one deflection wire, the or each deflection wire having a proximal portion 15 and a distal portion, the or each distal portion being connected to the shaft, and the or each proximal portion being connected to the actuating assembly, movement of the actuating assembly moving the or each deflection wire to cause a deflection of the deflectable portion,

wherein the actuating assembly comprises at least one actuator and a respective 20 slider member associated with the or each actuator, the or each slider member being movable linearly between a first position and a second position, the proximal portion of the or each deflection wire being connected to the associated slider member, a first one of the or each actuator and associated slider member having a cam track and the other having a cam follower, such that movement of the or each actuator by the user of the 25 instrument causes a linear movement of the associated slider member from its first position to its second position so as to move at least one of the deflection wires causing a corresponding deflection of the deflectable portion.

Preferably, the or each least one actuator is a button movable linearly between a first position and a second position. By ensuring that both the slider member and the 30 button move linearly, a minute deflection of the flexible portion of the instrument can be carefully controlled by the user of the instrument, more accurately than if arcuate movement of one of the components about a pivot is required. Conveniently, the linear

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movement of the or each button is in a direction orthogonal to the linear movement of the or each slider member.

In a preferred embodiment, there is provided at least first and second deflection wires and respective first and second slider members. In this way, one deflection wire 5 acts to deflect the deflectable portion, and the other wire acts to return the deflectable portion to its initial position after deflection. If a second deflection wire is not provided, it may be necessary to provide some other return mechanism, such as a spring biasing mechanism for the deflectable portion. The term "wire" is also meant to include a cable formed of a plurality of wires twisted together.

10 Preferably, the first deflection wire is connected to the first slider member, and the second deflection wire is connected to the second slider member. In one convenient arrangement, the first and second slider members are each constituted by respective halves of a single slider assembly, each half being linearly movable with respect to the other. Preferably, a first actuator constitutes said at least one actuator, the first actuator 15 being provided with first and second cam tracks, and the first and second slider members each have a cam follower, the cam follower of the first slider member being received in the first cam track, and the cam follower of the second slider member being received in the second cam track

The first and second cam tracks are preferably oriented in different directions, such 20 that the movement of the first actuator causes the first shder member to move in a first direction and the second slider member to move in a different direction. Preferably, the movement of the first actuator causes the second slider member to move in an opposite direction to that of the first slider member. In this way, the first slider member moves the first deflection wire to deflect the surgical instrument. At the same time, the second 25 slider member moves in the opposite direction to move the second deflection wire to provide sufficient slack for the deflection to take place. When the first actuator is released, the slider members return to their original positions, with the second deflection wire pulling the deflectable portion back into its original configuration.

In this arrangement, the instrument may further comprise a second actuator for 30 actuating a locking mechanism adapted to lock the deflection wires in position.

In an alternative arrangement, there is provided first and second actuators. Preferably, the first and second actuators each are provided with first and second cam tracks, and the first and second slider members each have two cam followers, the cam

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followers of the first slider member being received in the first and second cam tracks of the first actuator, and the cam followers of the second slider member being received in the first and second cam tracks of the second actuator. In this way, the surgical instrument is capable of two-way deflection, the first actuator initiating deflection in a 5 first direction, and the second actuator initiating deflection in a second direction

Conveniently, the first and second cam tracks of each actuator are oriented in different directions, such that the movement of the first actuator causes the first slider member to move in a first direction and the second slider member to move in the opposite direction, and the movement of the second actuator causes the second slider 10 member to move in the first direction and the first slider member to move in the opposite direction. Typically, the movement of the first actuator causes a corresponding opposite movement of the second actuator, and the movement of the second actuator causes a corresponding opposite movement of the first actuator. As described above, the depression of the second actuator will, therefore, cause deflection 15 of the instrument in the opposite direction to that caused by the depression of the first actuator.

Conceivably, the surgical instrument is a forceps instrument, in which case the end effector is a pair of jaws. Alternatively, the instrument is an electrosurgical instrument, in which case the end effector includes an electrosurgical electrode. Conceivably, the 20 electrosurgical instrument is bipolar, and the end effector is a bipolar electrode assembly.

The invention will now be described in more detail, by way of example only, with reference to the drawings, in which;

Figure 1 is a schematic sectional view of a surgical instrument constructed in 25 accordance with the invention;

Figure 2 is a rear perspective view, partly in section, of the instrument of Figure 1;

Figures 3 and 4 are sectional close-up views of parts of the actuating mechanism of the instrument of Figure 1;

Figure 5 is a perspective view, partly in section, of the instrument of Figure 1 30 shown in its deflected position; and

Figure 6 is a perspective view, partly in section, of an alternative embodiment of surgical instrument in accordance with the invention.

Referring to Figures 1 to 5, an articulated surgical instrument is shown generally at

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1, and comprises a handle 2, a shaft 3 and an end effector 4. The end effector 4 comprises a bipolar electrosurgical assembly 5, the construction of which is common in the field and is exemplified by the disclosure of US Patent Specification No. 6,004,319. The shaft 3 includes a deflectable portion 6, the construction of which is again common 5 in the field, and exemplified by US Patent Specification No. 6,749,560. The disclosures of these two patent specifications are herein incorporated by way of reference.

The handle 2 comprises a housing 7 comprising an upper part 8 and a lower part 9. The shaft 3 is connected to the upper part 8 of the housing 7 by way of a swivel 10 mechanism 10, the rotation of which causes a corresponding rotation of the shaft, and hence of the end effector 4. The shaft 3 has a hollow lumen, which provides a suction passage, and is connected to a suction tube 11, which traverses the handle 2 and exits the lower part 9 of the housing 7 via a strain relief element 12. The lumen also contains two deflection cables 13 and 14, which are used to deflect the portion 6. The cables 13 15 and 14 exit the shaft 3, pass over a pulley 15 and are connected to two slider members 16 and 17 contained within the housing 7. The deflection cable 13 is connected to the slider member 16, while the deflection cable 14 is connected to the slider member 17. The slider members 16 and 17 will be described in more detail in the following paragraphs.

20 Each slider member 16, 17 comprises a body portion 18, and first and second legs 19 and 20. Each body portion 18 includes an attachment feature 21, for the connection of a respective one of the deflection cables 13 and 14. The legs 19 and 21 of the slider member 16 contain pegs 22 and 23, which act as cam followers in a cam mechanism to be described. In a similar fashion, the legs 19 and 20 of the slider member 17 contain 25 pegs 24 and 25. The slider members 16 and 17 are disposed in a corresponding back-to-back arrangement, with the pegs 22 and 23 extending on one side of the slider members, and the pegs 24 and 25 extending on the opposite side of the slider members. The slider members 16 and 17 are disposed for sliding movement within the lower part 9 of the housing 7.

30 The slider members 16 and 17 are actuated by first and second buttons 26 and 27. Each of the buttons 26 and 27 is formed by first and second moulded half-shells, the button 26 being formed by half-shells 28 and 29, and the button 27 by half-shells 30 and 31 Referring to the first button 26, the half-shell 28 includes a cam track in the

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form of a slot 32 in which the peg 22 of the slider member 16 is constrained. The slot 32 is disposed diagonally with respect to the direction of movement "A" of the button 26, running from upper to lower in the direction of movement of that button. Conversely, the opposite half-shell 29 of the button 26 is provided with a slot 33, in 5 which the peg 24 of the slider member 17 is constrained. The slot 33 is also disposed diagonally with respect to the direction of movement "A" of the button 26, this time running from lower to upper with respect to the direction of movement of that button. Thus, when the button 26 is depressed, the slot 32 acts on the peg 22 to cause the slider member 16 to move upwardly within the lower part 9 of the housing 7. Conversely, the 10 slot 33 acts on the peg 24 to cause the slider member 17 to move downwardly within the lower part 9 of the housing 7.

The second button 27 is constructed in a similar fashion. The half-shell 30 has a slot 34 in which the peg 23 of the slider member 16 is constrained. This slot 34 runs diagonally from lower to upper with respect to the direction of movement "B" of the 15 button 27. The half-shell 31 has a slot 35 in which the peg 25 of the slider member 17 is constrained. The slot 35 runs diagonally from upper to lower with respect to the direction of movement -'B" of the button 27. Thus, when the button 26 is depressed, and the slider member 16 moves upwardly and the slider member 17 moves downwardly, the cam action of the pegs 23 and 25 in the slots 34 and 35 causes the 20 button 27 to move outwardly as shown in Figure 5.

When the user depresses the button 26, the slider member 17 moves downwardly within the housing 7, pulling on the deflection cable 14 and causing the deflectable portion 6 to curve in one direction, as shown in Figure 5. The slider member 16 moves upwardly to slacken the deflection cable 13, thereby allowing the deflection of the 25 portion 6 to take place. The button 27 moves outwardly to compensate for the movement of the button 26 and the slider members 16 and 17.

Conversely, when the button 27 is depressed, the slider member 16 moves downwardly pulling on the deflection cable 13 and causing the deflectable portion 6 to curve in the opposite direction. The slider member 17 moves upwardly to slacken the 30 deflection cable 14 to allow for the deflection to take place in the opposite direction. In either situation, if the user wishes to lock the deflectable portion 6 in a desired position, a locking mechanism 36 can be operated. The locking mechanism 36 comprises a member 37, rotatable about a pivot point 38. The member 37 is rotatable between a

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first position in which it is clear of the deflection cables 13 and 14, and a second locking position in which it contacts the cables 13 and 14 to lock them against the pulley 15. In this way, the surgical instrument 1 can be locked in position with a desired deflection being maintained until the locking mechanism 36 is released 5 Figure 6 shows an alternative embodiment in which only one-way articulation is required. In this arrangement, similar features are designated with like reference numerals, and the button 27 operates entirely as previously described to move the slider member 16 downwardly and the slider member 17 upwardly to deflect the end effector 4. However, the button 26 is not used to cause an opposite deflection of the end 10 effector 4, but instead operates the locking mechanism 36. When the button 26 is depressed, movement of that button is transferred to a slider bar 39, which causes rotation of an eccentric member 40. The eccentric member 40 rotates about a pivot 41 from a position in which it is clear of the deflection cables 13 and 14, to one in which it locks them against the pulley 15. The button 26 is mounted on an actuating mechanism 15 42, such that, when the button is depressed a first time, the locking mechanism 36 is applied; and, when that button is depressed a second time, the locking mechanism is released.

It will be appreciated that the arrangement of Figure 6 only deflects the end effector 4 in a single direction, and that the swivel mechanism 10 is used to re-orient the shaft 3 20 so as to obtain deflection in other orientations. It will also be appreciated that a further simplification is to provide only a single button and a single slider member, and consequently only one deflection cable. In this circumstance, some other arrangement, such as a spring mechanism (not shown), will need to be provided for returning the deflectable portion 6 to its undeflected position when the button is released. As the 25 second deflection cable performs this function in the illustrated embodiments, this will need to be effected by other means such as a spring arrangement.

However many deflection cables are employed, the linear movement of the one or more buttons 26 and 27, and the corresponding linear movement of the one or more slider members 16 and 17 means that the deflection of the deflectable portion 6 can be 30 accurately controlled by the user of the instrument. Where two buttons 26 and 27 are employed, together with two slider members 16 and 17, deflection in two directions can be carefully effected

Those skilled in the art will readily appreciate that other variants can be employed

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without departing from the scope of the present invention. For example, other locking mechanisms can be envisaged, acting not on the deflection wires but on the buttons 26 and 27 or slider members 16 and 17 themselves. One arrangement has a locking tab movable into a position in which it jams the movement of the buttons 26 and 27 or the 5 shder members 16 and 17, thereby locking the tip of the instrument in position. Whichever type of locking mechanism is employed, the linear movement of the slider members 16 and 17 provides accurate control over the deflection of the deflectable portion 6 of the instrument

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Claims (1)

1. Claims

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   1. An articulated surgical instrument comprising:

   a handle;

   5 an actuating assembly associated with the handle;

   a shaft including a proximal end, a deflectable portion and an end effector, the proximal end of the shaft being coupled to the handle; and at least one deflection wire, the or each deflection wire having a proximal portion and a distal portion, the or each distal portion being connected to the shaft, and the or 10 each proximal portion being connected to the actuating assembly, movement of the actuating assembly moving the or each deflection wire to cause a deflection of the deflectable portion,

   wherein the actuating assembly comprises at least one actuator and a respective slider member associated with the or each actuator, the or each slider member being 15 movable linearly between a first position and a second position, the proximal portion of the or each deflection wire being connected to the associated slider member, a first one of the or each actuator and associated slider member having a cam track and the other having a cam follower, such that movement of the or each actuator by the user of the instrument causes a linear movement of the associated slider member from its first 20 position to its second position so as to move at least one of the deflection wires causing a corresponding deflection of the deflectable portion.

   2. A surgical instrument according to claim 1, wherein the or each actuator comprises a button movable linearly between a first position and a second position.

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   3. A surgical instrument according to claim 2, wherein the linear movement of the or each button is in a direction orthogonal to the linear movement of the or each one slider member.

   30 4. A surgical instrument according to any one of claims 1 to 3, wherein there is provided at least first and second deflection wires and respective first and second slider members.

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   5. A surgical instrument according to claim 4, wherein the first deflection wire is connected to the first slider member, and the second deflection wire is connected to the second slider member.

   5 6. A surgical instrument according to claim 5, wherein the first and second slider members are each constituted by respective halves of a single slider assembly, each half being linearly movable with respect to the other.

   7. A surgical instrument according to claim 5 or claim 6, wherein a first actuator 10 constitutes said at least one actuator, the first actuator being provided with first and second cam tracks, and the first and second slider members each have a cam follower, the cam follower of the first slider member being received in the first cam track, and the cam follower of the second slider member being received in the second cam track.

   15 8. A surgical instrument according to claim 8, wherein the first and second cam tracks are oriented in different directions, such that the movement of the first actuator causes the first slider member to move in a first direction and the second shder member to move in a different direction.

   20 9. A surgical instrument according to claim 8, wherein the movement of the first actuator causes the second slider member to move in an opposite direction to that of the first slider member.

   10. A surgical instrument according to any one of claims 7 to 9, further comprising 25 a second actuator for actuating a locking mechanism adapted to lock the deflection wires in position.

   11. A surgical instrument according to claim 5 or claim 6, wherein there is provided first and second actuators.

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   12 A surgical instrument according to claim 11, wherein the first and second actuators are each provided with first and second cam tracks, and the first and second slider members each have two cam followers, the cam followers of the first slider

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   member being received in the first and second cam tracks of the first actuator, and the cam followers of the second slider member being received in the first and second cam tracks of the second actuator.

   5 13. A surgical instrument according to claim 12, wherein the first and second cam tracks of each actuator are oriented in different directions, such that the movement of the first actuator causes the first slider member to move in a first direction and the second slider member to move in the opposite direction, and the movement of the second actuator causes the second slider member to move in the first direction and the 10 first slider member to move in the opposite direction.

   14 A surgical instrument according to claim 13, wherein the movement of the first actuator causes a corresponding opposite movement of the second actuator, and the movement of the second actuator causes a corresponding opposite movement of the 15 first actuator.

   15. A surgical instrument according to any preceding claim, wherein the end effector is a pair of jaws.

   20 16 A surgical instrument according to any preceding claim, wherein the end effector includes an electrosurgical electrode.

   17. A surgical instrument according to claim 16, wherein the end effector is a bipolar electrode assembly.

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