Laryngeal tube

The laryngeal tube (also known as the King LT)[1] is an airway management device designed as an alternative to other airway management techniques such as mask ventilation, laryngeal mask airway, and tracheal intubation. This device can be inserted blindly through the oropharynx into the hypopharynx to create an airway during anaesthesia and cardiopulmonary resuscitation so as to enable mechanical ventilation of the lungs.[2]

Laryngeal tube
Standard Laryngeal Tube size 5 (VBM Medizintechnik, Sulz, Germany) with the syringe for cuff inflation
SynonymsKing LT
SpecialtyAnesthesiology, Emergency medicine
InterventionAirway management
Invention date1999
ManufacturerVBM Medizintechnik
Related itemsLaryngeal mask airway

Medical use

Various studies have shown that insertion and use of the standard tracheal tube is easy, providing a clear airway in the majority of cases.[2][3][4][5][6] Comparative studies indicate that the standard laryngeal tube is generally as effective as the laryngeal mask airway,[2][7][8][9][10] while some studies indicate that the Pro-seal laryngeal mask may be more effective than the standard laryngeal tube under controlled ventilation conditions in general anaesthesia.[11][12] The indications and contraindications for use of the laryngeal tube are similar to those of the laryngeal mask airway and include the use in general anaesthesia for minor surgical operations.[2] Several studies describe the usefulness of the device in securing a difficult airway, even in cases where insertion of the laryngeal mask had failed.[13][14] The double-lumen laryngeal tube-Suction II, with the possibility of placing a gastric tube, has been found to have distinct advantages over the standard laryngeal tube and has been recommended as a first-line device to secure the airway in emergency situations when direct laryngoscopy fails in neonates and infants.[15] The laryngeal tube is also recommended for medical personnel not experienced in tracheal intubation, and as a rescue device when intubation has failed in adults.[16] According to the manufacturer the use of Laryngeal tubes is contraindicated in people with an intact gag reflex, known oesophageal disease, and people who have ingested caustic substances.[17]

Description

In its basic (standard) version, the laryngeal tube is made up of a tube with a larger balloon cuff in the middle (oropharyngeal cuff) and a smaller balloon cuff at the end (oesophageal cuff). The tube is kinked at an angle of 30-45° in the middle; the kink is located in the larger cuff. There are two apertures, located between the two cuffs, through which ventilation takes place. Both cuffs are inflated through a single small lumen line and pilot balloon. The cuffs are high-volume, low-pressure cuffs with inflating volume ranging from 10 ml (size 0) to 90 ml (size 5). A large bore syringe, which is marked with the required volume for each size, is used to inflate the cuffs. A cuff inflator can also be used, in which case the cuffs should be inflated to a pressure of 60 cm H2O. Three black lines on the tube indicate the depth of insertion when aligned with the teeth.[2]

History

Laryngeal tube placement in glass model

The laryngeal tube was developed in Germany and introduced to the European market by VBM Medizintechnik in the autumn of 1999.[18] Since then the design has been modified several times. Currently four different models are used: the standard tube as single use or re-use models and the modified tube (laryngeal tube-Suction II) as single use or re-use models. The re-usable models can be autoclaved up to 50 times, while the modified laryngeal tube (Suction) incorporates an extra lumen for inserting a gastric tube or suction system. There are six sizes of the laryngeal tube, ranging from newborn (size 0) to large adult (size 5). The connector of the tube is color-coded for each size. The different sizes are calibrated according to weight or height.[2]

The laryngeal tube was licensed for use during cardiopulmonary resuscitation in Japan in 2002,[2] and approved for use in the United States by the Food and Drug Administration in 2003.[19] The European Resuscitation Council, in its 2005 guidelines for advanced life support (ALS), accepts its use as an alternate airway device for medical personnel who are not experienced in tracheal intubation.[20]

See also

References

  1. CME Module 10: Recent Developments in Supraglottic Airway Devices Archived 2012-11-27 at the Wayback Machine, University of Toronto, Department of Anesthesia Website retrieved 21 May 2013
  2. Asai, T; Shingu, K (December 2005). "The laryngeal tube". British Journal of Anaesthesia. 95 (6): 729–36. doi:10.1093/bja/aei269. PMID 16286348.
  3. Sunde, Geir Arne; Brattebø, Guttorm; Ødegården, Terje; Kjernlie, Dag Frode; Rødne, Emma; Heltne, Jon-Kenneth (1 October 2012). "Laryngeal tube in 347 out-of-hospital cardiac arrest patients - an acceptable airway tool, but not the final answer?". Resuscitation. 83 (1): e15. doi:10.1016/j.resuscitation.2012.08.039. PMID 21889472.
  4. Asai, T.; Murao, K.; Shingu, K. (1 November 2000). "Efficacy of the laryngeal tube during intermittent positive-pressure ventilation". Anaesthesia. 55 (11): 1099–1102. doi:10.1046/j.1365-2044.2000.01710.x. PMID 11069337.
  5. Asai, T.; Shingu, K.; Cook, T. (1 August 2003). "Use of the laryngeal tube in 100 patients". Acta Anaesthesiologica Scandinavica. 47 (7): 828–832. doi:10.1034/j.1399-6576.2003.00183.x. PMID 12859303. S2CID 863261.
  6. Doerges, Volker; Ocker, Hartmut; Wenzel, Volker; Schmucker, Peter (1 May 2000). "The Laryngeal Tube: A New Simple Airway Device". Anesthesia & Analgesia. 90 (5): 1220–1222. doi:10.1097/00000539-200005000-00042. PMID 10781484. S2CID 5537072.
  7. Asai, T.; Kawashima, A.; Hidaka, I.; Kawachi, S. (1 November 2002). "The laryngeal tube compared with the laryngeal mask: insertion, gas leak pressure and gastric insufflation". British Journal of Anaesthesia. 89 (5): 729–732. doi:10.1093/bja/89.5.729. PMID 12393771.
  8. Cook, T. M. (1 September 2003). "Randomized comparison of laryngeal tube with classic laryngeal mask airway for anaesthesia with controlled ventilation". British Journal of Anaesthesia. 91 (3): 373–378. doi:10.1093/bja/aeg192. PMID 12925477.
  9. Ocker, H; Wenzel, V; Schmucker, P; Steinfath, M; Dörges, V (October 2002). "A comparison of the laryngeal tube with the laryngeal mask airway during routine surgical procedures". Anesthesia and Analgesia. 95 (4): 1094–7, table of contents. doi:10.1097/00000539-200210000-00057. PMID 12351302.
  10. Wrobel, M; Grundmann, U; Wilhelm, W; Wagner, S; Larsen, R (August 2004). "[Laryngeal tube versus laryngeal mask airway in anaesthetised non-paralysed patients. A comparison of handling and postoperative morbidity]. (German)". Der Anaesthesist. 53 (8): 702–8. doi:10.1007/s00101-004-0697-x. PMID 15167948.
  11. Brimacombe, Joseph; Keller, Christian; Brimacombe, Lawrence (1 September 2002). "A Comparison of the Laryngeal Mask Airway ProSeal™ and the Laryngeal Tube Airway in Paralyzed Anesthetized Adult Patients Undergoing Pressure-Controlled Ventilation". Anesthesia & Analgesia. 95 (3): 770–776. doi:10.1213/00000539-200209000-00045. PMID 12198070. S2CID 36634107.
  12. Cook, T. M. (1 November 2003). "Randomized crossover comparison of the ProSealTM laryngeal mask airway with the Laryngeal Tube(R) during anaesthesia with controlled ventilation". British Journal of Anaesthesia. 91 (5): 678–683. doi:10.1093/bja/aeg239. PMID 14570790.
  13. Matioc, Adrian A.; Olson, John (1 December 2004). "Use of the Laryngeal Tube™ in two unexpected difficult airway situations: lingual tonsillar hyperplasia and morbid obesity". Canadian Journal of Anesthesia. 51 (10): 1018–1021. doi:10.1007/BF03018491. PMID 15574554. S2CID 22751635.
  14. Asai, T.; Matsumoto, S.; Shingu, K.; Noguchi, T; Koga, K. (1 August 2005). "Use of the laryngeal tube after failed insertion of a laryngeal mask airway". Anaesthesia. 60 (8): 825–826. doi:10.1111/j.1365-2044.2005.04312.x. PMID 16029243. S2CID 46022613.
  15. Scheller, Bertram; Schalk, Richard; Byhahn, Christian; Peter, Norman; L’Allemand, Nanette; Kessler, Paul; Meininger, Dirk (30 June 2009). "Laryngeal tube suction II for difficult airway management in neonates and small infants". Resuscitation. 80 (7): 805–810. doi:10.1016/j.resuscitation.2009.03.029. PMID 19410354.
  16. Schalk, Richard; Byhahn, Christian; Fausel, Felix; Egner, Andreas; Oberndörfer, Dieter; Walcher, Felix; Latasch, Leo (28 February 2010). "Out-of-hospital airway management by paramedics and emergency physicians using laryngeal tubes". Resuscitation. 81 (3): 323–326. doi:10.1016/j.resuscitation.2009.11.007. PMID 20006418.
  17. "King Systems Corresponds to the FDA Regarding KLT(S)D Labeling". King Systems. Archived from the original on 4 November 2014. Retrieved 4 November 2014.
  18. Genzwuerker, H.V.; Dhonau, S; Ellinger, K (31 January 2002). "Use of the laryngeal tube for out-of-hospital resuscitation". Resuscitation. 52 (2): 221–224. doi:10.1016/S0300-9572(01)00472-5. PMID 11841891.
  19. Russi, Christopher S.; Wilcox, Cari L.; House, Hans R. (28 February 2007). "The laryngeal tube device: a simple and timely adjunct to airway management". The American Journal of Emergency Medicine. 25 (3): 263–267. doi:10.1016/j.ajem.2006.03.018. PMID 17349898.
  20. Wiese, C.H.R.; Semmel, T.; Müller, J.U.; Bahr, J.; Ocker, H.; Graf, B.M. (31 January 2009). "The use of the laryngeal tube disposable (LT-D) by paramedics during out-of-hospital resuscitation—An observational study concerning ERC guidelines 2005". Resuscitation. 80 (2): 194–198. doi:10.1016/j.resuscitation.2008.08.023. PMID 19010582.
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