Which of the following describes the correct technique for inserting a nasopharyngeal airway?

Q: Which of the following best describes the position of a correctly sized and properly inserted oropharyngeal airway?

The OPA is inserted in the patients mouth upside down so the tip of the OPA is facing the roof of the patients mouth.

How to use a nasopharyngeal airway (NPA)

What is an NPA?

A flexible rubber tube which goes through the nose ends at base of tongue (an adjunct to help keep airway open)
- An oxygen mask or bag mask ventilation can be applied over the top if needed
Use: prevents tongue covering epiglottis in patients with reduced GCS. It is tolerated better than oropharyngeal airways in more alert patients.
Size: Average height females require a size 6 NPA and average height males a size 7 NPA (Portex sizing)
- Sizing using the patient’s finger as a guide is no longer recommended.

How to insert an NPA

Lubricate the nasopharyngeal airway with water-soluble jelly
Insert into the nostril (preferably right) vertically along the floor of the nose with a slight twisting action
- Aim towards the back of the opposite eyeball
Confirm airway patency

Click here for more details on NPAs

Video on NPA insertion

Sizes of NPA

Nasopharyngeal airways (NPAs). The addition of safety-pins to the flanged end prevents them being lost into the oropharynx.

Other airway pages

How to use an oropharyngeal airway
How to use a supraglottic airway
What is an endotracheal tube (ETT?)
What is a tracheostomy?

The nasopharyngeal airway: dispelling myths and establishing the facts

Free

K Roberts1,
H Whalley2,
A Bleetman3

1Specialist Registrar in General Surgery, Walsall Manor Hospital
2Senior house officer in Intensive Care Medicine, Birmingham Heartlands Hospital, UK
3Consultant in Accident and Emergency Medicine, Birmingham Heartlands Hospital, UK

Correspondence to: Keith Roberts dr_keithhotmail.com

Abstract

The nasopharyngeal airway (NPA) is a simple airway adjunct used by various healthcare professionals. It has some advantages over the oropharyngeal airway (OPA) but despite this it appears to be used less frequently. This may be due to fears over intracranial placement in cases of possible basal skull fracture. This fear, promulgated by training, is based solely on two single case reports and relative risk needs to be put into clinical context.

Widely taught methods of sizing NPAs are based upon the width of the patient’s nostril or little finger, MRI data demonstrate that these methods are inaccurate. Ideal NPA length measured at nasal endoscopy correlates with subject height, this is independent of subject sex, and is a far more accurate determinant and easy to use in the clinical setting. Average height females require a Portex size 6 NPA and average height males a size 7 Portex NPA. This knowledge provides a rapid method of NPA selection.

NPA, nasopharyngeal
OPA, oropharyngeal

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NPA, nasopharyngeal
OPA, oropharyngeal

The nasopharyngeal airway (NPA) is a simple airway adjunct used in a number of healthcare disciplines, by staff trained to varying levels of competence in airway management. It has advantages over the oropharyngeal airway (OPA) as it can be used in patients with an intact gag reflex, trismus or oral trauma. Despite this, it is used less frequently than the OPA.1,2 This may be due to fears over intracranial placement in cases of possible basal skull fracture, promulgated in training. The basis for these concerns is revisited. Widely taught methods of sizing NPAs are based upon the width of the patient’s nostril or little finger.3,4 The accuracy of these methods are reviewed in light of recent evidence. We sought a more accurate and rapid method of sizing NPAs.

METHODS

A Medline search was conducted with ‘nasopharyngeal airway’ as the key words.

RESULTS

The results identified 494 abstracts. Papers in English that reviewed indications and/or contraindications to NPA use and those that discussed methods of sizing NPAs were selected for review. The level of evidence for each paper referred to is presented where appropriate. (Level I, Strong evidence from at least one systematic review of multiple well-designed randomised controlled trials. Level II, Strong evidence from at least one properly designed randomised controlled trial of appropriate size. Level III, Evidence from well-designed trials such as non-randomised trials, cohort studies, time series, or matched case-controlled studies. Level IV, Evidence from well-designed non-experimental studies from more than one centre or research group. Level V, Opinions of respected authorities, based on clinical evidence, descriptive studies or reports of expert committees.)

DISCUSSION

Sizing an NPA

Widely taught3,4 methods of sizing an NPA include comparing an NPA to the width of the patients little finger or nares. In paediatric practice it is also taught that an appropriate NPA will blanch the nares.5

In 2002 a study6 (Level III) assessed the validity of assessing subjects’ little fingers or nares in order to size an appropriate NPA. Ten caucasian subjects attending for elective MRI of their skull had an additional sequence of scans performed at right angles to the nasal floor. From these the largest diameter NPA that would fit the subjects was calculated and compared with the subjects’ little fingers and nares (as measured on the scans). The only measurement that closely correlated with the internal nasal anatomy was the medial—lateral distance of the subject’s distal interphalangeal joint. The r-value of association on the right side was 0.02 and on the left 0.11 (values of 1 or –1 indicate complete correlation and 0 no correlation). The other measurements overestimated the appropriate airway in every instance. Therefore the currently taught methods of sizing NPAs are misleading.

In 1993, Stoneham7 (Level III) described that a correctly placed NPA will lie just above the epiglottis having separated the soft palate from the posterior wall of the oropharynx. This knowledge is vital if the NPA is to be sized correctly in patients: if the airway is too short it will fail to separate the soft palate from the pharynx and if too long it can either pass into the larynx and aggravate cough and gag reflexes or pass anterior to the epiglottis into the vallecula, a blind ending pouch, where paradoxical airway obstruction can occur if the NPA lumen is pressed against the soft tissues. Stoneham observed that the ideal NPA should lie approximately 10 mm above the epiglottis.

Thus the important factor in sizing a NPA is not the width of the tube, but rather the length. In the study Stoneham clearly identified a relationship between nares—epiglottis (N-E) distance and subject height. 120 adult caucasian subjects, under general anaesthesia, had their N-E distance measured. Subject height correlated with this distance and was independent of patient sex. Stoneham’s average height females (163 cm/5′ 4″) had an N-E distance of 140 mm (95% CI 136.1–143.5 mm) and males (178 cm/5′ 10″) an N-E distance of 159 mm (95% CI 156.1–161.2 mm). Accepting that the airway should lie 10 mm above the epiglottis average height females in this study require a size 6 Portex™ (130 mm long) NPA and similarly average height males a size 7 Portex™ (150 mm long) NPA. Because of the association between subject height and N-E distance a suitable NPA can be rapidly selected – for example, a tall male requires a size 8 NPA and a short male a size 6. A tall female a size 7 and a short female a size 6 with the safety pin placed 1 cm from the flange.

A sizing chart based on Stoneham’s work is presented in table 1. The suggestions are based upon the evidence presented but ultimate selection will depend upon clinical response.

Table 1

Subject height and suggested NPA size

The association between subject height and N-E distance has also been identified in 73 Chinese subjects8 (level III). In this series the male N-E distance was 160 +/− 10 mm and females 150 +/− 9 mm. It appears that this trend also applies to paediatric practice. A study of 413 infants under 12 months also identified an association between subject height and nares-vocal cord distance with an r-value of 0.83 (p = 0.0001)9 (Level III). This study also identified a very close association between nares-vocal cord distance and nose tip-earlobe distance (see table 2). In order to place the NPA in infants the insertion length must therefore be slightly less than this anthropometric measurement.

Table 2

Infant weight and suggested insertion length of an appropriate NPA

Contraindications and indications for use

From reviews of paramedic practice, it is apparent that the use of the NPA outside of hospital is limited. In 2000, a review of national paramedic practice identified that only 27% of UK NHS Ambulance Trusts provide their paramedics with NPA’s10 (Level IV). A further review in 2002, following the publication of national guidelines supporting the use of the NPA, found that this practice had increased, but only to 55%. Similarly in 2003 only 21% of Ambulance Trusts would permit their paramedics to use NPA’s in paediatric care11 (level IV).

The scale of NPA use in hospitals is less clear. However, it is the authors’ observation that NPAs are used less frequently than OPAs. It is not clear why this might be the case. They are cheap and easy to use. It is possible that the fear of complications associated with the NPA has limited its use. It is widely taught that a suspected or known basal skull fracture is a contraindication to NPA placement. This is based upon two single case reports12,13 (Level V). This contraindication needs to be interpreted in the appropriate setting: faced with airway obstruction and the possibility of a basal skull fracture a rescuer must secure the airway prior to any further management. In hospitals when a patient is known to have a basal skull fracture it is highly likely that this will have been diagnosed following a CT scan. In this scenario the issue of airway care will already have been addressed. Prior to a CT scan the diagnosis of a basal skull fracture can only be presumed by the presence or absence of clinical features. These include blood or cerebrospinal fluid from the ears or nose and bruising around the mastoid process or eyes. It must be appreciated that blood from the nose of patients with traumatic injuries is very common as is blood in the external ear (which has dripped into the ear rather than from within). CSF is a clear fluid and its identification is difficult, even in hospital. The simplest tests, the halo sign or the presence of glucose, are easy to perform but have a low sensitivity and specificity14,15 (Level III). The gold standard for laboratory diagnosis of CSF is the presence of beta-2-transferrin,14 this however, has no practical value as results are reported in 4 days. Bruising around the mastoid or eyes is also common following trauma and is more likely to be associated with soft tissue injury than a basal skull fracture.

Outside of hospital and particularly in low light or wet prehospital conditions, the recognition of CSF from the nose or ears is near impossible. Furthermore the development of this bruising will take some time and is unlikely to have developed when the patient is in the early stages of resuscitation whether this is in the pre-hospital environment or upon arrival to the Emergency Department. Therefore, the clinical features are vague and reliance upon their presence or absence may unnecessarily deter the use of the NPA.

The evidence for avoiding NPAs in cases of basal skull fracture is based solely upon two case reports. Securing the airway in an emergency takes precedence over a suspected basal skull fracture. The OPA is an obvious alternative but in practice a patient must have a conscious level much below that at which an NPA will be tolerated. If an OPA is placed and aggravates the gag reflex the risk of vomiting, aspiration, and increased intra-cranial pressure increases.

In teaching the use of the NPA, focus needs to shift from fear of contraindications to methods of safe placement to avoid intracranial placement. This needs to emphasise lifting the nares to reveal the nasal airway and the placement of the NPA parallel to the nasal floor, rather than upwards towards to the cribriform plate of the ethmoid bone. Lubrication, gentle rotation of the NPA and trying both nostrils are further methods that will ease insertion. These will reduce any risk of the often quoted but very infrequent complication of intracranial tube placement.

Other complications of NPA placement relate to soft tissue damage of the nasal mucosa. The mucosa is lined with pseudostratified columnar epithelium and vascular tissue that is similar to the erectile tissue of the penis. This tissue allows the normal cyclical variation in airway volume and alternates airflow between nostrils. It can be stripped off the nasal wall periosteum, causing bleeding. This is a relatively common problem associated with NPA insertion. If resistance is encountered when placing an NPA it is therefore recommended that the other nostril should be used to minimise this risk. A comparison of nasal soft tissue trauma as a result of NPA placement found no difference between the rates of haemorrhage between nurses or experienced anaethetists16 (Level III).

Another rare complication is migration into the nasopharynx of the entire NPA17,18 (Level V), it is for this reason that Portex NPA’s have a flange and are supplied with a safety pin.

CONCLUSIONS

The NPA is a simple piece of equipment that is easy to use and cheap. It is effective and has advantages over the OPA but appears to be used less frequently.
Traditional methods of sizing NPAs place emphasis upon the width of the patient’s nares or little finger, these are inaccurate and must be abandoned; tube length is more important. Evidence clearly demonstrates a relationship between NPA length to subject height, which is independent of sex. Average height females require a size 6 PortexTM NPA and males a size 7. Optimal and rapid sizing of the NPA can be modified from these average sizes to take account of the subject’s height.
The widely taught contraindication to NPA placement of a suspected basal skull fracture may be the reason that NPA use is less than that of the OPA. This extremely rare complication must be considered in relation to the potential benefit of simple and effective airway management. Fear of this complication will provide high false positive prediction of the fracture and may dissuade prehospital carers from using a very effective airway adjunct. Selecting an OPA in preference to an NPA in patients with an intact gag reflex risks vomiting and aspiration pneumonia. This maybe as equally grave as intracranial placement of a NPA and is certainly a more commonly encountered problem. Therefore methods of teaching must move from fear of complications to methods of safe placement of simple airway adjuncts and appropriate patient selection.

REFERENCES

↵
Roberts K, Allison KP, Porter KM. A review of emergency equipment carried and procedures performed by UK front line paramedics. Resuscitation2003;58 (2) :153–8.
↵
Allison K, Porter K. Nasopharyngeal airways: an under-utilised pre-hospital resource. Pre-Hospital Immediate Care2000;4 (4) :192–3.
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Gwinnut C . Lecture notes on clinical anaesthesia, Blackwell Scientific Publications, Oxford 1997:p39.
↵
Greaves I, Porter KM, Ryan J. Trauma care manual. Arnold2001:p41.
↵
Advanced Paediatric Life Support Course Manual, BMJ books third ed. 2001:p36.
↵
Roberts K, Porter K. How do you size a nasopharyngeal airway? Resuscitation2003;56 (1) :19–23.
↵
Stoneham MD. The nasopharyngeal airway. Assessment of position by fibreoptic laryngoscopy. Anaesthesia1993;48 (7) :575–80.
↵
Hwang CL, Luu KC, Wu TJ, et al. Estimation of the length of nasopharyngeal airway in Chinese adults. Ma Zui Xue Za Zhi1990;28 (1) :49–54.
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Shen CM, Soong WJ, Jeng MJ, et al. Nasopharyngeal tract length measurement in infants. Acta Paediatr Taiwan2002;43 (2) :82–5.
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Porter K, Allison K, Greaves I. Variations in equipment on UK front line. ambulances. Pre-hospital Immediate Care2000;4:126–131.
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Roberts K, Jewkes F, Whalley H, et al. Equipment carried and procedures performed by UK paramedics upon paediatric patients. Resuscitation Submitted June 2004.
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Muzzi DA, Losasso TJ, Cucchiara RF. Complication from a nasopharyngeal airway in a patient with a basilar skull fracture. Anaesthesiology1991;74:366–8.
↵
Schade K, Borzotta A, Michaels A. Intracranial malposition of nasopharyngeal airway. J Trauma2000;49 (5) :967–8.
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Constantino PD, Janecka IP. Cranial-base surgery. In: Head and Neck Surgery—Otolaryngology, second edn. In: Byron J, ed. Bailey. Lipincott-Raven, Philadelphia 1998:1848–1853.
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Chan DT, Poon WS, IPCP, et al. How useful is glucose detection in diagnosing cerebrospinal fluid leak? The rational use of CT and Beta-2 transferrin assay in detection of cerebrospinal fluid fistula? Asian J Surg2004;27 (1) :39–42.
↵
Chung CH, Sum CW, Li HL, et al. Comparison of nasal trauma associated with nasopharyngeal airway applied by nurses and experienced anesthesiologists. Changgeng Yi Xue Za Zhi1999;22 (4) :593–7.
↵
Smith BL. Retained nasopharyngeal airway. Anaesthesia1989;44 (5) :447.
↵
Milam MG, Miller KS. Aspiration of an artificial nasopharyngeal airway. Chest1988;93 (1) :223–4.

Linked Articles

Primary Survey
Emergency Medicine Journal 2005; 22 393-393 Published Online First: 23 May 2005.

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Which of the following is true concerning the procedure for inserting a nasopharyngeal airway NPA?

Which of the following is true concerning the procedure for inserting a nasopharyngeal airway? The bevel should be turned toward the nasal septum.

What position should the patient be placed before inserting Nasopharyngeal tube?

Position the patient supine or at a slight incline on the stretcher. Avoid moving the neck and use only the jaw-thrust maneuver or chin lift without head tilt to manually facilitate opening of the upper airway.