Source: https://patents.google.com/patent/DE102006050074A1/en
Timestamp: 2019-11-19 04:10:21
Document Index: 506696852

Matched Legal Cases: ['art 103', 'art 104', 'art 103', 'art 103', 'art 103', 'art 103', 'art 103', 'art 103', 'art 104', 'art 104', 'art 104', 'art 103', 'art 103', 'art 103', 'art 103', 'art 11', 'art 103', 'art 103']

DE102006050074A1 - Intubationshilfsgerät - Google Patents
Intubationshilfsgerät
DE102006050074A1
DE102006050074A1 DE200610050074 DE102006050074A DE102006050074A1 DE 102006050074 A1 DE102006050074 A1 DE 102006050074A1 DE 200610050074 DE200610050074 DE 200610050074 DE 102006050074 A DE102006050074 A DE 102006050074A DE 102006050074 A1 DE102006050074 A1 DE 102006050074A1
DE200610050074
2005-10-24 Priority to JP2005-309152 priority
2006-07-25 Priority to JP2006-202369 priority
2006-10-24 Application filed by Pentax Corp filed Critical Pentax Corp
2007-04-26 Publication of DE102006050074A1 publication Critical patent/DE102006050074A1/en
Disclosed is an intubation aid (100) comprising a main body (10), an introducer (11) having an elongated introducer insertable into a trachea or airway proximal region via the patient's oral cavity, and an image acquisition means (70) for receiving an electronic introducer Image of the site to be considered at a distal end portion of the insertion instrument (11). The intubation aid (100) is composed of the main body (10), the insertion instrument (11) and the image pickup means (70). The main body (10) has a display device (20) with a rectangular screen (21) which in the assembled state indicates the electronic image taken with the image pickup means (70). The display device (20) is disposed at the proximal end portion of the main body (10) between a first position in which the display device (20) is located close to the main body (10) and a second position in which the display device (20) of FIG the main body (10) is arranged pivotally. The center (C) of the screen (21) is in the assembled state on the central axis (O¶¶¶) of the insertion instrument (11) irrespective of the pivot angle of the display device (20), when viewed from the side on which the screen ( 21), looking at the display device (20).
The The invention relates to an intubation device which is used to to introduce the distal end of an intubation tube into a target area, e.g. B. into the trachea a patient.
It is sometimes necessary on a patient who is a result of a Accident or the like has lost consciousness, an artificial one To perform ventilation as a life-saving first aid measure. Although such an artificial one Ventilation can also be performed without any instrument or device becoming this Purpose often a respirator used.
Becomes a respirator for artificial respiration used, so is an intubation tube, its proximal end the ventilator connected to the trachea of the patient, so that the ventilator over the Pipe air into the trachea promoted.
Has If the patient loses consciousness, the tongue base is withdrawn, causing the airway as a result of relaxation of the muscles of the pharynx and the larynx or in that the lower jaw owing to Gravity loosens, can be blocked.
Should the intubation tube into the trachea or a target area must, therefore, first necessarily the airway opened and so the air passage can be ensured by the tongue is pulled up.
When an instrument that ensures the passage of air, d. H., the airway can be kept open, is a so-called Mundtubus known (see, for example, JP-A-0150500).
One Such oral tube is an elongate element that has a curved distal End has and through the mouth of the patient, his consciousness lost, introduced can be. In this case, a suitable section comes in at the distal end Contact with the patient's tongue base and raise this. Thereby the airway is kept open.
at In this state of the art, the intubation auxiliary instrument is used in Form of the oral tube normally used so that the proximal End of the intubation auxiliary instrument to a main body of a Intubationshilfsgerätes is coupled. This state is referred to below as the "coupling state". The Intubationshilfsgerät comprises an image forming means (image pickup device) which an image of a site to be considered at a distal end portion of the intubation aid in the form of an electronic image and a display device that receives the image from the imaging means recorded electronic image.
The intubation auxiliary device described above is designed in the coupling state so that the display device is arranged on the left side of the intubation auxiliary instrument when the intubation auxiliary device in the in 1 state shown in the prior art is used. Accordingly, the center of the screen of the display device is offset from the center line of the left of the display device disposed Intubationshilfsinstrumentes.
at Using such an intubation device, the user performs the intubation aid through the mouth of the patient in his trachea and looks up the display device. In this conventional Intubationhilfsgerät exists therefore the danger that the user during operation of the device undesirable assumes that the center of the screen of the display device aligned to the center line of the intubation auxiliary instrument is. For this reason, the problem occurs in this conventional intubation auxiliary on that the user as a result of the displacement of the center of the screen across from the center line of the intubation auxiliary instrument the latter overly moved, what the handling of the device aggravated when the auxiliary intubation instrument enters the trachea of the Patients introduced is.
task The invention is to provide an intubation device whose handling is improved when the intubation aid in the airway introduced by the patient is.
The Invention solves This object by the intubation device according to claim 1. Advantageous developments are in the subclaims specified.
The Intubationshilfsgerät according to claim 1 has an improved handling when it in the trachea introduced by the patient becomes.
Preferably, the screen of the display device is in the form of a rectangle having a central axis parallel to the long side of the rectangle. The display device is arranged on the proximal end portion of the main body, that this central axis is located on the central axis of the Einführinstrumentes, when in the assembled state of the Intubationhilfsgerätes from the side on which the screen is located, looks at the display device.
Thereby becomes the handling when inserting the Einführinstrumentes into the trachea the patient further improved.
In an advantageous embodiment of the screen is opposite to the Central axis of the insertion instrument inclined.
So is the display device during the introductory operation facing the user, so that this the display device easily (although of course this is also due to the attitude depends on the user).
Preferably the display device is interposed at the proximal end portion of the main body a first position in which the display device near the main body pivoted, and a second position, in which the display device from the main body is removed. The center of the screen is regardless of the swivel angle the display device on the central axis of the Einführinstrumentes arranged when in the assembled state from the side, on which the screen is located on the display device looks.
Of the User can be so independent how he and the patient insert the introducer into the trachea positioned to each other, make the intubation reliable.
In an advantageous embodiment, the screen of the display device a rectangular shape with a center line parallel to the long one Side of the rectangle. The display device is preferably so arranged at the proximal end portion of the main body that the center line regardless of the pivoting angle of the display device on the central axis of the insertion instrument when in the assembled state from the side, up the screen is on the display device looks.
Of the User can be so independent how he and the patient insert the introducer into the trachea positioned to each other, perform the intubation reliably.
In the embodiments described above the screen is preferably with respect to the center axis of the Einführinstrumentes inclined when the display device in the first position located. Such is the display device during the insertion operation facing the user (although this of course also from the attitude the user during the introductory operation dependent) so that the user can easily view the display device.
Preferably has the main body a handle part, which engages the user when operating the Intubationhilfsgerätes.
Of the User can thus use the intubation tool in its composite Condition simply reliable grab what its handling when inserting the Einführinstrumentes into the trachea improved the patient.
In a further advantageous embodiment of the handle part columnar outer profile. The Center axis of the handle part is substantially on the central axis of the insertion instrument aligned.
There the user with his hand the handle near the screen the display device engages, the insertion can be precisely operated.
Preferably has the introducer a straight section and a curved section that is continuous connects to the distal end of the straight section.
The The instrument can be easily inserted into the patient's mouth.
In In the embodiments described above, the distal one is End of the curved section preferably oriented in one direction, that in the composite State is substantially parallel to the screen normal.
Also This improves the handling when inserting the Einführinstrumentes into the trachea of the patient.
In Another preferred embodiment has the insertion instrument a guiding means, which an intubation tube solvable stops and the intubation tube to the trachea or to a trachea-close Area leads.
The Intubation tube can be so reliable to the target area, z. As the trachea of the patient, are introduced.
The Image pickup means preferably comprises one arranged in the main body Image pickup device and a guide means arranged in the insertion instrument, which serves the light, which is the object image to be photographed generated, leads to the image pickup device.
This way you can get an electronic picture of the area to be observed, in which the distal end of the insertion instrument is located, and the resulting electronic image is viewed on the screen.
The Invention will be below, together with their advantages, structural Features and technical effects based on preferred embodiments described with reference to the figures. Show:
1 a perspective view showing a first embodiment of the Intubationhilfsgerätes;
2 another perspective view showing the first embodiment of the Intubationshilfsgerätes;
3 a representation that the intubation aid after 1 from the line of sight indicated by the in 1 set arrow A is set;
4 a cross-sectional view along the in 1 shown line BB;
5 a perspective view showing a main body of the Intubationshilfsinstrumentes in the 1 and 2 shows the intubation device shown;
6 a perspective view showing an insertion instrument part of the Intubationshilfsinstrumentes in the 1 and 2 shows the intubation device shown;
7 another perspective view showing the Einführinstrumententeil the Intubationshilfsinstrumentes in the 1 and 2 shows the intubation device shown;
8th a perspective view of an intubation tube, in combination with the in the 1 and 2 the intubation aid shown is used;
9 a second embodiment of the intubation auxiliary device; and
10 a perspective view of a main body of the in 9 shown intubation aid.
With regard to the figures, it should first be noted that in 3 the intubation tube is omitted. In addition, in the following description, the upper and lower sides in the 1 to 4 referred to as "proximal end" and "distal end", respectively.
That in the 1 and 2 shown, with 100 designated Intubationshilfsgerät comprises a main body 10 , an introductory instrument 11 and an image pickup means 70 , In operation of the Intubationhilfsgerätes the above components are composed.
As further described below, the intubation aid becomes 100 in combination with an intubation tube 200 used, which is introduced through the mouth or the oral cavity of the patient in the trachea. In the described embodiments, the main body 10 and the introductory instrument 11 separate components. The main body 10 and the introductory instrument 11 However, they can also be formed into a one-piece body.
in the The following will detail the above-mentioned components described.
That in the 6 and 7 shown insertion instrument 11 consists of an elongated element that forms an insertion part. It is intended to be inserted into the trachea or an area near the trachea via the mouth or oral cavity of the patient who has lost consciousness. The patient's airway is kept open by bringing a suitable portion at the distal end of the introducer into contact with the patient's tongue base.
As in the 6 and 7 showed the introducer 11 a straight section 11A and a curved section 11B attached to the distal end of the straight section 11A followed. The outer peripheral surface of the straight section 11A is rounded, leaving the straight section 11A is essentially columnar.
The proximal end part of the straight section 11A is with an external thread 111 Mistake. The external thread 111 is formed, with an internal thread 102 that in a coupling element 101 of the main body 10 is formed (see. 4 ) to be threadedly engaged. The external thread 111 gets into the internal thread 100 so screwed to the insertion tool 11 on the main body 10 to assemble. The intubation aid 100 is then composed.
By the external thread 111 of the straight section 11A from the internal thread 102 of the main body 10 is solved, the introduction instrument 11 from the main body 10 decreased. After the insertion instrument 11 , which has been inserted in a patient, from the main body 10 A new introducer may be attached to the main body 10 appropriate become.
As described above, the curved section closes 11B to the distal end of the straight section 11A at. The curved section 11B is bent so that its distal end faces in a direction opposite to the straight section 11A is inclined. The in 7 shown inclination angle θ is not particularly limited. Preferably, however, it is in a range of 70 to 140 °, more preferably in a range of 90 to 120 °.
By the insertion instrument 11 so from the straight section 11A and the curved section 11B is formed to have an overall L-shape, it can be easily inserted into the mouth of the patient and thus reliably keep the airway free.
At the distal end of the curved section 11B is integrally a plate-shaped projection (tongue piece) 112 educated. The lead 112 serves to lift or push the patient's larynx or tongue base up to ensure airflow, ie, keep the airway clear.
As in 6 shown is on the side of the insertion instrument 11 a guide means in the form of a groove 15 formed, extending approximately from the middle of the straight section 11A along the central axis O 1 of the Einführinstrumentes 11 to the distal end portion of the curved portion 11B extends. The groove 15 has the function of an intubation tube 200 which is introduced through the mouth of the patient in the trachea after passing through the introducer 11 the passage of air has been ensured.
As in 2 shown is the intubation tube 200 in the groove 15 introduced after it has been ensured in the manner described above, that the airway of the patient is kept free. Then the Intubati onsrohr 200 towards the distal end of the introducer 11 advanced. At the same time, the intubation tube slides 200 in the groove 15 and is guided by the inner wall. The distal end of the intubation tube 200 is then removed from the distal end of the introducer 11 pushed out and further in the direction of the glottis or a nearby area that is behind the larynx.
The groove shown in the figures 15 has a substantially C-shaped cross-section. However, the cross-sectional shape is not limited to this embodiment. For example, the cross section may also be U-shaped.
The maximum width of the groove 15 is preferably slightly larger than the outer diameter of the intubation tube 200 , This allows the intubation tube 200 stable in the groove 15 kept and even in the groove 15 be advanced.
As in the 4 and 7 is shown inside the insertion tool 11 along the central axis O 1, a first inner channel (bore) 12A educated. The first channel 12A has a substantially circular cross-section.
As in 4 shown is the first channel 12A to the proximal end of the introducer 11 ie the straight section 11A open at the distal end of the introducer, ie, the curved portion 11B , closed is. The distal end of the canal 12A is closed with a substantially transparent blocking piece.
Within the first channel 12A There is an optical fiber bundle 13A forming a part of the image pickup means and an objective lens 13B , in front of the optical fiber bundle 13A is arranged.
Inside the insertion instrument 11 is also a second internal channel (hole) 12B formed, whose diameter is smaller than that of the first channel 12A is. The second channel 12B is like the first channel 12A along the central axis O 1 of the Einführinstrumentes 11 educated. The second channel 12B is therefore parallel to the first channel 12A arranged.
As described above, both are one end of the second channel 12B at the proximal end of the introducer 11 as well as the other end of the second channel 12B at the distal end of the introducer 11 open. This means that the second channel 12B is formed as a through hole. By means of the second channel 12B For example, substances within the airway using a suction means, not shown, for. As a pump to be sucked, the attached to the composite Intubationhilfsgerät 100 connected.
The material from which the insertion instrument 11 is subject to no special restrictions. Preferably, various polymeric materials, such as polycarbonate, are used.
As in the 1 to 3 and 5 shown has the main body 10 a handle part 103 , a display device 20 , a coupling part 104 over which the handle part 103 to the display device 20 coupled, and a coupling element 101 ,
The handle part 103 forms a section of the intubation device 100 the user grips with one hand or both hands (cf. 3 ) when the composite intubation device 100 actually used. 3 shows how the user with one hand the handle part 103 holds.
The outer profile of the handle part 103 is roughly columnar. This shape allows the user to grip the handle 103 easy and reliable grip. By manipulating the composite intubation device 100 so can the introducer 11 be introduced easily and reliably into the trachea of the patient.
At the distal end portion of the handle part 103 is the coupling element 101 mounted so that it is about the central axis O 2 of the main body 10 , ie the handle part 103 , is rotatable. The coupling element 101 is an annular element.
As described above, the internal thread 102 on the inner peripheral surface of the coupling element 101 educated. As in 4 shown is the internal thread 102 designed so that it is connected to the external thread, which at the proximal end portion of the insertion 11 is formed, can be engaged.
The coupling part 104 closes at the proximal end portion of the handle portion 103 at. The display device 20 is at the coupling part 104 arranged.
The 1 and 2 show that the display device 20 at the coupling part 104 ie at the proximal end portion of the main body 10 is provided.
The display device 20 has approximately the shape of a plate with a rectangular outer circumference. It includes a screen 21 indicating an electronic image containing the image pickup means 70 in the assembled state of the intubation aid 100 receives.
The screen 21 is formed of, for example, a liquid crystal display, an organic electroluminescent or EL device or the like. He sets based on the light emitted by the image pickup device 70 is an (electronic) image. The screen 21 Also has a rectangular shape corresponding to the rectangular periphery of the display device 21 ,
The display device 20 is on the main body 10 via a swivel mechanism 30 pivoted, with one of the short sides 212 Of the screen 21 is used as a pivot axis. The display device 20 is therefore with respect to the main body 10 Swiveling along a plane extending from the side surface 105 of the main body 10 extends out.
The display device 20 is pivotable between a first position and a second position. In the first position is the display device 20 in contact with the main body 10 , This position of the display device 20 is in the 1 and 2 shown by solid lines. In the second position, the display device 20 from the main body 10 away. This position of the display device 20 is shown with dashed lines.
The swivel mechanism 30 is designed so that the display device 20 stopped in the first and second positions. In an alternative embodiment, the pivot mechanism is 30 designed so that the display device 20 can be stopped continuously in any position between the first and the second position. In a further alternative, the display device 20 gradually between the first and second positions in one of a plurality of predetermined positions, e.g. In five stages.
As the display device 20 opposite the main body 10 It can pivot, regardless of the orientation of the insertion tool 11 in the assembled state of the intubation aid 100 be oriented in the desired direction. The introductory instrument 11 can be easily and reliably introduced into the patient. Since the insertion can be performed without having to bend the neck area to the rear, also a high security is given.
During insertion of the introducer 11 In the trachea of the patient become direction and position of the insertion instrument 11 usually changed or rotated. By the display device 20 pivoted during insertion to a suitable angle, the user can at an optimal angle to the display device 20 look.
As in 5 shown is the intubation device 100 designed so that the screen 21 also in its first position relative to the central axis O 2 of the Einführinstrumentes 11 is inclined. Such is the display device 20 during the insertion operation, usually facing the user without having to be pivoted, although of course this also depends on the posture of the user during the insertion operation.
The following is the image pickup means 70 described.
This in 4 shown imaging means 70 serves to form an image of a body site to be observed, at which the distal end of the insertion instrument 11 is to record in the form of an electronic image. The image pickup device 70 includes an image guide 13 , a magnifying optics 17 , An image pickup device in the form of a CCD 16 and a controller 18 , These components are in the order named in the longitudinal direction of the insertion instrument 11 arranged.
In the assembled state is the image guide 13 within the first channel 12A arranged. The picture director 13 consists of the fiber optic bundle 13A and the objective lens 13B extending in front of the optical fiber bundle 13A located.
The picture director 13 captures through the objective lens 13B Light on, at the point to be considered, at which the distal end of the insertion instrument 11 is reflected. The light (object image) thus obtained is transmitted through the optical fiber bundle 13A to the CCD 16 transfer. Is the patient's airway through the insertion instrument 11 This construction allows an (electronic) image of the glottis or an area in its vicinity (ie, the area extending from the larynx to the glottis) to be recorded.
In this embodiment, the image guide forms 13 a means which directs the light from the point of view to the image pickup device.
The fiber optic bundle 13A consists of several optical fibers, which are made of quartz, multi-component glass, plastic or the like.
The CCD 16 is inside the main body 10 arranged. In the main body 10 is the CCD 16 in a position in which it is in the assembled state of the intubation aid 100 the proximal end of the image guide 13 is facing. On the CCD 16 is based on the light coming from the image ladder 13 is captured, creates an image. The CCD 16 thus produces an image of the site to be considered, at which the distal end of the introducer 11 located.
The magnifying optics 17 consists of magnifying lenses 17A . 17B and a panel 17C , The magnifying optics 17 is between the proximal end of the image guide 13 and the CCD 16 arranged. This will be on the CCD 16 produces an enlarged image. The magnifying optics 17 used in this embodiment is not limited to the structure described above.
The control 18 is also in the main body 10 and serves the electronic picture on the screen 21 the display device 20 display. The screen 21 the display device 20 thus puts under the control of the controller 18 that from the CCD 16 generated electronic image.
This will be on the screen 21 the display device 20 For example, an image is displayed showing the glottis of the patient in a condition in which the patient's airway through the introducer 11 is kept free.
The following is the intubation tube 200 described in detail, in combination with the intubation device 100 is used.
As in 8th shown, there is the intubation tube 200 from a tubular main body 201 and a connection 202 at one end of the tubular main body 201 is attached.
The tubular main body 201 consists of an elastic material, eg. As an elastomer, a rubber or the like. The main body 201 is substantially circular in cross-section.
The connection 202 is used to connect a ventilator when artificial respiration is to be performed. The thus formed intubation tube 200 is capable of delivering air from the ventilator to the trachea of the patient when inserted into the trachea.
The following is the assembly of the intubation device 100 described.
When assembling the intubation device 100 becomes the proximal end of the image conductor 13 (and thus the fiber optic bundle 13A ) first with the main body 10 connected.
Subsequently, the picture leader 13 that with the main body 10 connected to the first internal channel 12A of the insertion instrument 11 introduced.
Subsequently, the external thread 111 of the insertion instrument 11 in the internal thread 102 of the main body 10 screwed. It should be noted that the procedure according to which the introducer 11 with the main body 10 is not limited to the method described above. Other methods may be used, e.g. For example, those that operate with a pawl mechanism, a bayonet mount, a cam link, a latch claw, or a magnetic coupling.
In the above-described manner composed of intubation auxiliary device 100 is the center C of the screen 21 on the central axis O 1 of the insertion instrument 11 ie it coincides with this axis. The central axis O 3 of the screen 21 parallel to the long side of the rectangular screen 21 is also regardless of the pivot angle of the display device 20 on the central axis O 1 of the insertion instrument 11 arranged when looking from the side on which the screen is 21 located, display device 20 looks.
Is the display device located 20 in its first position, so is the center C of the screen 21 on the central axis O 1 of the insertion instrument 11 arranged as in 3 is shown. In addition, there is also the central axis O 3 of the screen 21 on the central axis O 1 of the insertion instrument 11 when you get out of the 1 indicated by the arrow A direction of the display device 20 looks.
Also in the second position of the display device 20 is the center C of the screen 21 on the central axis O 1 of the insertion instrument 11 , Further, the central axis O 3 of the screen 21 also on the central axis O 1 of the Einführinstrumentes 11 arranged when looking from the side on which the screen is 21 located on the display device 20 looks.
Even if the display device 20 is in any position between the first and the second position, the center C of the screen 21 on the central axis O 1 of the insertion instrument 11 arranged. Also, the center axis O 3 of the screen 21 is located on the central axis O 1 of the Einführinstrumentes 11 when looking from the side on which the screen is 21 located on the display device 20 looks.
As the display device 20 arranged so that the center C of the screen 21 on the center axis O 1 of the Einführinstrumentes 11 is arranged, occurring in the conventional Intubationhilfsgerät offset the center C of the screen 21 from the central axis O 1 of the insertion instrument 11 be overcome, as described above. The user can do so because of its visual capture of the on-screen 21 displayed image during the insertion operation, the insertion instrument 11 and thus the intubation aid 100 easy to use.
To operate the insertion instrument 11 this is displaced in the present embodiment in a pivoting movement, wherein the handle part 103 The user keeps the pivot center for this pivotal movement as in 1 indicated by the arrow C.
As a result, the distal end of the introducer becomes too 11 pivoted in a predetermined direction. That on the screen 21 The displayed image thus moves approximately along the central axis O 1 of the insertion instrument 11 ie in 3 in up and down direction. As in this embodiment, the display device 20 is arranged so that the central axis O 3 of the screen 21 on the central axis O 1 of the insertion instrument 11 is arranged, it is possible to set an area (ie, an observation area or a field of view) in the direction (up and down direction in FIG 3 ), along which this is on the screen 21 picture shown can move, in contrast to an area in the direction (left and right direction in 3 ), along which this is on the screen 21 pictured image can barely move. The handling of the intubation device 100 during the introduction process can be so improved.
As in the 1 and 2 is shown in the assembled state of the intubation device 100 the distal end portion of the insertion instrument 11 (ie, the distal end portion of the curved portion 11B ) oriented in a direction that in the first position of the display device 20 essentially parallel to the normal of the screen 21 lies, ie to the line perpendicular to the screen 21 stands.
With this construction, the direction in which the body point to be considered passes through the objective lens 13B Visible is essentially equal to the direction the user is on the screen 21 the display device 20 sees, the user can use the intubation device 100 Reliable on the screen 21 operate picture shown. In this embodiment also has the intubation auxiliary device 100 in the assembled state, an approximately straight structure. It can therefore be arranged stable in position on a table, not shown in the figures.
The intubation aid 100 may be equipped with a direction setting means, which the coupling direction of the insertion 11 concerning the main body 10 so adjusts that the distal end portion of the Einführinstrumentes 11 is in the assembled state in a direction which is substantially opposite to the direction in which the screen 21 the display device 20 in its first position. The construction of such a direction adjusting means is not particularly limited. By way of example, a construction may be mentioned in which a rib-shaped, convex part (guide pin) on the distal end face of the grip part 103 is formed while on the distal end surface of the Einführinstrumentes 11 a concave part (guide hole) is formed. In the composite state of intubation helpful device 100 so is the convex part in engagement with the concave part.
As in 1 and 3 is shown in the assembled state of the intubation device 100 the central axis O 2 of the handle part 103 of the main body 10 on the central axis O 1 of the insertion instrument 11 arranged. Because with this construction the hand of the user, the handle part 103 stops, near the lower part of the display device 21 can be arranged, the insertion instrument 11 be operated precisely.
in the The following describes by way of example how the intubation aid 100 in the assembled state is used.
The intubation aid 100 is used, for example, when a patient has lost consciousness and the intubation tube 200 into the trachea of the patient.
[1] To insert the intubation tube 200 To prepare, first, the intubation device 100 composed. Then, it is checked whether the illumination LED and the liquid crystal display not shown in the figures work properly.
[2] Then the introducer becomes 11 inserted or inserted through the patient's mouth into the trachea. The introductory instrument 11 is inserted into the mouth of the patient so that the inside of the curved section 11B of the insertion instrument 11 runs along the tongue base. This will be a suitable area at the distal end of the introducer 11 brought into contact with the tongue base of the patient. This ensures the passage of air, ie the airway is kept free.
As in the intubation aid 100 the display device 20 arranged so that the center C of the screen 21 on the central axis O 1 of the insertion instrument 11 is arranged, the user can use the insertion tool 11 Press precisely while keeping the screen 21 the display device 20 consider. So he can use the introductory instrument 11 reliably push into the trachea of the patient.
As described above, the display device is 20 pivotable on the main body 10 appropriate. During the insertion procedure, the direction and location of the introducer often change 11 , The invention makes it possible, at an optimal angle to the display device 20 to look by the latter is pivoted during the insertion operation in a suitable angle.
As described above, this moves on the screen 21 represented image approximately along the central axis O 1 of the Einführinstrumentes 11 while this is being introduced. As the display device 20 but is arranged so that the central axis O 3 on the central axis O 1 of the Einführinstrumentes 11 The picture on the screen can be 21 is moved, are observed along its direction of movement over a relatively wide range. This also facilitates the insertion of the Einführinstrumentes 11 ,
[3] Once the airway is through the distal end of the introducer 11 kept free, so an image of the body to be considered body, namely the glottis and the surrounding area, recorded.
[4] Then, the image data obtained in the previous step is transferred via the controller 18 to the display device 20 Posted. On the screen 21 the display device 20 This is how an electronic picture of the glottis and its surrounding area is displayed.
[5] Subsequently, the intubation tube 200 over the proximal end portion of the introducer 11 in the groove 15 introduced and pushed forward. This is the intubation tube 20 through the groove 15 guided and moves along the groove 15 so far forward that it is at the distal end of the insertion instrument 11 out of the groove 15 emerges. While the user is watching on the screen 21 shown image (including the image of the distal end portion of the intubation tube 200 ), it guides the distal end portion of the intubation tube 200 coming out of the groove 15 protrudes into the glottis so that it can reach the trachea.
[6] In the condition in which the intubation tube 200 remains in the trachea, it is deformed and so out of the groove 15 solved. While maintaining this condition, the introducer becomes 11 taken from the patient's mouth, leaving only the intubation tube 200 remains in the patient's mouth.
In the manner described above, the intubation tube 200 be intubated into the trachea of the patient.
Usually, the proximal end of the intubation tube 200 connected to a ventilator. About the intubation tube 200 , which is inserted through the glottis into the trachea of the patient, the ventilator conveys air into the trachea.
9 is a perspective view showing a second embodiment of the intubation auxiliary device according to the invention. 10 is a perspective view showing a main body of the in 9 shown intubation auxiliary device shows.
The second embodiment will be described with reference to these figures. The focus the description is based on those features by which the second embodiment different from the first embodiment. Common features will not be described again.
Of the Structure of the second embodiment is the same as that of the first embodiment, except that the arrangement of the display device with respect to the main body from that of the first embodiment different.
As in the 9 and 10 is shown in the intubation device 100A according to second embodiment, the display 20A fixed to the proximal end portion of the main body 10 appropriate. In this case, the position in which the display device 20A is fixedly mounted, for example, equal to the first position of the display device provided in the first embodiment 20 ,
As in the first embodiment, therefore, the center C of the screen 21 on the central axis O 1 of the insertion instrument 11 arranged. In addition, there is also the central axis O 3 of the screen 21 parallel to the long side of the rectangular screen 21 is located on the central axis O 1 of the Einführinstrumentes 11 when in the assembled state of the intubation device 100A from the side to the screen 21 looks.
As the display device 20A is arranged so that the center C of the screen 21 on the central axis O 1 of the insertion instrument 11 For the same reasons as described for the first embodiment, the shift of the center C of the screen occurring in the conventional intubation assistant can be made 21 opposite the central axis O 1 of the insertion part 11 be avoided. The user is thus able to use the introducer during the insertion procedure 11 and thus the intubation aid 100A in total, due to its visual capture of the on-screen 21 operate picture shown. A faulty operation can be avoided. In particular, it can be prevented, for example, that the insertion instrument 11 is driven in wrong directions or moved excessively.
As in the first embodiment, upon actuation of the Einführinstrumentes 11 this with the handle part 103 pivoted, with the handle part 103 the user holds, which forms the center of this pivoting movement. Accordingly, the distal end of the introducer becomes 11 pivoted in a predetermined direction. It will do so on the screen 21 displayed image approximately along the central axis O 1 of the Einführinstrumentes 11 postponed. As the display device 20A is arranged so that the central axis O 3 of the screen 21 on the central axis O 1 of the insertion instrument 11 is arranged, an area (observation area or field of view) can be enlarged in the direction along which the one on the screen 21 Displayed image can move clearly, and not an area in the direction along which this is on the screen 21 displayed image just barely can move. The handling of the intubation device 100A during the introduction process is so much improved.
The screen 21 the display device 20A is opposite the central axis O 1 of the Einführinstrumentes 11 inclined. Such is the display device 20A during the insertion operation, usually facing the user, although this of course depends on the user's posture. The display device 20A Thus, it can be easily viewed during the insertion operation.
The The invention has been explained above with reference to exemplary embodiments. The However, the invention is not limited to these embodiments. So can the individual components of the intubation device through others are replaced with the same or a similar function. In addition, the additional components are added.
Intubation device ( 100 . 100A ), comprising: - a main body ( 10 ); - an introducer ( 11 ) having an elongate insertion portion insertable into the trachea or an airway proximal region via the oral cavity of a patient; and - an imaging means ( 70 ) for taking an electronic image of an observation area at a distal end portion of the insertion instrument ( 11 ), wherein the intubation auxiliary device ( 100 . 100A ) from the main body ( 10 ), the introducer ( 11 ) and the image pickup means ( 70 ) is composable, and the main body ( 10 ) a display device ( 20 . 20A ) with a screen ( 21 ) for displaying the image pickup means ( 70 ) in the assembled state of the intubation auxiliary device ( 100 . 100A ) recorded electronic image, wherein the display device ( 20 . 20A ) at a proximal end portion of the main body ( 10 ) is arranged so that the center (C) of the screen ( 21 ) on the central axis (O 1 ) of the insertion instrument ( 11 ) is arranged when looking from the side on which the screen ( 21 ) is in the assembled state on the display device ( 20 . 20A ) looks.
Intubation device ( 100 . 100A ) according to claim 1, wherein the screen ( 21 ) of the display device ( 20 . 20A ) has the shape of a rectangle with a central axis (O 3 ) which is parallel to the long side of the rectangle, and the display device ( 20 . 20A ) at the proximal end portion of the main body ( 10 ) is arranged, that this central axis (O 3 ) on the central axis (O 1 ) of the insertion instrument ( 11 ) is arranged when looking from the side on which the screen ( 21 ) is in the assembled state on the display device ( 20 . 20A ) looks.
Intubation device ( 100 . 100A ) according to claim 1 or 2, wherein the screen ( 21 ) with respect to the central axis (O 1 ) of the insertion instrument ( 11 ) is inclined.
Intubation device ( 100 ) according to one of the preceding claims, in which the display device ( 20 ) at the proximal end portion of the main body ( 10 ) between a first position in which the display device ( 20 ) close to the main body ( 10 ) and a second position in which the display device ( 20 ) of the main body ( 10 ), is pivotable and the center (C) of the screen ( 21 ) regardless of the pivoting angle of the display device ( 20 ) on the central axis (O 1 ) of the insertion instrument ( 11 ) is arranged when looking from the side on which the screen ( 21 ) is in the assembled state on the display device ( 20 ) looks.
Intubation device ( 100 ) according to claim 4, wherein the screen ( 21 ) of the display device ( 20 ) has the shape of a rectangle with a central axis (O 3 ) which is parallel to the long side of the rectangle, and the display device ( 20 ) at the proximal end portion of the main body ( 10 ) is arranged such that this center axis (O 3 ) regardless of the pivot angle of the display device ( 20 ) on the central axis (O 1 ) of the insertion instrument ( 11 ) is arranged when looking from the side on which the screen ( 21 ) is in the assembled state on the display device ( 20 ) looks.
Intubation device ( 100 ) according to claim 4 or 5, wherein the screen ( 21 ) with respect to the central axis (O 1 ) of the insertion instrument ( 11 ) is inclined when the display device ( 20 ) is in the first position.
Intubation device ( 100 . 100A ) according to one of the preceding claims, in which the main body ( 10 ) a handle part ( 103 ), the user, when using the Intubationshilfsgerätes ( 100 . 100A ) holds.
Intubation device ( 100 . 100A ) according to claim 7, wherein the handle part ( 103 ) has a columnar outer profile and the central axis (O 2 ) of the handle part ( 103 ) Is substantially on the center axis (O 1) of the Einführinstrumentes ( 11 ) is aligned.
Intubation device ( 100 . 100A ) according to one of the preceding claims, in which the insertion instrument ( 11 ) a straight section ( 11A ) and a curved section ( 11B ) located at the distal end of the straight section (FIG. 11A ).
Intubation device ( 100 . 100A ) according to claim 9, wherein the distal end of the curved portion (FIG. 11B ) in a direction substantially parallel to the screen normal in the assembled state.
Intubation device ( 100 . 100A ) according to claim 9 or 10, wherein the insertion instrument ( 11 ) a guiding means ( 15 ) for detachably holding an intubation tube ( 200 ) and for guiding the intubation tube ( 200 ) in the trachea or an area close to the air duct.
Intubation device ( 100 . 100A ) according to any one of claims 9 to 11, wherein the image pickup means ( 70 ) one in the main body ( 10 ) arranged image recording device ( 16 ) and one in the insertion instrument ( 11 ) arranged conducting means ( 17 ) for guiding light of an object to be picked up to the image pickup device ( 16 ) Has.
DE200610050074 2005-10-24 2006-10-24 Intubationshilfsgerät Withdrawn DE102006050074A1 (en)
JP2005-309152 2005-10-24
JP2006-202369 2006-07-25
DE102006050074A1 true DE102006050074A1 (en) 2007-04-26
DE200610050074 Withdrawn DE102006050074A1 (en) 2005-10-24 2006-10-24 Intubationshilfsgerät
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2016-07-01 R120 Application withdrawn or ip right abandoned