Acute non-invasive ventilation – getting it right on the acute medical take
ABSTRACT
Non-invasive ventilation (NIV) given to the right patient, in the right setting, in the right way and at the right time improves outcomes. However, national audits reveal poor practice in patient selection, clinical judgement, treatment initiation and availability of trained staff. NIV is indicated for persistent acute hypercapnic respiratory failure (AHRF) with acidosis after usual medical management in chronic obstructive pulmonary disease (COPD) exacerbation and even without acidosis in neuromuscular disorders or other restrictive conditions eg obesity hypoventilation or kyphoscoliosis. Having trained staff in a suitable environment with adequate equipment are keys to its success, along with close monitoring. A plan should be put in place at the time of initiating NIV about the ceiling of care, eg escalation to intubation or palliation, if the patient is not improving with NIV. Early NIV failure is most likely due to technical issues, such as inadequate pressures or mask leak, while late failure is usually the consequence of advanced disease. Any presentation with AHRF is a poor prognostic indicator and outpatient respiratory follow-up is indicated following discharge. For selected patients with COPD who remain hypercapnic 2 weeks after an exacerbation, domiciliary NIV can reduce admissions and improve survival. For patients with neuromuscular disorders or kyphoscoliosis a presentation with AHRF almost always indicates the need for domiciliary NIV.
Key points
Right patient
Acute non-invasive ventilation in acute hypercapnic respiratory failure can reduce intubation rate and improve survival in chronic obstructive pulmonary disease exacerbation, respiratory decompensation due to neuromuscular conditions and restrictive ventilatory conditions eg obesity hypoventilation syndrome, kyphoscoliosis.
Non-invasive ventilation is only indicated for treatment of hypoxaemic respiratory failure in an intensive care unit setting where advanced monitoring and emergency intubation and ventilation is available.
Acute hypercapnic respiratory failure may be the first presentation of undiagnosed neuromuscular conditions (eg motor neurone disease) or other restrictive conditions (eg obesity hypoventilation syndrome, kyphoscoliosis).
The possibility of acute hypercapnic respiratory failure should be considered in any hospitalised patient with neuromuscular disorder, chest wall deformity or obesity.
Any patient with acute hypercapnic respiratory failure should be referred to a specialist for advice about ongoing management.
Right environment
Non-invasive ventilation should be started in an area where staff have had adequate training and equipment.
Right way
Starting inspiratory positive airways pressure should be set at 15 cm H2O with rapid titration upwards depending on clinical response including respiratory rate, SpO2 (targeted to a value between 88 and 92%), PaCO2 and PaO2.
KEYWORDS: NIV, respiratory failure, COPD, neuromuscular, IPAP
Introduction
Non-invasive ventilation (NIV) applied to the right patient, in the right setting, in the right way and at the right time improves outcomes. British Thoracic Society (BTS) quality standards dictate that all patients who meet the criteria should receive acute NIV and all hospitals should have adequate capacity to provide an effective service.1 National audits2,3 and a National Confidential Enquiry into Patient Outcome and Death (NCEPOD)4 on the application of acute NIV raise several concerns.
These include poor patient selection, delay in initiating treatment (due to organisational issues and a failure by the treating clinician to recognise that NIV indicated), ineffective treatment delivery, availability of competent staff and monitoring of progress.
In this article we focus on conditions that are commonly encountered on an acute medical take for which NIV is indicated.
Right patient
All patients at risk of hypercapnic respiratory failure should receive oxygen targeted to an oxygen saturation of 88–92% (Table 1).5
Obstructive airways diseases
NIV is indicated for persistent acute hypercapnic respiratory failure (AHRF; pH <7.35 and PaCO2 >6 kPa) due to an acute exacerbation of chronic obstructive pulmonary disease (AECOPD) following immediate medical therapy. It is strongly recommended with a high certainty of the evidence.6,7 There is no role for NIV in acute asthma,6,7 but given the possibility of overlap between asthma and COPD, NIV may be considered in a sub group of patients diagnosed with asthma but behaving more like patients with COPD (ie with a degree of irreversible airflow obstruction).6 Physiologically severe bronchiectasis is usually characterised by airflow obstruction and the same recommendations for NIV in AECOPD should be used.6 This should be combined with regular specialist respiratory physiotherapy; physiotherapy treatments may be best delivered after a period of NIV or with breaks for NIV if the patient is very breathless.
Obesity hypoventilation syndrome
The decision to start acute NIV should be based on the same criteria as for AECOPD, with the exception that NIV can be considered for some hypercapnic patients even in the absence of acidosis.6
Neuromuscular disorders and chest wall deformity
Respiratory muscle weakness is invariable in some neuromuscular disorders (NMDs), eg motor neurone disease, but may occur in any patient with a generalised neuromuscular disease. Even though it may occur rarely in a particular condition (Shahrizaila et al provide a review of respiratory muscle involvement in NMDs)8 the possibility of respiratory failure should be considered in any patient with an NMD admitted to hospital with an acute illness. Symptoms can be very non-specific and breathlessness and respiratory distress may be mild or absent. There should be a very low threshold for arterial blood gas analysis. The same is true for a patient with severe chest wall deformity (CWD), most commonly due to early onset scoliosis. Conversely, an undiagnosed NMD should be considered in any patient with unexplained AHRF.9
For patients with NMD and normal lungs, hypercapnia only occurs with severe muscle weakness; domiciliary NIV is almost always indicated and NIV should be started acutely if the carbon dioxide is raised. It is not necessary for the patient to be acidotic. NIV should be considered even if the patient is normocapnic, there is a significant reduction in vital capacity and the patient is tachypnoeic. In this situation the patient cannot maintain adequate ventilation indefinitely and the respiratory muscles may fatigue, leading to AHRF.6
Acute cardiogenic pulmonary oedema
Patients must receive standard medical therapy, including diuretics and nitrates. Meta-analyses10 have shown a reduction in intubation rates and improved survival with NIV (continuous positive airway pressure (CPAP) or bi-level ventilation), which is recommended when patients present with respiratory distress and respiratory failure.7 There is no difference between CPAP and bi-level ventilation and CPAP is probably the ventilatory modality of choice, because of greater ease of application. It is important to note that in the Three Interventions in Cardiogenic Pulmonary Oedema trial11 there was quicker resolution of the blood gas abnormality and reduction in severe dyspnoea with NIV, but probably at the cost of more discomfort.
Pneumonia and other conditions causing hypoxaemic respiratory failure
The role of NIV is limited in patients presenting with hypoxaemic respiratory failure, eg pneumonia. However, if a patient with underlying COPD or NMD etc presents with AHRF and coincident pneumonia, a trial of NIV is reasonable.12 It is important to make the distinction between pneumonia causing acute respiratory failure and pneumonia complicating a condition known to cause AHRF in its own right (eg COPD or NMD etc).
For example there is a big difference between a COPD patient with severe airways obstruction and a small patch of pneumonia (responds well to NIV)12 and a patient with mild/moderate COPD and multi-lobar pneumonia (less likely to respond to NIV and, if they need ventilatory support, they should usually be on intensive care unit (ICU)).
Contraindications
NIV has few absolute contraindications but these include facial burns and severe facial deformity where physically a mask cannot be applied. Low Glasgow Coma Score (GCS) is not a contraindication, indeed results comparable to those obtained in patients without coma have been reported in patients with a GCS <8.13 The patient must be monitored closely in case of vomiting; the mask must then be removed immediately to reduce the risk of aspiration. If the patient is agitated it must first be ensured that the agitation is not due to inappropriately applied NIV or a poorly fitting mask etc and then low dose sedation can be considered though only in an environment where close monitoring is possible.14
Right environment
Acute NIV for AHRF should be delivered in a clinical area where staff are trained to manage NIV machines, settings and interfaces.4 This could be the emergency department (ED), high dependency unit (HDU), ICU or on a ward. A study from Australia showed no difference in outcomes when NIV was delivered on ICU, HDU or a ward.15 However, more patients received NIV, which was also more cost effective, in the ward model. Key factors in delivering NIV successfully were daily specialist respiratory input and staff education, training and support. The nurse to patient staffing ratios on the ward were better than would usually be seen in many other health care systems, including the UK (one nurse to four patients during the day and one to eight at night). This study however confirms the importance of the skills of the staff delivering NIV over the location in which it is delivered. The BTS quality standards for acute NIV state that NIV must be delivered in a designated area and that all staff who prescribe, initiate or make changes to acute NIV treatment have evidence of training appropriate to their role and been assessed as competent.1 Departments should have a governance mechanism to ensure that this is done when staff start working in the department and that this is maintained. There must be adequate equipment available to meet demand and there should be a choice of masks. The best location will vary from hospital to hospital and will depend upon the skills and experience of the local team, the ability to monitor the patient and the level of staffing.15 Factors that need to be taken into account include the severity of the respiratory failure and the early response to NIV. For example a patient with very severe acidosis due to an AECOPD, who responds rapidly to NIV does not need to be managed in a critical care environment, whereas a patient with less severe acidosis, who does not respond to NIV initially, is at higher risk of failure and should be treated in a more intensively monitored and staffed environment. The more severe the physiological disturbance and the less the likelihood of a successful outcome with NIV the more intensive the environment, but this does not necessarily need to be an ICU.
The NCEPOD report showed that in 27% of patients there was a delay in initiating NIV and recommended that the ED is probably the best place to start NIV.4 However in most cases the first focus should be on starting standard medical therapy, including oxygen delivered to a target saturation of 88 to 92%; 20% of patients presenting with acidosis to the ED correct their pH within the first hour with these measures alone.16
NIV for hypoxaemic respiratory failure should only be applied in an environment where the patient can be intubated rapidly should this be necessary. While hypercapnia develops gradually, hypoxaemia can develop rapidly. Oxygenation can be maintained when the NIV mask is in place but if it is displaced, sudden oxygen desaturation can occur. NIV in this situation can give rise to a false sense of stability; it should not be delivered outside of the ICU.
Right way
Acute NIV should usually be delivered using a bi-level ventilator through a full face mask starting at inspiratory positive airways pressure (IPAP) of 15 cm H2O. The expiratory positive airways pressure (EPAP) should be started at 3 or 4 cm H2O depending on the ventilator specifications followed by up titration every 10–30 minutes, depending on response. The aim should be to maintain oxygen saturation between 88 to 92%, ideally by increasing ventilation rather than increasing the FiO2 and to see an improvement in pH, PaCO2 and respiratory rate.17,18 The patient should be observed closely for signs of patient ventilator asynchrony, excessive use of accessory muscles and mask leakage and discomfort.6
Higher levels of IPAP (20 to 30 cm H2O) may be needed in patients with AECOPD, OHS and CWD, but lower pressures may be sufficient in NMDs with no lung parenchymal abnormality. Higher levels of EPAP may be necessary in patients with upper airways obstruction during sleep or OHS (Fig 1). In obstructive conditions, enough time must be allowed for expiration.
Oxygen can be delivered into the mask or the ventilator circuit, in which case it should be positioned as close to the mask as possible. Some ventilators are equipped with an integral blender, which both ensures accurate delivery of O2 and allows delivery of a higher FiO2 when necessary. With an increasing level of IPAP the oxygen flow rate may need to be increased, but it should be noted that higher flow rates may interfere with ventilator triggering, leading to patient ventilator asynchrony.19 There is emerging evidence about non-inferiority of high flow nasal oxygen over NIV in hypoxaemic respiratory failure but its role in AHRF is still unclear.20,21
One study showed that NIV could be discontinued in AECOPD once physiological stability was obtained but this needs to be confirmed in other studies.22 Expert consensus recommends that NIV should be used as much as possible in the first 24 hours, with gradual reduction of support over the next 2 days.6 It can be stopped sooner if the patient is clinically improved, the acidosis resolved and PCO2 normalised.
What to do when NIV fails
Most of the evidence is from AECOPD. A number of studies have shown that intubation after a failed trial of NIV carries a worse prognosis than intubation from the outset.23–27 As NIV is indicated for most patients with an AECOPD, intubation will usually be considered after a failed trial of NIV. The reason why NIV has failed is important.14 Failure to improve at an early stage is usually due to technical factors eg mask intolerance, inadequate pressure support, excessive mask leak, patient ventilator asynchrony or agitation (Table 2). These are all potentially correctable but, if not, more effective ventilation may be delivered through a different interface, eg an endotracheal tube.
However if despite optimally applied NIV blood gases fail to improve the most likely explanation, in the absence of a potentially reversible cause, is that the underlying chronic lung disease is very severe and that any form of ventilation, even via an endotracheal tube, is unlikely to be successful.28
A decision about what should happen if NIV fails should be made when NIV is started. A decision to proceed to invasive mechanical ventilation (IMV) may be made, but this should be reviewed at regular intervals. An initial decision for full escalation may no longer be appropriate a few days later if the patient deteriorates or fails to improve despite optimally applied NIV. AHRF developing, or worsening, after admission also carries a worse prognosis.2
Clinicians tend to underestimate the likelihood of a successful outcome from IMV particularly in those with apparently the worst prognosis.29 Prognostic tools such as the DECAF score30 aid, but cannot replace, clinical decision making; decisions must always be made on an individual basis. It is important for patients and relatives to understand that successful ventilation will at best only get the patient back to their premorbid level of function.
Factors which suggest that IMV may not be appropriate are summarised in Box 1, the more yes answers the less the likelihood of a successful outcome even with IMV.
Complications
Complications are rare with acute NIV. Care should be taken not to over-tighten the mask; this can lead to nasal bridge ulceration. Aerophagia and gastric distension may occur with higher inspiratory pressures; a nasogastric tube may relieve the discomfort. Very rarely acute pneumothorax can develop. Sudden deterioration with desaturation or chest pain should trigger an urgent chest X-ray; if possible NIV should be discontinued temporarily until a pneumothorax has been excluded.
Prognosis and follow-up
Presentation with AHRF is a poor prognostic marker irrespective of the underlying diagnosis. Recent studies in COPD suggest that domiciliary NIV might reduce readmissions and improve outcomes if the patient remains hypercapnic at 2 weeks post exacerbation.31 In NMDs or CWD, long term domiciliary ventilation is almost always indicated following an episode of AHRF. Most patients with OHS can be managed with domiciliary CPAP. In one study, patients with OHS, even with significant hypercapnia (≥8 kPa) presenting acutely showed similar PaCO2 at 3 months with NIV and CPAP.32 In some patients, resolution of hypercapnia may occur after the acute event and there may be no need for respiratory support. A proportion will have obstructive sleep apnoea requiring treatment independently of the PaCO2. In all cases, patients who have received NIV acutely should be assessed within 2 to 6 weeks by a specialist.
Conflicts of interest
Dr Mark W Elliott has received honoraria, subsistence and travel expenses from Resmed, Philips Respironics, and Fisher and Paykel.
- © Royal College of Physicians 2019. All rights reserved.
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