Airway management

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]Associate Editor(s)-in-Chief: Nima Nasiri, M.D.[2]

Overview

Airway management is the process of ensuring that there is an open pathway between a patient’s lungs and the outside world, and the lungs are safe from aspiration. Airway loss is a major cause of preventable prehospital death in trauma patients. Trauma airway management is complicated because of associated pathology and suboptimal intubating conditions, and also because complete preintubation evaluation and planning is rarely possible. Furthermore, trauma patients are at increased risk for hypoxia, airway obstruction, hypoventilation, hypotension, and aspiration. To be skillful at the airway management, the provider must have knowledge of the important anatomical, physiological, and pathological features related to the airway as well as knowledge of the various tools and methods that have been developed for this purpose. They also should know the differences between the adult, pediatric and neonatal airways and well versed with other difficult airways as these differences could impact on the safe and effective control of the airway. Indications for intervening to secure the airway is a long list, some of which include respiratory failure, a reduced level of consciousness (Glasco Coma Scale less than or equal to 8), rapid detoriation of mental status, airway injury or compromise, injuries causing high risk for aspiration, which includes all penetrating injuries to the abdomen or chest wall. Inadequate airway management may lead to a cardiovascular arrest and compromise life-saving interventions in trauma patient. Several airway control devices and techniques are available to assist healthcare providers in order to maintain ventilation and oxygenation. These include bag valve mask (BVM) ventilation, direct laryngoscopy with endotracheal intubation (ETI) and adjunct supraglottic airway devices such as the laryngeal mask airway.

Functional anatomy of the upper airway

For a successful approach to airway management, health care providers must have knowledge of important anatomical, physiological, and pathological features related to the airway as well as knowledge of the various equipment and methods that can be utilized for this purpose. Also, the difference of airway management in adults, pediatrics, and neonates is very critical.[1][2]


  • The upper airway is consists of the pharynx and nasal cavities, the larynx and trachea may be included, and the oral cavity provides an alternate air entry into the respiratory system.
  • The nose is a bony and cartilage structure attached to the facial skeleton and is divided into the two nasal cavities. The nose functions as a heater and humidifier of inspired gas, it is also helping in phonation and vocal resonation and houses the olfactory receptors. The paranasal sinuses drain into the nasal cavities.
  • An endotracheal tube may be passed through the nose into the trachea when necessary to protect the airway and achieve positive-pressure ventilation. The mouth opens posteriorly into the oropharynx and forms the entrance to the digestive tract as well as an alternate pathway for respiration. It is also involved in phonation.
  • Orotracheal intubation can be used as an alternative to nasal intubation to achieve airway protection and maintain ventilation; but depending upon position of patient who is arriving and difficulty that is due to anatomical shape of upper airway, this route may not be doable, for instance in supine unconscious persons, the backward movement of the tongue and lower jaw may cause airway obstruction and performing orotracheal intubation may not be the optimal way of managing airway.
  • The pharynx is a U-shaped fibromuscular tube extending from the base of the skull to the cricoid cartilage at the entrance to the esophagus. Anteriorly it opens into the nasal cavity, the mouth, and the larynx, which divide it into the naso-, oro-, and laryngopharynx, respectively. The pharynx is involved with the act of swallowing.
  • The larynx consists of cartilages and fibro-elastic membranes covered by a sheet of muscles and mucous membrane. It functions as an open valve in respiration, a partially closed valve in phonation, and as a closed valve protecting against aspiration during swallowing. The larynx extends from its oblique entrance formed by the aryepiglottic folds, the tip of the epiglottis, and the posterior commissure to the lower border of the cricoid cartilage and bulges posteriorly into the laryngopharynx.
  • The trachea extends from the lower edge of the cricoid cartilage to the carina where it divides into the mainstem bronchi. It is formed by U-shaped cartilaginous rings anteriorly and is closed posteriorly by the trachealis muscle. A properly placed endotracheal tube should have its tip at about midtracheal level


upper airway systemstaff (2014). "Medical gallery of Blausen Medical 2014". WikiJournal of Medicine 1 (2). DOI:10.15347/wjm/2014.010. ISSN 2002-4436.


Recommendations for evaluation of airway

The basic approach in airway management in the emergency setting includes:[3]


  • Protection from aspiration and pneumonia related to that.
  • Providing adequate oxygenation and ventilation.

Following are steps that must be considered prior to conducting airway management, these include:[4]


  • History: An airway history should be conducted whenever it is possible before airway management in all patients to detect medical, surgical, and anesthetic factors that may indicate the presence of a difficult airway. A detailed review of previous anesthetic records, if available, may provide useful information about airway management.
  • Physical Examination: An airway physical examination should be conducted before the initiation of airway management. The goal of physical examination is to detect physical characteristics that may indicate the presence of a difficult airway because an unsuccessful upper airway mangaement is associated with increase in mortality and morbidity.
  • Additional Evaluation. Additional evaluation may be indicated in some patients to characterize the likelihood or nature of the anticipated airway difficulty. Certain diagnostic tests (e.g., radiography, computed tomography scans, fluoroscopy) can identify a variety of acquired or congenital features in patients with difficult airways

Techniques for airway management

The decision about whether an airway intervention is required or not is crucial for patients survival and depends on first responders skills and qucik assessment and decision. These crucial steps requires techniques which is used universally in order to manage patient's airway, followings are initial evaluation and methods which had been developed to assist patient's ventilation and keep the airway patent, these techniques include:[5][6][7][8][9][10]




  • Spontaneous breathing: When a provider is confronted with an awake patient having a patent airway. Spontaneous ventilation can be assisted through the placement of a nasal or oral airway. Oxygenation can be improved by giving oxygen via nasal cannula, simple face mask, or nonrebreather face mask. Unfortunately, the maximally achieved FiO2 is often overestimated by care providers and hypoventilation resulting in hypercapnia cannot be normalized with increase oxygen supply.
  • Mouth-to-Mouth ventilation: Mouth-to-mouth or mouth-to-nose ventilation is still a recognized management technique for prehospital airway management. However, because of risk of infection transmission it is recommended by American heart association that health care providers do "Hands-only" CPR. Proper face masks should be utilized if they are available.[11][3]


  • Bag-mask ventilation: It is a standard initial approach to airway management in the prehospital and hospital settings.
  • Proper preoxygenation prior to intubation provides patients with improved oxygenation and increases the time to hypoxemia.
  • BMV can be applied as a sole practitioner or in conjunction with a second care provider.
  • BMV can also occur during spontaneous respiration as a pressure support method for patients with depressed tidal volumes and inadequate ventilation.
  • This is similar to the use of CPAP or BiPAP to assist patients who are spontaneously breathing but are not adequately oxygenating or ventilating.
  • Oropharyngeal and nasopharyngeal airways:
  • This is used as an adjunct device for spontaneous or assisted ventilation.
  • Oropharyngeal and nasopharyngeal airways are frequently utilized by prehospital care providers to improve oxygenation and ventilation.
  • These devices are frequently used to temporize until a more definitive airway is obtained, and there are several circumstances that prohibit their placement (severe head or facial injuries).
  • Supraglottic airway devices: Supraglottic airway (SGA) device placement is very useful to keep the airways open, it has advantages in comparison with Endotracheal tube intubation, or other methods these are include:[12][13]
    • Requires less training than ETI.
    • It is less invasive than ETI.
    • It can offer better ventilation during transport than bag mask ventilation alone.
    • Supraglottic airway devices can be used as an alternative tool in cases of failed intubation.
  • Endotracheal intubation: It is the gold standard for definitive airway management in the prehospital setting. ETI advantages include:
    • It allows for positive pressure ventilation, positive end-expiratory pressure (PEEP), positive pressure recruitment maneuvers, and protection from aspiration.
      • Mallampati Classification for Assessment of Upper Airway Anatomical Balance: It's named after the Indian-born American anaesthesiologist Seshagiri Mallampati, is used to predict the ease of endotracheal intubation.The test assess the distance from the tongue base to the roof of the mouth visually. It is an indirect way of assessing how difficult intubation will be.
      • Modified Mallampati Scoring:[14]
      • Class I: Soft palate, uvula, fauces, pillars visible.
      • Class II: Soft palate, a major part of the uvula, fauces visible.
      • Class III: Soft palate, the base of uvula visible.
      • Class IV: Only hard palate visible.
  • Rapid sequence intubation versus no-medication intubation
    • Use of pharmacological muscle relaxant eases the intubation process by relaxing muscles in the pharynx. Rapid sequence intubation (RSI) techniques incorporate pharmacologic muscle relaxation and are utilized by anesthesiologists and emergency medicine physicians. However, the disadvantage of these techniques is the elimination of a patient's ability to breathe spontaneously if the intubation fails. Yet many providers conversely argue that optimal intubating conditions should be achieved prior to attempted intubation in the prehospital setting. The reason for this is that prehospital airway intervention is frequently time sensitive due to trauma, cardiac arrest, hypoxemia, or aspiration risk.


Photograph of an anesthesiologist using the Glidescope video laryngoscope to intubate the trachea of a morbidly obese elderly person with challenging airway anatomy(DiverDave (talk)) created this work entirely by myself. (Original uploaded on en.wikipedia)


Management of the airway in patients with suspected spinal cord injury

  • In patients with suspected trauma, extreme caution must be taken in aligning the head and neck. The cervical spine must be maintained in a neutral mid-line position, the exception to this is physical resistance.
  • Manual in-line stabilization is the technique of choice in any suspected cervical spine injury, during endotracheal intubation. In this technique, head grasped firmly at the mastoid processes and the occiput.[15]
  • Traction should be avoided as it may distract the cervical spine and cause more neurological damage, even after manual in-line stabilization. [16]
  • Jaw thrust is the only basic airway opening maneuver appropriate for any patient with a suspected cervical spine injury.
  • Suction and use of forceps under direct vision using a laryngoscope with the head and neck maintained in the neutral position are the best methods of removing foreign material from the mouth and pharynx but back blows and abdominal or chest thrusts are acceptable only in extreme conditions.
  • In order to minimize the risk of hypoxic damage from airway obstruction in an unconscious patient, they should be placed in the lateral position using a log rolling technique.

Manual Methods

Head Tilt/ Chin Lift

The simplest way of ensuring an open airway in an unconscious patient is to use a head tilt chin lift technique, thereby lifting the tongue from the back of the throat. This is taught on most first aid courses as the standard way of clearing an airway.

Jaw Thrust

  • The jaw thrust is a technique used on patients with a suspected spinal injury and is used on a supine patient.
  • The practitioner uses their thumbs to physically push the posterior (back) aspects of the mandible upwards - only possible on a patient with a GCS < 8 (although patients with a GCS higher than this should also be maintaining their own patent airway).
  • When the mandible is displaced forward, it pulls the tongue forward and prevents it from occluding (blocking) the entrance to the trachea, helping to ensure a patent (secure) airway.
  • Jaw thrust is no longer advised by International Liaison Committee on Resuscitation (ILCOR) on patients with spinal cord injury, although healthcare professional still use this technique for rescuing patients.

Removal of Vomit and Regurgitation

  • In the case of a patient who vomits or has other secretions in the airway, these techniques will not be enough.
  • Suitably trained clinicians may elect to use suction to clean out the airway, although this may not always be possible.
  • An unconscious patient who is regurgitating stomach contents should be turned into the recovery position when there is no suction equipment available, as this allows (to a certain extent) the drainage of fluids out of the mouth instead of down the trachea.

Related Chapters

References

  1. Bryan, Yvon; Johnson, Kathleen; Botros, Daniel; Groban, Leanne (2015). "Anatomic and physiopathologic changes affecting the airway of the elderly patient: implications for geriatric-focused airway management". Clinical Interventions in Aging: 1925. doi:10.2147/CIA.S93796. ISSN 1178-1998.
  2. Harless J, Ramaiah R, Bhananker SM (January 2014). "Pediatric airway management". Int J Crit Illn Inj Sci. 4 (1): 65–70. doi:10.4103/2229-5151.128015. PMC 3982373. PMID 24741500.
  3. 3.0 3.1 Law, J. Adam; Broemling, Natasha; Cooper, Richard M.; Drolet, Pierre; Duggan, Laura V.; Griesdale, Donald E.; Hung, Orlando R.; Jones, Philip M.; Kovacs, George; Massey, Simon; Morris, Ian R.; Mullen, Timothy; Murphy, Michael F.; Preston, Roanne; Naik, Viren N.; Scott, Jeanette; Stacey, Shean; Turkstra, Timothy P.; Wong, David T. (2013). "The difficult airway with recommendations for management – Part 2 – The anticipated difficult airway". Canadian Journal of Anesthesia/Journal canadien d'anesthésie. 60 (11): 1119–1138. doi:10.1007/s12630-013-0020-x. ISSN 0832-610X.
  4. Apfelbaum, Jeffrey L.; Hagberg, Carin A.; Caplan, Robert A.; Blitt, Casey D.; Connis, Richard T.; Nickinovich, David G.; Hagberg, Carin A.; Caplan, Robert A.; Benumof, Jonathan L.; Berry, Frederic A.; Blitt, Casey D.; Bode, Robert H.; Cheney, Frederick W.; Connis, Richard T.; Guidry, Orin F.; Nickinovich, David G.; Ovassapian, Andranik (2013). "Practice Guidelines for Management of the Difficult Airway". Anesthesiology. 118 (2): 251–270. doi:10.1097/ALN.0b013e31827773b2. ISSN 0003-3022.
  5. Ambrosio, Art; Marvin, Kastley; Perez, Colleen; Byrnes, Chelsie; Gaconnet, Cory; Cornelissen, Chris; Brigger, Matthew (2017). "Pediatric Trainees Managing a Difficult Airway: Comparison of Laryngeal Mask Airway, Direct, and Video-Assisted Laryngoscopy". OTO Open. 1 (2): 2473974X1770791. doi:10.1177/2473974X17707916. ISSN 2473-974X.
  6. Jacobs, PE; Grabinsky, A (2014). "Advances in prehospital airway management". International Journal of Critical Illness and Injury Science. 4 (1): 57. doi:10.4103/2229-5151.128014. ISSN 2229-5151.
  7. Abdo, Wilson F; Heunks, Leo MA (2012). "Oxygen-induced hypercapnia in COPD: myths and facts". Critical Care. 16 (5): 323. doi:10.1186/cc11475. ISSN 1364-8535.
  8. Crewdson, K.; Lockey, D. J.; Røislien, J.; Lossius, H. M.; Rehn, M. (2017). "The success of pre-hospital tracheal intubation by different pre-hospital providers: a systematic literature review and meta-analysis". Critical Care. 21 (1). doi:10.1186/s13054-017-1603-7. ISSN 1364-8535.
  9. Qureshi, Mosarrat J; Kumar, Manoj (2018). "Laryngeal mask airway versus bag-mask ventilation or endotracheal intubation for neonatal resuscitation". Cochrane Database of Systematic Reviews. doi:10.1002/14651858.CD003314.pub3. ISSN 1465-1858.
  10. Singh, Virendra; Khatana, Shruti; Gupta, Pranav; Bhagol, Amrish (2011). "Supplemental oxygen therapy: Important considerations in oral and maxillofacial surgery". National Journal of Maxillofacial Surgery. 2 (1): 10. doi:10.4103/0975-5950.85846. ISSN 0975-5950.
  11. Frat, Jean-Pierre; Coudroy, Rémi; Marjanovic, Nicolas; Thille, Arnaud W. (2017). "High-flow nasal oxygen therapy and noninvasive ventilation in the management of acute hypoxemic respiratory failure". Annals of Translational Medicine. 5 (14): 297–297. doi:10.21037/atm.2017.06.52. ISSN 2305-5839.
  12. Wang, Henry E.; Szydlo, Daniel; Stouffer, John A.; Lin, Steve; Carlson, Jestin N.; Vaillancourt, Christian; Sears, Gena; Verbeek, Richard P.; Fowler, Raymond; Idris, Ahamed H.; Koenig, Karl; Christenson, James; Minokadeh, Anushirvan; Brandt, Joseph; Rea, Thomas (2012). "Endotracheal intubation versus supraglottic airway insertion in out-of-hospital cardiac arrest". Resuscitation. 83 (9): 1061–1066. doi:10.1016/j.resuscitation.2012.05.018. ISSN 0300-9572.
  13. Wang, Henry E.; Schmicker, Robert H.; Daya, Mohamud R.; Stephens, Shannon W.; Idris, Ahamed H.; Carlson, Jestin N.; Colella, M. Riccardo; Herren, Heather; Hansen, Matthew; Richmond, Neal J.; Puyana, Juan Carlos J.; Aufderheide, Tom P.; Gray, Randal E.; Gray, Pamela C.; Verkest, Mike; Owens, Pamela C.; Brienza, Ashley M.; Sternig, Kenneth J.; May, Susanne J.; Sopko, George R.; Weisfeldt, Myron L.; Nichol, Graham (2018). "Effect of a Strategy of Initial Laryngeal Tube Insertion vs Endotracheal Intubation on 72-Hour Survival in Adults With Out-of-Hospital Cardiac Arrest". JAMA. 320 (8): 769. doi:10.1001/jama.2018.7044. ISSN 0098-7484.
  14. Roth, Dominik; Pace, Nathan L; Lee, Anna; Hovhannisyan, Karen; Warenits, Alexandra-Maria; Arrich, Jasmin; Herkner, Harald (2018). "Airway physical examination tests for detection of difficult airway management in apparently normal adult patients". Cochrane Database of Systematic Reviews. doi:10.1002/14651858.CD008874.pub2. ISSN 1465-1858.
  15. Thiboutot, François; Nicole, Pierre C.; Trépanier, Claude A.; Turgeon, Alexis F.; Lessard, Martin R. (2009). "Effect of manual in-line stabilization of the cervical spine in adults on the rate of difficult orotracheal intubation by direct laryngoscopy: a randomized controlled trial". Canadian Journal of Anesthesia/Journal Canadien d'anesthésie. 56 (6): 412–418. doi:10.1007/s12630-009-9089-7. ISSN 0832-610X.
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Emergency Medical Responder (Second Canadian Version). Brady. 2006. pp. 92–97. ISBN 0-13-127824-X. Unknown parameter |coauthors= ignored (help)

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