Jump to content

Airway management

From Wikipedia, the free encyclopedia
(Redirected from Chest thrust)
Airway management
Photograph of an anesthesiologist using the Glidescope video laryngoscope to intubate the trachea of a morbidly obese elderly person with challenging airway anatomy
MeSHD058109

Airway management includes a set of maneuvers and medical procedures performed to prevent and relieve airway obstruction. This ensures an open pathway for gas exchange between a patient's lungs and the atmosphere.[1] This is accomplished by either clearing a previously obstructed airway; or by preventing airway obstruction in cases such as anaphylaxis, the obtunded patient, or medical sedation. Airway obstruction can be caused by the tongue, foreign objects, the tissues of the airway itself, and bodily fluids such as blood and gastric contents (aspiration).[citation needed]

Airway management is commonly divided into two categories: basic and advanced.

Basic techniques are generally non-invasive and do not require specialized medical equipment or advanced training. These include head and neck maneuvers to optimize ventilation, abdominal thrusts, and back blows.

Advanced techniques require specialized medical training and equipment, and are further categorized anatomically into supraglottic devices (such as oropharyngeal and nasopharyngeal airways), infraglottic techniques (such as tracheal intubation), and surgical methods (such as cricothyrotomy and tracheotomy).[2]

Airway management is a primary consideration in the fields of cardiopulmonary resuscitation, anaesthesia, emergency medicine, intensive care medicine, neonatology, and first aid. The "A" in the ABC treatment mnemonic is for airway.[3]

Basic airway management

[edit]

Basic airway management involves maneuvers that do not require specialized medical equipment (in contrast to advanced airway management). It is mainly used in first aid since it is non-invasive, quick, and relatively simple to perform. The simplest way to determine if the airway is obstructed is by assessing whether the patient is able to speak.[4] Basic airway management can be divided into treatment and prevention of an obstruction in the airway.

Back slaps and abdominal thrusts are performed to relieve airway obstruction by foreign objects
Inward and upward force during abdominal thrusts

[citation needed]

Treatment

[edit]

Treatment includes different maneuvers that aim to remove the foreign body that is obstructing the airway. This type of obstruction most often occurs when someone is eating or drinking. Most modern protocols, including those of the American Heart Association, American Red Cross and the European Resuscitation Council,[5] recommend several stages, designed to apply increasingly more pressure. Most protocols recommend first encouraging the victims to cough, and allowing them an opportunity to spontaneously clear the foreign body if they are coughing forcefully. If the person's airway continues to be blocked, more forceful maneuvers such as hard back slaps and abdominal thrusts (Heimlich maneuver) can be performed. Some guidelines recommend alternating between abdominal thrusts and back slaps while others recommend the same starting with the back slaps first.[5] Having the person lean forward reduces the chances of the foreign body going back down the airway when coming up.[6]

Performing abdominal thrusts on someone else involves standing behind them, and providing inward and upward forceful compressions in the upper abdomen, concretely in the area located between the chest and the belly button. The rescuer usually gives the compressions using a fist that is grasped with the other hand.[citation needed]

Abdominal thrusts can also be performed on oneself with the help of the objects near, for example: by leaning over a chair. Anyway, when the choking victim is oneself, one of the more reliable options is the usage of any specific anti-choking device. In adults, there is limited evidence that the head down position can be used for self-treatment of suffocation and appears to be an option only if other maneuvers do not work.[7] In contrast, in children under 1 it is recommended that the child be placed in a head down position as this appears to help increase the effectiveness of back slaps and abdominal thrusts.[8]

When the victim can not receive pressures on the abdomen (it can happen in case of pregnancy or excessive obesity, for example), chest thrusts are advised instead of abdominal thrusts. The chest thrusts are the same type of compressions but applied on the lower half of the chest bone (not in the very extreme, which is a point named xiphoid process and could be broken).

The American Medical Association and Australian Resuscitation Council advocate sweeping the fingers across the back of the throat to attempt to dislodge airway obstructions, once the choking victim becomes unconscious.[9][10] However, many modern protocols and literature recommend against the use of the finger sweep.[11] If the person is conscious, they should be able to remove the foreign object themselves, and if they are unconscious, a finger sweep can cause more harm. A finger sweep can push the foreign body further down the airway, making it harder to remove, or cause aspiration by inducing the person to vomit. Additionally, there is the potential for harm to the rescuer if they are unable to clearly see the oral cavity (for example, cutting a finger on jagged teeth).

Prevention

[edit]
The head-tilt/chin-lift is the most reliable method of opening the airway.
The jaw thrust maneuver can also open up the airway with minimal spine manipulation

Prevention techniques focus on preventing airway obstruction by the tongue and reducing the likelihood of aspiration of stomach contents or blood. The head-tilt/chin-lift and jaw-thrust maneuvers are useful for the former while the recovery position is useful for the latter. If head-tilt/chin-lift and jaw-thrust maneuvers are performed with any objects in the airways it may dislodge them further down the airways and thereby cause more blockage and harder removal.[citation needed]

The head-tilt/chin-lift is the primary maneuver used in any patient in whom cervical spine injury is not a concern. This maneuver involves flexion of the neck and extension of the head at Atlanto-occipital joint (also called the sniffing position), which opens up the airway by lifting the tongue away from the back of the throat. Placing a folded towel behind the head accomplishes the same result.[4]

All forms of the recovery position share basic principles. The head is in a dependent position so that fluid can drain from the patient's airway; the chin is well up to keep the epiglottis opened. Arms and legs are locked to stabilize the position of the patient

The jaw-thrust maneuver is an effective airway technique, particularly in the patient in whom cervical spine injury is a concern. It is easiest when the patient is positioned supine. The practitioner places their index and middle fingers behind the angle of the mandible to physically push the posterior aspects of the mandible upwards while their thumbs push down on the chin to open the mouth. When the mandible is displaced forward, it pulls the tongue forward and prevents it from occluding the entrance to the trachea.[12]

The recovery position is an important prevention technique for an unconscious person that is breathing casually. This position entails having the person lie in a stable position on their side with the head in a dependent position so fluids do not drain down the airway, reducing the risk of aspiration.[6]

Most airway maneuvers are associated with some movement of the cervical spine.[13][14] When there is a possibility of cervical injury, collars are used to help hold the head in-line. Most of these airway maneuvers are associated with some movement of the cervical spine. Even though cervical collars can cause problems maintaining an airway and maintaining a blood pressure,[15] it is not recommended to remove the collar without adequate personnel to manually hold the head in place.[16]

Advanced airway management

[edit]

In contrast to basic airway management maneuvers such as head-tilt or jaw-thrust, advanced airway management relies on the use of medical equipment. Advanced airway management can be performed "blindly" or with visualization of the glottis by using a laryngoscope. Advanced airway management is frequently performed in the critically injured, those with extensive pulmonary disease, or anesthetized patients to facilitate oxygenation and mechanical ventilation. Additionally, implementation of a cuffing system is used to prevent the possibility of asphyxiation or airway obstruction.[17]

Many methods are used in Advanced airway management. Examples in increasing order of invasiveness include the use of supraglottic devices such as oropharyngeal or nasopharyngeal airways, infraglottic techniques such as tracheal intubation and finally surgical methods.[18][19]

Removal of foreign objects

[edit]
Foreign objects can be removed with a Magill forceps under inspection of the airway with a laryngoscope

The ingestion and aspiration of foreign objects pose a common and dangerous problem in young children. It remains one of the leading cause of death in children under the age of 5.[20] Common food items (baby carrots, peanuts, etc.) and household objects (coins, metals, etc.) may lodge in various levels of the airway tract and cause significant obstruction of the airway. Complete obstruction of the airway represents a medical emergency. During such crisis, caretakers may attempt back blows, abdominal thrust, or the Heimlich maneuver to dislodge the inhaled object and reestablish airflow into the lungs.[21]

In the hospital setting, healthcare practitioners will make the diagnosis of foreign body aspiration from the medical history and physical exam findings. In some cases, providers will order chest radiographs, which may show signs of air-trapping in the affected lung. In advanced airway management, the inhaled foreign objects, however, are either removed by using a simple plastic suction device (such as a Yankauer suction tip) or under direct inspection of the airway with a laryngoscope or bronchoscope. If removal is not possible, other surgical methods should be considered.[22]

Supraglottic techniques

[edit]

Supraglottic techniques use devices that are designed to have the distal tip resting above the level of the glottis when in its final seated position. Supraglottic devices ensure patency of the upper respiratory tract without entry into the trachea by bridging the oral and pharyngeal spaces.[17] There are many methods of subcategorizing this family of devices including route of insertion, absence or presence of a cuff, and anatomic location of the device's distal end. The most commonly used devices are laryngeal masks and supraglottic tubes, such as oropharyngeal (OPA) and nasopharyngeal airways (NPA).[17] In general, features of an ideal supraglottic airway include the ability to bypass the upper airway, produce low airway resistance, allow both positive pressure as well as spontaneous ventilation, protect the respiratory tract from gastric and nasal secretions, be easily inserted by even a nonspecialist, produce high first-time insertion rate, remain in place once in seated position, minimize risk of aspiration, and produce minimal side effects.[17]

A nasopharyngeal airway is a soft rubber or plastic tube that is passed through the nose and into the posterior pharynx. Nasopharyngeal airways are produced in various lengths and diameters to accommodate for gender and anatomical variations. Functionally, the device is gently inserted through a patient's nose after careful lubrication with a viscous lidocaine gel. Successful placement will facilitate spontaneous ventilation, masked ventilation, or machine assisted ventilation with a modified nasopharyngeal airway designed with special attachments at the proximal end. Patients generally tolerate NPAs very well. NPAs are preferred over OPAs when the patient's jaw is clenched or if the patient is semiconscious and cannot tolerate an OPA.[23] NPAs, however, are generally not recommended if there is suspicion of a fracture to the base of the skull. In these circumstances, insertion of the NPA can cause neurological damage by entering the cranium during placement.[23] There is no consensus, however, regarding the risk of neurological damage secondary to a basilar skull fracture compared to hypoxia due to insufficient airway management.[24][25] Other complications of Nasopharyngeal airways use includes laryngospasm, epistaxis, vomiting, and tissue necrosis with prolonged use.[17]

Oropharyngeal airways in a range of sizes

Oropharyngeal airways are curved, rigid plastic devices, inserted into the patient's mouth. Oropharyngeal airways are produced in various lengths and diameters to accommodate for gender and anatomical variations. It is especially useful in patients with excessive tongue and other soft tissues. OPAs prevent airway obstruction by ensuring that the patient's tongue does not obstruct the epiglottis by creating a conduit. Because an oropharyngeal airway can mechanically stimulate the gag reflex, it should only be used in a deeply sedated or unresponsive patient to avoid vomiting and aspiration.[26] Careful attention must be made while inserting an OPA. The user must avoid pushing the tongue further down the patient's throat. This is usually done by inserting the OPA with its curve facing cephalad and rotating it 180 degrees as you enter the posterior pharynx.[18]

Extraglottic devices are another family of supraglottic devices that are inserted through the mouth to sit on top of the larynx.[27] Extraglottic devices are used in the majority of operative procedures performed under general anaesthesia.[28] Compared to a cuffed tracheal tube, extraglottic devices provide less protection against aspiration but are more easily inserted and causes less laryngeal trauma.[27] Limitations of extraglottic devices arise in morbidly obese patients, lengthy surgical procedures, surgery involving the airways, laparoscopic procedures and others due to its bulkier design and inferior ability to prevent aspiration.[29] In these circumstances, endotracheal intubation is generally preferred. The most commonly used extraglottic device is the laryngeal mask airway (LMA). An LMA is a cuffed perilaryngeal sealer that is inserted into the mouth and set over the glottis. Once it is in its seated position, the cuff is inflated.[30] Other variations include devices with oesophageal access ports, so that a separate tube can be inserted from the mouth to the stomach to decompress accumulated gases and drain liquid contents.[27] Other variations of the device can have an endotracheal tube passed through the LMA and into the trachea.[27]

Infraglottic techniques

[edit]
A cuffed endotracheal tube used in tracheal intubation

In contrast to supraglottic devices, infraglottic devices create a conduit between the mouth, passing through the glottis, and into the trachea. There are many infraglottic methods available and the chosen technique is reliant on the accessibility of medical equipment, competence of the clinician and the patient's injury or disease. Tracheal intubation, often simply referred to as intubation, is the placement of a flexible plastic or rubber tube into the trachea to maintain an open airway or to serve as a conduit through which to administer certain drugs.[30] The most widely used route is orotracheal, in which an endotracheal tube is passed through the mouth and vocal apparatus into the trachea. In a nasotracheal procedure, an endotracheal tube is passed through the nose and vocal apparatus into the trachea. Alternatives to standard endotracheal tubes include laryngeal tube and combitube.[citation needed]

Surgical methods

[edit]
In cricothyrotomy, the incision or puncture is made through the cricothyroid membrane in between the thyroid cartilage and the cricoid cartilage
In cricothyrotomy, the incision or puncture is made through the cricothyroid membrane in between the thyroid cartilage and the cricoid cartilage
Photograph of a tracheostomy tube

Surgical methods for airway management rely on making a surgical incision below the glottis in order to achieve direct access to the lower respiratory tract, bypassing the upper respiratory tract. Surgical airway management is often performed as a last resort in cases where orotracheal and nasotracheal intubation are impossible or contraindicated. Surgical airway management is also used when a person will need a mechanical ventilator for a longer period. Surgical methods for airway management include cricothyrotomy and tracheostomy.[citation needed]

A cricothyrotomy is an emergency surgical procedure in which an incision is made through the cricothyroid membrane to establish a patent airway during certain life-threatening situations, such as airway obstruction by a foreign body, angioedema, or massive facial trauma.[31] Cricothyrotomy is much easier and quicker to perform than tracheotomy, does not require manipulation of the cervical spine and is associated with fewer immediate complications.[32] Some complications of cricothyrotomy include bleeding, infection, and injury to surrounding skin and soft tissue structures.

A tracheotomy is a surgical procedure in which a surgeon makes incision in the neck and a breathing tube is inserted directly into the trachea.[33] A common reason for performing a tracheotomy includes requiring to be put on a mechanical ventilator for a longer period.[33] The advantages of a tracheotomy include less risk of infection and damage to the trachea during the immediate post-surgical period.[33] Although rare, some long term complications of tracheotomies include tracheal stenosis and tracheoinnominate fistulas.[34]

Airway management in specific situations

[edit]

Cardiopulmonary resuscitation

[edit]

The optimal method of airway management during CPR is not well established at this time given that the majority of studies on the topic are observational in nature. These studies, however, guide recommendations until prospective, randomized controlled trials are conducted.[citation needed]

Current evidence suggests that for out-of-hospital cardiac arrest, basic airway interventions (head-tilt–chin-lift maneuvers, bag-valve-masking or mouth-to-mouth ventilations, nasopharyngeal and/or oropharyngeal airways) resulted in greater short-term and long-term survival, as well as improved neurological outcomes in comparison to advanced airway interventions (endotracheal intubation, laryngeal mask airway, all types of supraglottic airways (SGA), and trans-tracheal or trans-cricothyroid membrane airways).[35][36] Given that these are observational studies, caution must be given to the possibility of confounding by indication. That is, patients requiring an advanced airway may have had a poorer prognosis in relation to those requiring basic interventions to begin with.

For the management of in-hospital cardiac arrest however, studies currently support the establishment of an advanced airway. It is well documented that quality chest compressions with minimal interruption result in improved survival.[37] This is suggested to be due, in part, to decreased no-flow-time in which vital organs, including the heart are not adequately perfused. Establishment of an advanced airway (endotracheal tube, laryngeal mask airway) allows for asynchronous ventilation, reducing the no-flow ratio, as compared to the basic airway (bag-valve mask) for which compressions must be paused to adequately ventilate the patient.[38]

Bystanders without medical training who see an individual suddenly collapse should call for help and begin chest compressions immediately. The American Heart Association currently supports "Hands-only" CPR, which advocates chest compressions without rescue breaths for teens or adults.[39] This is to minimize the reluctance to start CPR due to concern for having to provide mouth-to-mouth resuscitation.[citation needed]

Trauma

[edit]
Bag-valve mask ventilation.

Airway represents the "A" in the ABC mnemonic for trauma resuscitation.

Management of the airway in trauma can be particularly complicated, and is dependent on the mechanism, location, and severity of injury to the airway and its surrounding tissues. Injuries to the cervical spine, traumatic disruption of the airway itself, edema in the setting of caustic or thermal trauma, and the combative patient are examples of scenarios a provider may need to take into account in assessing the urgency of securing an airway and the means of doing so.[40][41]

The pre-hospital setting provides unique challenges to management of the airway including tight spaces, neck immobilization, poor lighting, and often the added complexity of attempting procedures during transport. When possible, basic airway management should be prioritized including head-tilt-chin-lift maneuvers, and bag-valve masking. If ineffective, a supraglottic airway can be utilized to aid in oxygenation and maintenance of a patent airway. An oropharyngeal airway is acceptable, however nasopharyngeal airways should be avoided in trauma, particularly if a basilar skull fracture is suspected.[42] Endotracheal intubation carries with it many risks, particularly when paralytics are used, as maintenance of the airway becomes a challenge if intubation fails. It should therefore be attempted by experienced personnel, only when less invasive methods fail or when it is deemed necessary for safe transport of the patient, to reduce risk of failure and the associated increase in morbidity and mortality due to hypoxia.[43][44]

Laryngeal mask airway (LMA). Example of a supraglottic device.

Management of the airway in the emergency department is optimal given the presence of trained personnel from multiple specialties, as well as access to "difficult airway equipment" (videolaryngoscopy, eschmann tracheal tube introducer, fiberoptic bronchoscopy, surgical methods, etc.).[4] Of primary concern is the condition and patency of the maxillofacial structures, larynx, trachea, and bronchi as these are all components of the respiratory tract and failure anywhere along this path may impede ventilation. Excessive facial hair, severe burns, and maxillofacial trauma may prevent acquisition of a good mask seal, rendering bag-valve mask ventilation difficult. Edema of the airway can make laryngoscopy difficult, and therefore in those with suspected thermal burns, intubation is recommended in attempts to quickly secure an airway prior to progression of the swelling.[45] Furthermore, blood and vomitus in the airway may prove visualization of the vocal cords difficult rendering direct and video laryngoscopy, as well as fiberoptic bronchoscopy challenging.[46] Establishment of a surgical airway is challenging in the setting of restricted neck extension (such as in a c-collar), laryngotracheal disruption, or distortion of the anatomy by a penetrating force or hematoma. Tracheotomy in the operating room by trained professionals is recommended over cricothyroidotomy in the case of complete laryngotracheal disruption or children under the age of 12.[47]

See also

[edit]

References

[edit]
  1. ^ Bingham, Robert M.; Proctor, Lester T. (2008-08-01). "Airway management". Pediatric Clinics of North America. 55 (4): 873–886, ix–x. doi:10.1016/j.pcl.2008.04.004. ISSN 0031-3955. PMID 18675024.
  2. ^ Tintinalli, Judith (2016). Tintinalli's Emergency Medicine: A Comprehensive Study Guide. McGraw Hill. pp. 178–198. ISBN 978-0-07-180913-9
  3. ^ Wright, Pearce (2003-08-13). "Obituary: Peter Safar". London: The Guardian. Retrieved 2014-12-06
  4. ^ a b c Tintinalli, Judith (2016). Tintinalli's Emergency Medicine: A Comprehensive Study Guide, 8th edition. Mc-Graw Hill. pp. Ch 28. ISBN 978-0071794763.
  5. ^ a b Nolan, JP; Soar, J; Zideman, DA; Biarent, D; Bossaert, LL; Deakin, C; Koster, RW; Wyllie, J; Böttiger, B; ERC Guidelines Writing Group (2010). "European Resuscitation Council Guidelines for Resuscitation 2010 Section 1. Executive summary". Resuscitation. 81 (10): 1219–76. doi:10.1016/j.resuscitation.2010.08.021. hdl:10067/1302980151162165141. PMID 20956052.
  6. ^ a b "European Resuscitation Council Guidelines for Resuscitation 2010 Section 2. Adult basic life support and use of automated external defibrillators - Article in Motion". resuscitation-guidelines.articleinmotion.com. Archived from the original on 2016-05-29. Retrieved 2016-12-06.
  7. ^ Luczak, Artur (June 2016). "Head-down self-treatment of choking". Resuscitation. 103: e13. doi:10.1016/j.resuscitation.2016.02.015. PMID 26923159.
  8. ^ Maconochie, Ian (2015). "European Resuscitation Council Guidelines for Resuscitation 2015". Resuscitation. 95: 223–248. doi:10.1016/j.resuscitation.2015.07.028. PMID 26477414.
  9. ^ American Medical Association (2009-05-05). American Medical Association Handbook of First Aid and Emergency Care. Random House. ISBN 978-1-4000-0712-7.
  10. ^ "Finger Sweep". resus.org.au. Archived from the original on 2018-02-04. Retrieved 2018-02-04.
  11. ^ Vunda, Aaron; Vandertuin, Lynda (2012). "Nasopharyngeal Foreign Body following a Blind Finger Sweep". The Journal of Pediatrics. 160 (2): 353. doi:10.1016/j.jpeds.2011.08.061. PMID 22014606.
  12. ^ Burtenshaw, Andrew (2015). Emergency Airway Management. Cambridge University Press. pp. 22–23. ISBN 978-1107661257.
  13. ^ Donaldson WF, Heil BV, Donaldson VP, Silvaggio VJ (1997). "The effect of airway maneuvers on the unstable C1-C2 segment. A cadaver study". Spine. 22 (11): 1215–8. doi:10.1097/00007632-199706010-00008. PMID 9201858. S2CID 28174117.
  14. ^ Brimacombe J, Keller C, Künzel KH, Gaber O, Boehler M, Pühringer F (2000). "Cervical spine motion during airway management: a cinefluoroscopic study of the posteriorly destabilized third cervical vertebrae in human cadavers". Anesth Analg. 91 (5): 1274–8. doi:10.1213/00000539-200011000-00041. PMID 11049921. S2CID 32473385.
  15. ^ Kolb JC, Summers RL, Galli RL (1999). "Cervical collar-induced changes in intracranial pressure". Am J Emerg Med. 17 (2): 135–7. doi:10.1016/S0735-6757(99)90044-X. PMID 10102310.
  16. ^ Mobbs RJ, Stoodley MA, Fuller J (2002). "Effect of cervical hard collar on intracranial pressure after head injury". ANZ J Surg. 72 (6): 389–91. doi:10.1046/j.1445-2197.2002.02462.x. PMID 12121154. S2CID 33930416.
  17. ^ a b c d e Finucane, Brendan T.; Tsui, Ban Chi-Ho; Santora, Albert H. (2011-01-01). Principles of airway management (4th ed.). New York: Springer. doi:10.1007/978-0-387-09558-5. ISBN 9780387095585.
  18. ^ a b "UpToDate". www.uptodate.com.
  19. ^ "UpToDate". www.uptodate.com.
  20. ^ "National Safety Council Accident Facts". February 2000.
  21. ^ Manning PB, Wesley JR, Polley TZ, et al. Esophageal and tracheobronchial foreign bodies in infants and children. Pediatr Surg Int 1987;2:346.
  22. ^ TONY CAPIZZANI; RONALD B. HIRSCHL; ROBERT E. CILLEY (2011). Greenfield's Surgery: Scientific Principles and Practice, 5e. Lippincott Williams & Wilkins. pp. Chapter 2016 (Pediatric Chest).
  23. ^ a b Roberts K, Whalley H, Bleetman A (2005). "The nasopharyngeal airway: dispelling myths and establishing the facts". Emerg Med J. 22 (6): 394–6. doi:10.1136/emj.2004.021402. PMC 1726817. PMID 15911941.
  24. ^ Ellis, D. Y. (2006). "Intracranial placement of nasopharyngeal airways: Is it all that rare?". Emergency Medicine Journal. 23 (8): 661. doi:10.1136/emj.2006.036541. PMC 2564185. PMID 16858116.
  25. ^ Roberts, K.; Whalley, H.; Bleetman, A. (2005). "The nasopharyngeal airway: Dispelling myths and establishing the facts". Emergency Medicine Journal. 22 (6): 394–396. doi:10.1136/emj.2004.021402. PMC 1726817. PMID 15911941.
  26. ^ "Guedel airway". AnaesthesiaUK. 14 May 2010. Archived from the original on 24 January 2013. Retrieved 23 May 2013.
  27. ^ a b c d Hernandez, MR; Klock, Andranik; Ovassapian, A (2011). "Evolution of the Extraglottic Airway: A Review of Its History, Applications, and Practical Tips for Success". Anesthesia and Analgesia. 114 (2): 349–68. doi:10.1213/ANE.0b013e31823b6748. PMID 22178627. S2CID 14421707.
  28. ^ Cook, T; Howes, B. (2010). "Supraglottic airway devices: recent advances". Continuing Education in Anaesthesia, Critical Care & Pain. 11 (2): 56–61. doi:10.1093/bjaceaccp/mkq058. S2CID 49413173.
  29. ^ Davies PR, Tighe SQ, Greenslade GL, Evans GH (1990). "Laryngeal mask airway and tracheal tube insertion by unskilled personnel". The Lancet. 336 (8721): 977–979. doi:10.1016/0140-6736(90)92429-L. PMID 1978159. S2CID 30763681. Retrieved 25 July 2010.
  30. ^ a b Thierbach, Andreas R.; Werner, Christian (2005-12-01). "Infraglottic airway devices and techniques". Best Practice & Research. Clinical Anaesthesiology. 19 (4): 595–609. doi:10.1016/j.bpa.2005.06.001. ISSN 1521-6896. PMID 16408536.
  31. ^ Mohan, R; Iyer, R; Thaller, S (2009). "Airway management in patients with facial trauma". Journal of Craniofacial Surgery. 20 (1): 21–3. doi:10.1097/SCS.0b013e318190327a. PMID 19164982. S2CID 5459569.
  32. ^ Katos, MG; Goldenberg, D (2007). "Emergency cricothyrotomy". Operative Techniques in Otolaryngology. 18 (2): 110–4. doi:10.1016/j.otot.2007.05.002.
  33. ^ a b c Andriolo, Brenda N. G.; Andriolo, Régis B.; Saconato, Humberto; Atallah, Álvaro N.; Valente, Orsine (2015-01-12). "Early versus late tracheostomy for critically ill patients". The Cochrane Database of Systematic Reviews. 1 (12): CD007271. doi:10.1002/14651858.CD007271.pub3. ISSN 1469-493X. PMC 6517297. PMID 25581416.
  34. ^ REDDY, RISHINDRA M. (2011). Greenfield's Surgery: Scientific Principles and Practice, 5e. Lippincott Williams & Wilkins. pp. Chapter 80. CHEST WALL, PLEURA, MEDIASTINUM, AND NONNEOPLASTIC LUNG DISEASE.
  35. ^ Fouche, Pieter F.; Simpson, Paul M.; Bendall, Jason; Thomas, Richard E.; Cone, David C.; Doi, Suhail A. R. (2014-04-03). "Airways in Out-of-hospital Cardiac Arrest: Systematic Review and Meta-analysis". Prehospital Emergency Care. 18 (2): 244–256. doi:10.3109/10903127.2013.831509. ISSN 1090-3127. PMID 24111481. S2CID 207521831.
  36. ^ Bernhard, Michael; Benger, Jonathan R. (2015). "Airway management during cardiopulmonary resuscitation". Current Opinion in Critical Care. 21 (3): 183–187. doi:10.1097/mcc.0000000000000201. PMID 25922892. S2CID 21363140.
  37. ^ Wik, Lars (2003). "Rediscovering the importance of chest compressions to improve the outcome from cardiac arrest". Resuscitation. 58 (3): 267–269. doi:10.1016/s0300-9572(03)00267-3. PMID 12969601.
  38. ^ Yeung, Joyce; Chilwan, Mehboob; Field, Richard; Davies, Robin; Gao, Fang; Perkins, Gavin D. (2014). "The impact of airway management on quality of cardiopulmonary resuscitation: An observational study in patients during cardiac arrest". Resuscitation. 85 (7): 898–904. doi:10.1016/j.resuscitation.2014.02.018. PMID 24594093.
  39. ^ Sayre, Michael R.; Berg, Robert A.; Cave, Diana M.; Page, Richard L.; Potts, Jerald; White, Roger D. (2008-04-22). "Hands-Only (Compression-Only) Cardiopulmonary Resuscitation: A Call to Action for Bystander Response to Adults Who Experience Out-of-Hospital Sudden Cardiac Arrest". Circulation. 117 (16): 2162–2167. doi:10.1161/CIRCULATIONAHA.107.189380. ISSN 0009-7322. PMID 18378619. S2CID 8249049.
  40. ^ Struck, Manuel F.; Beilicke, André; Hoffmeister, Albrecht; Gockel, Ines; Gries, André; Wrigge, Hermann; Bernhard, Michael (2016-04-11). "Acute emergency care and airway management of caustic ingestion in adults: single center observational study". Scandinavian Journal of Trauma, Resuscitation and Emergency Medicine. 24: 45. doi:10.1186/s13049-016-0240-5. ISSN 1757-7241. PMC 4827211. PMID 27068119.
  41. ^ Langeron, O.; Birenbaum, A.; Amour, J. (2009-05-01). "Airway management in trauma". Minerva Anestesiologica. 75 (5): 307–311. ISSN 1827-1596. PMID 19412149.
  42. ^ Dupanovic, Mirsad; Fox, Heather; Kovac, Anthony (2010-04-01). "Management of the airway in multitrauma". Current Opinion in Anesthesiology. 23 (2): 276–282. doi:10.1097/ACO.0b013e3283360b4f. ISSN 1473-6500. PMID 20042974. S2CID 12995535.
  43. ^ Bossers, Sebastiaan M.; Schwarte, Lothar A.; Loer, Stephan A.; Twisk, Jos W. R.; Boer, Christa; Schober, Patrick (2015-01-01). "Experience in Prehospital Endotracheal Intubation Significantly Influences Mortality of Patients with Severe Traumatic Brain Injury: A Systematic Review and Meta-Analysis". PLOS ONE. 10 (10): e0141034. Bibcode:2015PLoSO..1041034B. doi:10.1371/journal.pone.0141034. ISSN 1932-6203. PMC 4619807. PMID 26496440.
  44. ^ Cranshaw, Julius; Nolan, Jerry (2006-06-01). "Airway management after major trauma". Continuing Education in Anaesthesia, Critical Care & Pain. 6 (3): 124–127. doi:10.1093/bjaceaccp/mkl015. ISSN 1743-1816.
  45. ^ Tintinalli, Judith (2016). Tintinalli's Emergency Medicine: A Comprehensive Study Guide, 8th Edition. McGraw-Hill. p. 1403. ISBN 978-0071794763.
  46. ^ Barak, Michal; Bahouth, Hany; Leiser, Yoav; El-Naaj, Imad Abu (2015-06-16). "Airway Management of the Patient with Maxillofacial Trauma: Review of the Literature and Suggested Clinical Approach". BioMed Research International. 2015: 724032. doi:10.1155/2015/724032. ISSN 2314-6133. PMC 4486512. PMID 26161411.
  47. ^ Patel, Sapna A; Meyer, Tanya K (2014-01-01). "Surgical Airway". International Journal of Critical Illness and Injury Science. 4 (1): 71–76. doi:10.4103/2229-5151.128016. ISSN 2229-5151. PMC 3982374. PMID 24741501.

Further reading

[edit]