WO2008000204A1 - Larynx mask with integrated endotracheal tube - Google Patents

Abstract

Larynx mask with a mask part (10), a shaft (18, 22), and an intubation tube (26), characterized in that the shaft (18, 22) has a tubular section (18)in the vicinity of the patient and an adjoining section (22) thereon, which is constructed as an open guiding rail, wherein the intubation tube (26) is displaceable in the longitudinal direction by the shaft (18, 22) and by the mask part (10) and, by the pumping up of a tube cuff (28), is fixable in position in the tubular section (18) of the shaft (18, 22), in the vicinity of the patient.

Description

 Laryngeal mask with integrated endotracheal tube

The invention relates to a device for endotracheal intubation in the field of anesthesia and emergency medicine.

In the field of anesthesia and emergency medicine, the prevention of hypoxia (oxygen deficiency) or the treatment of a "can not ventilate" situation (a situation in which mask ventilation can not be successfully performed) is the top priority in securing the airway A large number of patients require an endotracheal tube in addition to the maintenance of oxygen supply through mask ventilation, and intubation difficulties ("can not intubate" situations) occur in up to 10% of cases. Both in the context of the "can not ventilate" and the "can not intubate" situation, the laryngeal mask plays an important role. The standard laryngeal mask, such as B. essentially described in DE 32 46 673 C2, is therefore stored in almost every operating room and many rescue service vehicles. After successfully securing the ventilation by means of a laryngeal mask, there are various possibilities in addition to perform an endotracheal intubation of the patient.

So there is the laryngeal mask in addition to the execution as a standard laryngeal mask as intubation laryngeal mask, such. As described in EP 0 571 439 B1, which in contrast to the standard laryngeal mask allows successful blind endotracheal intubation (ie without optical aids) with endotracheal tubes of the sizes 6.0 to 8.0 mm (Langenstein & Möller, 1998, Kundra et al. , 2005). The procedure is suitable for the clinic and preclinical emergency medicine. However, there are a number of disadvantages for the intubation laryngeal mask. So z. For example, a special tube is required for the intubation laryngeal mask. Due to the minimum available tube size of 6 mm internal diameter, this can only be used from an age of approx. 6 - 8 years or> 30 kg body weight. Furthermore, this special tube does not have a "low-pressure" cuff which protects the mucous membrane. Both models (reusable and disposable) of the intubation laryngeal mask and the special tubes are expensive and therefore generally not purchased for every operating room, but become central In case of an emergency the laryngeal mask has to be placed on the intubation for blind intubation. onslarynxmaske be changed. Occasionally, the correct insertion of the intubation laryngeal mask for blind intubation can not be achieved in patients with severely impaired head recession. The reason for this is the rigid shaft of the intubation laryngeal mask. Likewise, the use of the intubation laryngeal mask may be problematic in patients with a low thyroidal distance. Removal of the intubation laryngeal mask via the in situ tube is recommended, as pressure can be created by the rigid shaft of the laryngeal mask. This maneuver requires some practice and can be described as awkward.

Although an endotracheal tube with a maximum inner diameter of 6.0 mm can also be placed over the standard laryngeal mask by means of a cumbersome procedure using a bronchoscope (Tonner et al., 1995), this procedure also has a number of disadvantages. It is a very troublesome and expensive procedure. You need a special bronchoscope and a light source. Due to the inner diameter of the laser mask shaft, it allows a maximum of a tube with an inner diameter of 6.0 mm, which is too small for adult patients. The removal of the laryngeal mask after intubation is associated with a high Extubationsgefahr. Changing to a larger tube requires a "tube exchanger." Due to the complicated procedure and the high costs, this is not a routine procedure, the required material can only be stored to a limited extent and in an emergency is only available with a delay is unsuitable for preclinical emergency medicine.

A more practicable method of intubating the patient through a standard laryngeal mask is to use the COOK "Aintree" Intubation Catheter in conjunction with a special bronchoscope. The "Aintree" Intubation Catheter is pulled over the bronchoscope and passed bronchoscopically through the laryngeal mask Trachea placed. After removal of the bronchoscope and laryngeal mask, the tube is advanced into the trachea via the "Aintree" Intubation Catheter, which serves as a guide bar However, significant disadvantages of this method are the high acquisition costs for the bronchoscope and the risk of damage to the bronchoscope glass fibers due to kinking in the area Transition to the bronchoscope handle, a site of predilection for fiberglass damage when using the Aintree Intubation Catheter. A blind intubation (without Due to the length of the "Aπitree" catheter (56 or 83 cm), a bronchoscope with an above-average length (at least 60 cm) is required, since otherwise the controllability of the bronchoscope is not given. Likewise, due to the "Aintree" inner lumen, it must be a very thin bronchoscope with an outside diameter of less than 4.7 mm due to the high cost, central storage will result and in case of emergency, the material will be available only after a delay. The high price of the special bronchoscope is partially offset by the new acquisition, which is also unsuitable for preclinical emergency medicine.

All of the abovementioned methods for endotracheal intubation via a laryngeal mask require a cost-intensive device park (intubation laryngeal mask, special bronchoscopes and light sources, special tubes, tube exchangers, etc.), are not suitable for preclinical emergency medicine or can not be used in patients with impaired head populations or It is therefore the object of the invention to develop a device which overcomes these disadvantages.

The object is achieved by a larynx mask with a mask part, a shaft and an intubation tube, wherein the shaft has a patient-near tubular portion and an adjoining designed as an open guide rail section, and the intubation tube through the shaft and through the mask member longitudinally displaceable and can be fixed by inflating a tube cuff in the tubular portion near the patient of the shaft.

The device according to the invention enables the first securing of the airway via the laryngeal mask function and, if required, fast, simple and cost-effective endotracheal intubation, in that a standard intubation tube constitutes a functional component of the laryngeal mask. This has no usable for ventilation shaft without the intubation tube. Rather, the intubation tube is inserted into the shaft of the laryngeal mask prior to insertion of the device into the larynx region of the patient and fixed by inflating the tube cuff in a near-patient tubular portion of the shaft. This section has on the side facing the tongue base preferably means that prevent slipping out of the inflated tube cuff from the shaft, z. B. across extending wrinkles or grooves or openings into which it can extend. The intubation tube thus fixed in the shaft at the same time seals the mask part to the outside. After insertion of the device into the larynx region of the patient, the latter can be supplied with oxygen as usual via a ventilation system connected to the tube connector. The intubation tube thus completely assumes the function of the normal laryngeal mask shaft. If necessary, z. For example, if there is a risk that blood or stomach contents get into the lungs, a normal standard bronchoscope or intubation catheter suitable for "blind" endotracheal intubation, as described, for example, in German Patent Application 10 2006 023 273.9, can be used Then the tube cuff is unblocked and the intubation tube is advanced over the now serving as a guide bronchoscope or the intubation catheter into the trachea of the patient and fixed there by re-inflation of the tube cuff. After removal of the bronchoscope or intubation catheter, the patient may be first ventilated as needed before removing the remainder of the lens mask, ie, mask portion and shaft, in order to reduce the risk of extubation in removing the now unneeded portions of the laryngeal mask. the patient remote tubular portion of the shaft is preferably on the side facing the lower jaw provided with a longitudinal slot. As a result, the patient-distal tubular region of the shaft can already be separated from the intubation tube while the latter remains connected to the respiratory system via the connector. As a result, valuable space is gained at the intubation tube and thus a secure fixation of the intubation tube by hand is possible. This is important for the safe removal of the remaining laryngeal mask via the patient-far end of the intubation tube which is only separated from the connector for a short time for this purpose.

A decisive advantage of the laryngeal mask according to the invention is the possibility of use on small children from a body weight of about 8 kg. The previously used intubation laryngeal masks can only be used in children with a body weight of about 30 kg. Furthermore, no special expensive and fracture-prone bronchoscope such. The laryngeal mask according to the invention can be used in preclinical emergency medicine (eg ambulance) Another advantage of the laryngeal mask according to the invention is the replacement of the tubular ventilation system which is functional for ventilation. rynxmaskenschaftes by a commercially inexpensive and area-wide stockpiled endotracheal tube. Compared to the currently existing corresponding methods, the z. T. complex action sequences, the use of the laryngeal mask according to the invention allows a faster and safer endotracheal intubation. Iatrogenic errors during intubation can thus be avoided and material and personnel costs can be reduced.

The laryngeal mask according to the invention is explained in more detail below with reference to drawings. Show it:

1 is a side view of the mask and the shaft of the laryngeal mask,

2 shows a side view of the complete and ready-to-use laryngeal mask,

Fig. 3 is a plan view of the patient distal tubular portion of the shaft.

The mask part and the shaft of the laryngeal mask are shown in Fig. 1 in side view. The mask part 10 has a cuff 12 which can be inflated via the feed line 14. At the patient far end are a control balloon 16 and a connector for connecting z. B. a syringe serving the inflation of the mask cuff. The mask part is followed by a near-patient tubular portion 18 of the shaft, which has folds 20 running transversely to the shaft on the side of the patient facing the tongue base of the patient. Distanced by an open channel-shaped region 22, a second tubular section 24 is located at the distal end of the shaft. FIG. 2 shows the complete and ready-to-use laryngeal mask in which the intubation tube 26 is inserted into the shaft and blocked by the blocked tube in the proximal tubular region Tube cuff 28 is fixed. The blockage of the cuff takes place via the feed line 30. The connector 32 of the intubation tube serves to connect the ventilator. As can be seen from FIG. 3, a continuous slot 34, which facilitates insertion and removal of the intubation tube, is located on the side of the shaft facing away from the patient on the side facing the lower jaw of the patient. LITERATURE

Langenstein H, Möller F (1998) First experience with the intubation laryngeal mask. Anesthetist 47, 311-319.

Kundra P, Sujata N, Ravishankar M (2005) Conventional tracheal tubes for intubating through the intubating laryngeal mask airway. Anesth Anaig 100 (1), 284-288.

Tonner PH, Scholz J, Pothmann W (1995) The Unexpected Difficult Intubation: Fiberoptic endotracheal intubation via the laryngeal mask. Anasthesiol Intensivmed Notfallmed Schmerzther 30 (3), 192-195.

Claims

1. Laryngeal mask with a mask part (10), a shaft (18, 22) and an intubation tube (26), characterized in that the shaft (18, 22) has a tubular portion (18) near the patient and an adjoining portion (22) formed as an open guide rail, wherein the intubation tube (26) is longitudinally displaceable by the shaft (18, 22) and by the mask member (10) and fixable by inflating a tube cuff (28) in the proximal tubular portion (18) of the shaft (18, 22) , 2. laryngeal mask according to claim 1, characterized in that the shaft (18, 22) in the near-patient tubular (18) region has folds (20), grooves or openings. 3. laryngeal mask according to one of the preceding claims, characterized in that the shaft (18, 22) has a remote from the open guide rail portion (22) subsequent patient-distal tubular portion (24). 4. Laryngeal mask according to one of the preceding claims, characterized in that the wall of the patient distal tubular portion (24) on the side of the opening of the guide rail formed as a portion (22) is divided by a longitudinal slot (30).