Intubation Devices

Abstract

A stylet is disclosed for insertion into an endotracheal tube for guiding the tube during intubation. The stylet has a body (3) with a pivotable tip portion (5) at its distal end which is movable in either of two opposing directions away from the axis of the stylet. The tip portion (5) may carry an image acquisition device for video imaging. A control mechanism for controlling the pivot angle of the pivotable tip has a hand-operated actuator (7) at the proximal end of the stylet and flexible control wires (23) extending down the stylet to connect the actuator to the pivotable tip portion (5). Also disclosed is an endotracheal tube (100) usable with the stylet and having a bending portion (103), defined by a concertina or thinned portion, at its distal end to facilitate bending of its tip portion (104) by the stylet tip portion (5).

Claims

1-15. (canceled)

16. A stylet device for guiding insertion of an endotracheal tube into a subject's airway, said stylet device comprising: an elongate stylet body having a proximal end and a distal end; a pivotable tip affixed by a hinge to the distal end of the stylet body; and an actuator at the proximal end of the stylet body; wherein; the hinge is configured to allow the tip to pivotally deflect in opposing first and second directions relative to a neutral position, without affecting the shape of the stylet body; and the actuator is useable to operate a control mechanism which controls said pivotal deflection of the tip.

17. A stylet device according to claim 16 wherein the control mechanism comprises one or more lines or wires.

18. A stylet device according to claim 17 wherein the lines or wires are flexible.

19. A stylet device according to claim 18 wherein: a first portion of flexible line or wire is connected to one side of the pivotable tip and a second portion of flexible line or wire is connected to an opposing side of the tip; and the actuator is useable to alternately i) apply tension to the first portion of flexible line or wire to thereby cause the tip to pivotally deflect in the first direction or ii) apply tension to the second portion of flexible line or wire to thereby cause the tip to pivotally deflect in the second direction.

20. A stylet device according to claim 19 wherein the first portion of flexible line or wire and second portion of flexible line or wire are parts of a single flexible line or wire.

21. A stylet device according to claim 19 wherein the first portion of flexible line or wire and second portion of flexible line or wire are separate flexible lines or wires.

22. A stylet device according to claim 16 wherein the tip is pivotable within a pivot angle range of at least ±10°.

23. A stylet device according to claim 16 further comprising a lumen which extends through at least a portion of the stylet body.

24. A stylet device according to claim 23 further comprising a rod that is insertable into said lumen.

25. A stylet device according to claim 24 wherein the lumen has a distal end located at or proximal to the hinge.

26. A stylet device according to claim 24 wherein the rod is malleable.

27. A stylet device according to claim 24 wherein the rod is configured so as not to be rotatable within the lumen.

28. A stylet device according to claim 27 wherein the lumen and the rod have rectangular transverse cross sectional configurations which prevent the rod from rotating within the lumen.

29. A stylet device according to claim 27 wherein the rod further comprises a handle on a proximal end of the rod.

30. A stylet device according to claim 16 wherein the control mechanism has a plurality of discrete stop points which provide locking of the pivotable tip at discrete incremental pivot angles.

31. A stylet device according to claim 16 wherein an actuator comprises a wheel, dial, lever or joystick.

32. A stylet device according to claim 16 further comprising an image acquisition device on the tip.

33. A stylet device according to claim 32 further comprising a monitor which receives and displays images from said video image acquisition device.

34. A system comprising a stylet device according to claim 16 in combination with an endotracheal tube, wherein the stylet device is insertable into the endotracheal tube to a fully inserted position and useable to guide insertion of the endotracheal tube into a patient's airway.

35. A system according to claim 34 wherein the stylet has an image acquisition device.

36. A system according to claim 35 wherein the image acquisition device is located on the tip.

37. A system according to claim 36 wherein the endotracheal tube has a distal end and, when the stylet device is positioned at said fully inserted position, the image acquisition device captures images distal to the distal end of the endotracheal tube.

38. A system according to claim 35 wherein the stylet can be withdrawn and removed from the endotracheal tube after the stylet device has been used to guide insertion of the endotracheal tube into the subject's airway.

39. A system according to claim 38 wherein the image acquisition device is arranged to capture images in a direction radial to the longitudinal axis of the stylet.

40. A system according to claim 34 wherein the endotracheal tube has at least one Murphy eye formed near a distal end of the endotracheal tube and said at least one Murphy eye is configured to prevent the stylet from protruding through said at least one Murphy eye.

41. A system according to claim 34 wherein: the endotracheal tube has a bending region, a proximal portion located proximal to the bending region and a distal portion located distal to the bending region; and the stylet device is insertable into the endotracheal tube to an operating position wherein the hinge of the stylet device is positioned in relation to the bending region of the endotracheal tube such that pivotal deflection of the tip of the stylet device will cause concurrent deflection of the distal portion of the endotracheal tube.

42. A system according to claim 41 wherein the bending region has a corrugated configuration.

43. A system according to claim 41 wherein the bending region comprises a concertina or accordion segment.

44. A system according to claim 41 wherein the endotracheal tube has a wall and wherein a portion of the wall within the bending region is thinner than the remainder of the wall.

45. A system according to claim 41 wherein the bending region is made from a different material from the remainder of the endotracheal tube.

46. A system according to claim 41 wherein the endotracheal tube further comprises an inflatable cuff and the bending region is located within the inflatable cuff.

47. A system according to claim 16 wherein the stylet device has a lumen which extends through at least a portion of the stylet body and a rod that is insertable into and removable from said lumen.

48. A system according to claim 47 wherein the rod is malleable.

49. A system according to claim 47 wherein: the rod is formable to, and will retain, a curved shape; and, thereafter, when the rod is positioned in said lumen of the stylet and the stylet is positioned at said fully inserted position within the endotracheal tube, at least a portion of the stylet body and a corresponding portion of the endotracheal tube will assume a curved shape that corresponds to the curved shape of the rod.

50. A method for using a system according to claim 34 comprising the steps of: inserting the stylet device to said fully inserted position within the endotracheal tube; trans-orally or trans-nasally inserting the stylet device/endotracheal tube combination; using the actuator to cause the stylet tip to deflect in a direction permitted by the hinge, thereby causing corresponding deflection of a distal portion of the endotracheal tube; advancing the endotracheal tube and inserted stylet device through vocal cords and into a trachea of the subject; and removing the stylet device from the endotracheal tube.

51. A method according to claim 50 wherein the stylet device has an image acquisition device and the method further comprises using the image acquisition device to view images of the subject's anatomy.

52. A method according to claim 51 wherein the image acquisition device is used to facilitate advancement of a distal end of the endotracheal tube through vocal cords and into a trachea of the subject.

53. An endotracheal tube comprising: an elongate tube body comprising a tubular wall having a lumen extending therethrough; and an inflatable cuff through which the tubular wall extends; wherein the tubular wall comprises a bending portion located within the endotracheal tube cuff.

54. An endotracheal tube according to claim 53 wherein the bending portion of the tubular wall has a corrugated configuration.

55. An endotracheal tube according to claim 53 wherein the bending portion of the tubular wall comprises a concertina or accordion segment.

56. An endotracheal tube according to claim 53 wherein the bending portion of the tubular wall is thinner than the remainder of the tubular wall.

57. An endotracheal tube according to claim 53 wherein the bending portion of the tubular wall comprises a different material from the remainder of the tubular wall.

58. A system comprising an endotracheal tube according to claim 53 in combination with a stylet having a hinge or bending location and a distal tip which extends distally from the hinge or bending location, wherein: the stylet is positionable within the lumen of the endotracheal tube such that the hinge or bending location of the stylet is located within the bending portion of the endotracheal tube.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0035] Embodiments of the invention will now be described by way of example with reference to the accompanying drawings in which:

[0036] FIG. 1 shows (a) a front aspect, and (b) a side aspect of a stylet;

[0037] FIG. 2 shows (a) a side aspect of a stylet showing movement of the pivotable tip, and (b) a detail view of the pivotable tip showing the pivot angle of the tip;

[0038] FIG. 3 shows a perspective view of an actuator of the stylet of FIGS. 1 and 2 (control wire omitted);

[0039] FIG. 4 shows a perspective exploded view of the actuator of FIG. 3;

[0040] FIG. 5 is a sectional view of the actuator of FIG. 3;

[0041] FIGS. 6(a) and (b) show two different perspective views of the pivotable tip of a stylet;

[0042] FIG. 7 shows (a) a side aspect and (b) a front aspect of a first embodiment of an ET tube, and further shows (c) a side aspect showing bending of the bending portion of the ET tube;

[0043] FIG. 8 shows a schematic view of a second embodiment of an ET tube;

[0044] FIG. 9 shows a schematic view of an intubation kit;

[0045] FIG. 10 is a perspective view of the kit, and

[0046] FIG. 11 is a schematic view of the kit in use.

DETAILED DESCRIPTION FURTHER OPTIONAL FEATURES

[0047] FIG. 1 shows (a) a front aspect, and (b) a side aspect of a stylet 1 embodying our proposals, connected to an ET tube connector 200. The stylet has a stylet body 3 with a distal and a proximal end. Distal and proximal are here described in relation to the use of the stylet, with the proximal end being the end of the stylet which is typically held by an operator during use in a process of intubation. The distal end of the stylet is the end which in use may be inserted into a patient's airway to assist in an intubation process. The stylet has a pivotable tip 5 located at the distal end of the stylet body, and an actuator 7 attached at the proximal end of the stylet body. The actuator (shown in FIG. 3 and described in detail below) is here conveniently manipulated by the operator using a thumb-pad 9 on a dial 10 which rotates around an axle 11. The pivotable tip is affixed to the stylet body 3 at a pivot hinge 13 which allows movement of the pivotable tip in a plane. The stylet has an attaching portion 15 located at the proximal end of the stylet, formed integrally with the body/retaining housing 17 of the actuator. The attaching portion here is formed as a receiving socket or plug portion which forms a plug-fit connection with an ET tube connector 200, which has a tapered portion 201 for connecting to an ET tube, and a flange portion 203. The ET tube connector 200 is one of standard known ET tube connectors and does not in itself form part of the proposals relating to the stylet.

The stylet has an image acquisition device 16 disposed at the end of the tip. This device is therefore positioned in such a way as to be able to capture images distal to the distal tip of the stylet. Where the stylet is used in combination with an ET tube, the image acquisition device will therefore capture images from the end of the ET tube. The images captured by the device may be transmitted in real time to a display device. Conveniently, there may be a wire (not shown) running along or inside the body of the stylet for electronically transmitting the image(s) from the image acquisition device at the stylet tip to such a display device. Where there is such a wire, it may be protected by a sheath. Other method of transmitting such images are also contemplated, including, for example, wireless transmission of image data.

[0048] FIGS. 2(a) and (b) show the range of movement of the pivotable tip in this stylet. The tip can pivot at the pivotable hinge within a pivot range ±X° from the longitudinal axis of the distal end of the stylet body, marked as axis A in FIG. 2(b). In FIG. 2(b) the pivot range is observed to be approximately ±45°, however depending on the exact configuration of the stylet, a pivot range of up to ±90° may be possible. Advantageously, the tip can pivot in both directions from a ‘neutral’ position where the tip is generally aligned with the stylet body. Accordingly, the stylet offers improved maneuverability of the stylet tip which can assist in more accurate guiding of an ET tube during an intubation process. The mechanism by which the pivoting of the tip is controlled is discussed in relation to FIGS. 3-5, below.

[0049] FIGS. 3 and 4 show respectively a perspective view and an exploded perspective view of an actuator of the stylet of FIGS. 1 and 2, with control wires omitted. FIG. 3 shows the actuator connected to an ET tube connector at attaching portion 15. FIG. 4 does not include an ET tube connector. As described above, the mechanism has a thumb-pad 9 which can be manipulated to provide directional control of the tip of the stylet in a manner described in detail below. The thumb-pad is formed as part of a dial 10 which is rotatable around an axle 11 in response to forces on the thumb-pad provided by an operator. Here, the thumb-pad is shaped to for improved ease of use, including a ridged surface for increased grip by the operator, although this is not essential. The dial is attached to a body or retaining housing 17 of the actuator via the axle 11. Attaching portion 15 is integrally formed with the body of the actuator. This may provide improved ease of manufacture of the device.

[0050] The actuator has a sliding pin and slot arrangement having end stops arranged to restrict the movement range of the actuator (and correspondingly restrict the movement range of the stylet tip). Here, the pin 12 is arranged to project from the actuator body 17 to engage slot 14 formed in the dial 10 of the actuator. As the actuator dial is rotated, the slot moves in relation to the pin until the pin hits an end of the slot, preventing further relative movement of the components.

[0051] A handle portion 20 of a malleable titanium rod 19 is visible, the remainder of the rod being removably disposed within a central lumen 18 of the tubular stylet body 3. The malleable rod here has a rectangular cross section, with the central lumen of the stylet body being correspondingly rectangular. The handle has a ridged gripping portion 21 to aid removal and insertion of the rod. Here the handle portion of the rod lies within a recess formed in the body of the actuator, which can prevent the handle from obstructing the actuator during use. In use, the malleable rod can either be removed from the stylet completely, or can be bent into a desired shape to aid in insertion of the stylet and ET tube through vocal cords. In this particular embodiment, the dial of the actuator has a notch 22 which enables the malleable rod to be removed easily without obstruction by the dial.

[0052] The stylet further has a port 35 located on the body of the actuator for attachment to an air or oxygen line. The port passes through the actuator body into a cavity defined by the attaching portion 15. Thus, when the stylet is attached to an ET tube via an ET tube connector, air or oxygen can be provided into the ET tube via this port on the stylet. The port may have a ridged outer surface to help retain an oxygen line which is connected to the port.

[0053] FIG. 5 shows a sectional view of an actuator of FIGS. 3 and 4. There is a control wire 23 extending round a central drum 24 of the actuator dial and attached to a retaining portion 25 to hold its circumferential position. Turning the drum adjusts the pivot angle of the tip of the stylet. In this embodiment, there is a single control wire which is attached to the retaining portion at its centre, thus providing a first control wire portion and a second control wire portion which extend down to opposing sides of the pivotable tip, as shown in FIGS. 6(a) and (b). As the dial of the actuator is rotated, tension is applied to one or other of the two wire portions. By applying tension to the first wire portion, the tip can be moved in a first direction. By applying tension to the second wire portion, the tip can be moved in a second direction. Whilst here the first and second wire portions are part of a single wire, they may alternatively be two separate control wires, and may be attached to a single retaining portion, or separate respective retaining portions, of the actuator.

[0054] Conveniently, the stylet body may have one or more wire retainers 24 formed on the body as shown in FIG. 6(a). Such retainers can help to hold the control wire(s) flush against the stylet body and avoid snagging of the wires during use. Alternatively or additionally, at least a part of one or more of the wire portions may run inside a channel 25 formed in the stylet body, as shown in FIG. 4.

[0055] The dial 10 has a toothed portion 27, the notches of which engage with a spring-loaded detent 29 to provide a series of incremental stop points. The detent 29 is on an arm pivotable about a pivot axle 31, and affixed to a spring 33 at the opposing end. Accordingly, the detent is biased into engagement with the notches on the dial 10 by the spring force of the spring. As a user rotates the dial 10 to adjust the pivot angle of the stylet tip, this rotational movement of the toothed portion of the dial forces the detent out of engagement with the notches against the spring force, until the detent can click into the subsequent notch. In this way, the mechanism allows for relatively smooth incremental adjustment of the pivot angle of the stylet tip. One further advantage of the particular mechanism shown is that user does not need to continuously provide input to the control mechanism to keep the stylet tip at a desired angle. Once the pivot angle of the tip has been set by rotation of the dial, the detent holds the dial in the selected position until it is again adjusted by the user. This means that the user can let go of the actuator to perform other actions as needed.

[0056] FIGS. 7(a-c) show a first embodiment of an ET tube 100. The ET tube has a body 101 which comprises a flexible hollow tube. The ET tube body may typically be made from e.g. PVC, although the skilled person will be aware of a range of other suitable materials. The distal end of the tube is inserted into a patient's trachea during intubation. The proximal end of the ET tube may be removably attached to an ET tube connector for connection to a ventilation system, although this is not shown in these drawings. The ET tube has a bending portion 103 located towards the distal end 102 of the body, intermediate the body and the distal tip portion 104 of the tube. The bending portion is here formed as a concertina portion of the tube to promote preferential bending at that position. The concertina allows for increased bending of the bending portion in comparison to the general flexibility of the body of the ET tube, as demonstrated in FIG. 7(c). The length of the concertina portion is not particularly limited, but should allow a suitable range of angular movement at the bending portion without excessive strain in the material. The position of the bending portion along the length of the ET tube is selected in this embodiment such that when used in combination with the stylet described above, the pivot hinge of the stylet will align with the bending portion of the ET tube.

[0057] The ET tube includes two Murphy eyes 105 formed at the distal end of the tube, on opposing sides of the tube. These openings provide alternative flow paths for air in the cause of occlusion of the main outlet of the tube. The Murphy eyes are sized to limit or prevent protrusion of a stylet through the openings.

[0058] The skilled person will be well aware of a wide variety of features which the ET tube may incorporate but which are not pictured here, including but not limited to an inflatable cuff and corresponding inflation line with pilot balloon, a radio opaque line to enhance imaging of the tube, and markings on the tube to guide positioning of the tube.

[0059] FIG. 8 shows a schematic view of a second embodiment of an ET tube. In this embodiment, the bending portion 103 is a portion of the tube made from a different material to the material of the body 101 of the tube. Here, the body of the tube is made from a first type of PVC, and the bending portion is made from a second, softer PVC, although it may also be possible to use e.g. silicone. The body and the bending portion are connected together using a seal (shown as a dashed rectangle) which extends across the join between these portions. The material chosen for the bending portion should typically be more flexible than the material of the body of the ET tube, to allow increased ease of bending the bending portion compared to the body of the ET tube. In this embodiment, the bending portion 103 includes the distal tip portion 104 of the ET tube.

[0060] In this particular embodiment, an inflatable cuff 107 is also shown. Such a cuff is a standard feature of many well-known ET tube designs, and as such, the size and shape of the cuff is not particularly limited. Furthermore, the material which the inflatable cuff is made from is not particularly limited and the skilled person will be well aware of a number of suitable materials which could be used for this purpose.

[0061] In alternative embodiments, the bending portion may not be formed of a different material, but may be made of the same material having a lower density than the body of the ET tube. Alternatively or additionally, the bending portion may be locally thinned for increased flexibility. It is also considered that any of the above proposed features of the bending portion may be used in combination. The bending portion may be, for example: [0062] a concertina portion formed from a different material to the material of the ET tube body; [0063] a locally thinned portion formed of a different material to the material of the body; [0064] a locally thinned concertina portion; etc.

[0065] FIGS. 9 and 10 show views of an intubation kit, including a stylet of the first aspect and an ET tube of the second aspect, in addition to an ET tube connector 200. The ET tube shown here is an ET tube having a concertina bending portion. In FIG. 8, the ET tube is shown as a dashed line. In this figure, it can be seen that the ET tube fits onto the tapered portion 201 of the ET tube connector. Furthermore, the position of the stylet inside the tube can be visualised. Here, the location of the bending portion 103 is selected to align with the location of the pivot hinge 13 of the stylet when the stylet and the ET tube are connected. Typically, the length of the stylet and ET tube respectively will be selected such that the stylet does not protrude from the end of the ET tube when the ET tube is connected to the stylet. This is because where the stylet protrudes from the end of the ET tube, there is a risk that it could cause damage to a patient's airway during the intubation due to the more rigid nature of the stylet (in particular, any rigid elements at the stylet tip) in comparison to the ET tube.

[0066] FIG. 11 shows a schematic view of the intubation kit of FIG. 10 in use in an intubation process. As can be seen from the drawing, the ET tube body 101 is generally flexible along its length and can curve to fit the patient's airway. The additional flexibility provided by the bending portion 103 of the ET tube allows for ease of manipulation of the distal end of the ET tube using the pivotable stylet tip, which is controlled by a user using the actuator 7 of the stylet which remains outside of the patient's body during use. Due to the location of the image acquisition device in the stylet tip, the user can more easily guide the ET tube into the desired location by visualisation of the airway from the distal end of the ET tube.

[0067] The kit can be used to perform an intubation process, including steps of a) inserting the stylet into the ET tube, b) inserting the stylet and ET tube into the airway of a patient, c) visualising the airway of the patient using the image acquisition device disposed on the stylet tip, d) guiding the ET tube and stylet through the vocal cords of the patient into the trachea of the patient, and e) removing the stylet from the ET tube.

[0068] While the invention has been described in conjunction with the exemplary embodiments described above, modifications and variations will be apparent to those skilled in the art. Various changes to the described embodiments may be made without departing from the general teachings herein.