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CICADA: Cough in Children and Adults: Diagnosis and Assessment. Australian Cough Guidelines summary statement

Peter G Gibson, Anne B Chang, Nicholas J Glasgow, Peter W Holmes, Peter Katelaris, Andrew S Kemp, Louis I Landau, Stuart Mazzone, Peter Newcombe, Peter Van Asperen and Anne E Vertigan
Med J Aust 2010; 192 (5): 265-271. || doi: 10.5694/j.1326-5377.2010.tb03504.x
Published online: 1 March 2010

Abstract

Neurophysiology

The cough reflex is dependent on sensory nerve fibres carried by the vagi that are responsive to chemical and mechanical stimuli. These fibres are integrated into a brainstem circuit that is responsible for generating the basic cough motor pattern that provides co-ordinated output via phrenic, intercostal, laryngeal and abdominal motor neurone pathways to the muscles involved in coughing.5

Cough is a protective reflex, and this function is relevant to cough that is secondary to the presence of a foreign body or mucus hypersecretion. Sensitisation of the cough reflex is a feature of patients with chronic cough and may occur via peripheral and/or central mechanisms.5 Both chemosensitive and mechanosensitive cough fibres can be sensitised by inflammation in the airway, making them more responsive to a given stimulus (peripheral sensitisation).5 The activity of the brainstem circuitry can be tonically enhanced by persistent peripheral sensory nerve input, such that it becomes hyper-responsive to additional input from cough fibres (central sensitisation). Higher brain centres also modulate the basic cough reflex.5 Coughing can be voluntarily initiated and inhibited,6 is highly susceptible to placebo suppression,4,6 and is diminished during general anaesthesia or sleep.7 The urge-to-cough sensation, which may or may not precede a cough, may be related to subthreshold action potential levels or a different afferent pathway.8

Epidemiology

In Australia, cough is one of the most common reasons for presenting for a medical consultation.9,10 Epidemiological studies identify a 5%–10% prevalence of chronic cough in both adults and children.9 Chronic cough has a negative impact on quality of life in adults11,12 and in parents of children with chronic cough.9 In adults, it may be associated with significant psychosocial disturbance, including anxiety and depression.13

Specific cough

Specific cough refers to a cough that occurs with a condition known to be associated with or cause chronic cough. Identification of the many different conditions that are associated with chronic cough forms the basis of specific treatment and further investigation. These conditions can be identified by a probability-based diagnostic approach (Box 4), by consideration of important conditions not to be missed (Box 5), and by reviewing cough pointers (eg, quality of cough, such as “brassy” cough, suggesting tracheomalacia; coexisting wheeze, suggesting asthma).14 Methods for systematic and objective cough assessment are also available, but at present they are mainly used in research settings or specialised cough clinics.15

The GRADE system

The Grading of Recommendations Assessment, Development and Evaluation (GRADE) system for classifying recommendations made in guidelines2 was developed by a multinational group of experts in research methods and evidence-based medicine. Based on an assessment of the strength of evidence, and possible adverse effects and costs of using the therapy, the CICADA panel used the GRADE system to determine the strength of cough treatment recommendations as strong, weak, or “no specific recommendation” (Box 1).

Management (Box 6)

Management of protracted or chronic cough involves addressing the common issues of environmental exposures and patient or parental concerns, then instituting specific therapy. Management practices for infants and school-age children are differentiated from those for adults when considered appropriate. Although there are similarities between the two, there are also substantial differences.16

Environmental exposures. Tobacco smoke exposure, both active and environmental, is a significant trigger for cough. Cessation of parental smoking can successfully reduce cough in children (GRADE: strong).17 Other potentially relevant exposures include certain forms of home heating, respiratory irritants (such as particulates) and proximity to a high level of road traffic. In ADULTS, the use of angiotensin-converting enzyme (ACE) inhibitors may be associated with persistent cough.18 Management consists of evaluation of the risks and benefits of ACE inhibitor therapy and cessation or initiation of alternative therapy, as appropriate.

Patient and parental concerns. Patients and their carers have significant concerns and fears in relation to the aetiology and outcome of a cough and the possible presence of a serious underlying disease.9 Providing information on the possible cough aetiology, time course for resolution of cough, and expected management may help reduce anxiety.19 Education is most effective when combined with a medical consultation.20 The provision of written information without health professional consultation has only modest benefits.21

Specific cough: lower airway disorders
Protracted bacterial bronchitis

A diagnosis of protracted bacterial bronchitis is considered in patients with a protracted acute cough or a chronic cough that is wet, moist, or productive and occurs in the absence of other specific cough diagnoses or cough pointers.14 Chest x-ray and spirometry are usually normal. Medium-term antibiotic treatment (2–6 weeks) should lead to complete cough resolution (GRADE: strong).22 The diagnosis can only be definitive when patients become asymptomatic with treatment.23

Eosinophilic bronchitis in adults

In ADULTS, eosinophilic bronchitis includes non-asthmatic eosinophilic bronchitis, eosinophilic asthma, cough-variant asthma and atopic cough.25 These conditions are characterised by chronic eosinophilic inflammation of the lower airway (eosinophilic bronchitis) that can be recognised from an induced sputum sample (eosinophils > 3% of non-squamous cells) or bronchoalveolar lavage (eosinophils > 2%), and are suggested by an elevated fractional exhaled nitric oxide (FeNO) level (> 47 ppb).26 Management in adults involves inhaled corticosteroid therapy, with a favourable response generally seen within 2–4 weeks (GRADE: strong).25 As access to eosinophil markers is limited, an empirical trial of inhaled corticosteroids can be considered where appropriate.

Specific cough: upper airway disorders
Obstructive sleep apnoea

Obstructive sleep apnoea (OSA) has been increasingly recognised to be associated with chronic cough in adults and to a limited extent in children.31,32 OSA is suggested by a history of snoring associated with witnessed apnoeas, sleep disturbance or sweating at night; excessive daytime sleepiness; failure to thrive (in infants); obesity; enlarged tonsils; or nasal blockage. The diagnosis is confirmed by polysomnography. Treatment of OSA in ADULTS involves nasal continuous positive airway pressure (CPAP) (GRADE: strong).33 Treatment of OSA in CHILDREN involves nasal CPAP or tonsillectomy and adenoidectomy (GRADE: weak).

Vocal cord dysfunction in adults

In ADULTS, vocal cord dysfunction (VCD) is characterised by episodic and involuntary narrowing of the vocal cords during inspiration, leading to symptoms of inspiratory dyspnoea, stridor, cough, throat tightness and dysphonia.34 The underlying pathophysiology is thought to be extrathoracic airway hyper-responsiveness. Up to 50% of adults with VCD report significant persistent cough. VCD is diagnosed by observation of vocal fold narrowing (adduction) on laryngoscopy during a symptomatic episode, or a fall in inspiratory flow of more than 25% during airway provocation saline challenge.34 In adults with VCD, the treatment consists of medical management of comorbid conditions (eg, asthma, rhinosinusitis, gastro-oesophageal reflux disease [GORD] or ACE inhibitor use) (GRADE: weak), as well as speech pathology techniques designed to relieve glottal constriction during inspiration and to recognise and alter the response to precipitants (GRADE: strong).34,35

Gastro-oesophageal reflux disease

Chronic cough may represent an extraoesophageal manifestation of GORD, although there is controversy as to cause and effect.36 Cough associated with GORD may result from activation of the cough reflex by refluxate in the oesophagus, acid-induced laryngitis, laryngopharyngeal reflux, or pulmonary aspiration of refluxate.37 The patient should be assessed for heartburn and regurgitation and to determine whether GORD alarm symptoms are present (Box 3). If such symptoms are present, specialist review and endoscopy may be required. In the absence of alarm symptoms, investigation is of limited value.

In ADULTS, an empirical trial of high-dose proton-pump inhibitor (PPI) therapy (eg, any standard-dose PPI twice daily for 8–12 weeks) is indicated if there is a reasonable suspicion that GORD may be contributing to chronic cough. Ineffective PPI therapy should be ceased (GRADE: strong).38 Non-acid reflux is a recently recognised condition that is associated with extra-oesophageal symptoms, including cough. The investigation and successful management of non-acid reflux requires further study. Laparoscopic fundoplication is reserved for the small minority of adults in whom the diagnosis of troublesome GORD is secure, symptoms fail to respond to PPI therapy, the patient is well informed about the therapeutic choices, and there is evidence of major complications of GORD or the risk of complications (eg, aspiration) (GRADE: no specific recommendation).39

No specific recommendation has been made by the committee for managing GORD in CHILDREN, but CICADA recommends against fundoplication for treating isolated cough in children (Box 6).

1 Process used in developing this document

From May 2006 to April 2009, members of CICADA (Cough in Children and Adults: Diagnosis and Assessment) recurrently convened (by email, face-to-face and by teleconference) to discuss definitions followed by recommendations. The complete document will be available in 2010 on the Australian Lung Foundation website (http://www.lungfoundation.com.au). CICADA’s recommendations are based on a successful problem-based clinical assessment method that is widely used in primary care.1 It uses the principles of evidence-based medicine and the Grading of Recommendations Assessment, Development and Evaluation (GRADE) approach2 to determine the strength of treatment recommendations made in guidelines: strong, weak, or “no specific recommendation”.

Quoting from Guyatt et al in their article on the GRADE classification,2 the implications of a strong recommendation are:

The implications of a weak recommendation are:

The implications of “no specific recommendation” are that the advantages and disadvantages are equivalent, the target population has not been identified, and/or there is insufficient evidence on which to formulate a recommendation.3

The CICADA multidisciplinary expert committee prepared the CICADA guideline. A subgroup (P G G and A B C) with expertise in evidence-based techniques and systematic reviews prepared a GRADE summary table for each recommendation using the nominal group technique. A PubMed search for the highest level of evidence relating to each recommendation was performed. The relevant citations and their abstracts were sent to CICADA members, who used the information to assess each recommendation.

The summary table assigned a grading to each of the domains of quality of evidence, balance between desirable and undesirable effects, values and preferences, and costs, which were assessed using the GRADE descriptors.2 The guideline and summary table were then reviewed by the CICADA multidisciplinary expert committee. Consensus was achieved using a GRADE grid to record the views of committee members, and the strength of recommendations was assigned by formal voting rules.3 The final GRADE recommendations were based on these votes and considered cough in the context of the respective conditions (Box 6).

6 Recommendations for children and adults with cough*

In CHILDREN

Recommended treatment/approach

Strength of recommendation


All cough types

Cessation of parental smoking

Strong

Cough with allergic rhinitis

According to current rhinitis management guidelines, involving topical nasal corticosteroids, antihistamines and allergen management

Weak

Cough with obstructive sleep apnoea

Tonsillectomy and adenoidectomy

Weak

Cough with asthma

According to current asthma management guidelines, involving education, self-management, inhaled bronchodilators and inhaled corticosteroids

Strong

Cough with protracted bacterial bronchitis

Medium-term antibiotic therapy (2–6 weeks) for protracted bacterial bronchitis

Strong

Cough with GORD

Empirical trial of high-dose PPI therapy (eg, any standard-dose PPI twice daily for 8–12 weeks) if there is a reasonable suspicion that GORD may be contributing to chronic cough

NSR

Laparoscopic fundoplication for chronic cough

Strong recommendation against surgery

Non-specific or refractory cough

Address patient/parental stress and concerns

Strong

Address exacerbating factors

Weak

Minimise use of medications other than demulcents such as honey (if no contraindications to its use exist)

Strong

Adopt counsel, watch, wait and review approach

Strong

Empirical trial of inhaled corticosteroid therapy

NSR

Empirical trial of PPIs

NSR

Speech pathology techniques designed to relieve glottal constriction during inspiration and to recognise and alter the response to precipitants

NSR

Antitussive therapy with narcotics

Strong recommendation against use


In ADULTS

Cough with allergic rhinitis

According to current rhinitis management guidelines, involving topical nasal corticosteroids, antihistamines and allergen management

Weak

Cough with chronic rhinosinusitis

According to current rhinosinusitis management guidelines, involving topical nasal corticosteroids, antibiotics and non-specific therapy

Strong

Cough with vocal cord dysfunction

Medical management of comorbid conditions (eg, asthma, rhinosinusitis, GORD, use of ACE inhibitors)

Weak

Speech pathology techniques designed to relieve glottal constriction during inspiration and to recognise and alter the response to precipitants

Strong

Cough with obstructive sleep apnoea

Nasal continuous positive airway pressure

Strong

Cough with asthma

According to current asthma management guidelines, involving education, self- management, inhaled bronchodilators and inhaled corticosteroids

Strong

Cough with eosinophilic bronchitis

Inhaled corticosteroid therapy for 2–4 weeks

Strong

Cough with protracted bacterial bronchitis

Medium-term antibiotic therapy (2–6 weeks) for protracted bacterial bronchitis

Strong

Cough with GORD

Empirical trial of high-dose PPI therapy (eg, any standard-dose PPI twice daily for 8–12 weeks) if there is a reasonable suspicion that GORD may be contributing to chronic cough

Strong

Laparoscopic fundoplication for chronic cough

NSR

Non-specific and refractory cough

Address patient stress and concerns

Strong

Address exacerbating factors

Weak

Empirical trial of inhaled corticosteroid therapy

Strong

Empirical trial of PPIs

Strong

Speech pathology techniques designed to relieve glottal constriction during inspiration and to recognise and alter the response to precipitants

Strong

Antitussive therapy with narcotics

NSR


ACE = angiotensin-converting enzyme. GORD = gastro-oesophageal reflux disease. NSR = no specific recommendation. PPI = proton-pump inhibitor. * The treatment recommendation refers to the efficacy of treatment for cough occurring in association with the conditions specified. The strength of each recommendation was classified by the Cough in Children and Adults: Diagnosis and Assessment panel according to the GRADE system2 (see Box 1 for a description of the process used).

  • Peter G Gibson1,2
  • Anne B Chang3,4
  • Nicholas J Glasgow5
  • Peter W Holmes6
  • Peter Katelaris7
  • Andrew S Kemp8,9
  • Louis I Landau10
  • Stuart Mazzone11
  • Peter Newcombe12
  • Peter Van Asperen9,13
  • Anne E Vertigan14

  • 1 Department of Respiratory and Sleep Medicine, John Hunter Hospital, Newcastle, NSW.
  • 2 Woolcock Institute of Medical Research, Sydney, NSW.
  • 3 Queensland Children’s Respiratory Centre, Royal Children’s Hospital, Brisbane, QLD.
  • 4 Child Health Division, Menzies School of Health Research, Charles Darwin University, Darwin, NT.
  • 5 Australian National University, Canberra, ACT.
  • 6 Monash Medical Centre, Melbourne, VIC.
  • 7 Department of Gastroenterology, Concord Hospital, Sydney, NSW.
  • 8 Department of Allergy and Immunology, The Children’s Hospital at Westmead, Sydney, NSW.
  • 9 Discipline of Paediatrics and Child Health, University of Sydney, Sydney, NSW.
  • 10 Department of Health, Western Australia, Perth, WA.
  • 11 School of Biomedical Sciences, University of Queensland, Brisbane, QLD.
  • 12 School of Psychology, University of Queensland, Brisbane, QLD.
  • 13 Department of Respiratory Medicine, The Children’s Hospital at Westmead, Sydney, NSW.
  • 14 Hunter New England Health, Newcastle, NSW.



Acknowledgements: 

We thank Karen Lather, Judy Henry and the staff at the Australian Lung Foundation for their assistance in preparing these guidelines. In addition to the authors, additional advice was provided by Dr Julie Marchant and Dr Chris Brown.

Competing interests:

Peter Gibson and/or his institution have received grant funding for research projects from the National Health and Medical Research Council (NHMRC), Pharmaxis, and Novartis, and funding to lecture at educational meetings sponsored by the Thoracic Society of Australia and New Zealand, the American Thoracic Society, the European Respiratory Society, AstraZeneca, GlaxoSmithKline and Novartis. None of these activities were related to the content of this article. Peter Katelaris has been a speaker at educational forums sponsored by AstraZeneca, Janssen-Cilag and Nycomed, and has received unconditional funding support from Janssen-Cilag to present at a scientific meeting. Stuart Mazzone has received consultancy payments from GlaxoSmithKline for research activities unrelated to this article. Peter Van Asperen is a member of the Merck Sharp & Dohme Paediatric Respiratory Advisory Board and receives occasional speaker fees associated with this membership.

  • 1. Murtagh J. Murtagh’s general practice. 4th ed. Sydney: McGraw Hill, 2007.
  • 2. Guyatt GH, Oxman AD, Kunz R, et al. Going from evidence to recommendations. BMJ 2008; 336: 1049-1051.
  • 3. Jaeschke R, Guyatt GH, Dellinger P, et al. Use of GRADE grid to reach decisions on clinical practice guidelines when consensus is elusive. BMJ 2008; 337: a744.
  • 4. Widdicombe J, Eccles R, Fontana G. Supramedullary influences on cough. Respir Physiol Neurobiol 2006; 152: 320-328.
  • 5. Canning BJ. Encoding of the cough reflex. Pulm Pharmacol Ther 2007; 20: 396-401.
  • 6. Lee PC, Cotterill-Jones C, Eccles R. Voluntary control of cough. Pulm Pharmacol Ther 2002; 15: 317-320.
  • 7. Nishino T, Tagaito Y, Isono S. Cough and other reflexes on irritation of airway mucosa in man. Pulm Pharmacol 1996; 9: 285-292.
  • 8. Lee MG, Undem BJ. Basic mechanisms of cough: current understanding and remaining questions. Lung 2008; 186 Suppl 1: S10-S16.
  • 9. Marchant JM, Newcombe PA, Juniper EF, et al. What is the burden of chronic cough for families? Chest 2008; 134: 303-309.
  • 10. Britt H, Miller GC, Knox S, et al. General practice activity in Australia 2003–2004. Canberra: Australian Institute of Health and Welfare, 2004. (AIHW Cat. No. GEP 16; General Practice Series No. 16.)
  • 11. Irwin RS, French CT, Fletcher KE. Quality of life in coughers. Pulm Pharmacol Ther 2002; 15: 283-286.
  • 12. Birring SS, Matos S, Patel RB, et al. Cough frequency, cough sensitivity and health status in patients with chronic cough. Respir Med 2006; 100: 1105-1109.
  • 13. McGarvey LP, Carton C, Gamble LA, et al. Prevalence of psychomorbidity among patients with chronic cough. Cough 2006; 2: 4.
  • 14. Chang AB, Landau LI, Van Asperen PP, et al. Cough in children: definitions and clinical evaluation. Position statement of the Thoracic Society of Australia and New Zealand. Med J Aust 2006; 184: 398-403. <MJA full text>
  • 15. Pavord ID, Chung KF. Management of chronic cough. Lancet 2008; 371: 1375-1384.
  • 16. Chang AB. Cough: are children really different to adults? Cough 2005; 1: 7.
  • 17. Brand PL, Duiverman EJ. Coughing and wheezing children: improvement after parents stop smoking. Ned Tijdschr Geneeskd 1998; 142: 825-827.
  • 18. Dicpinigaitis PV. Angiotensin-converting enzyme inhibitor-induced cough: ACCP Evidence-Based Clinical Practice Guidelines. Chest 2006; 129 (1 Suppl): 169S-173S.
  • 19. Butler CC, Kinnersley P, Hood K, et al. Clinical course of acute infection of the upper respiratory tract in children: cohort study. BMJ 2003; 327: 1088-1089.
  • 20. Fitzmaurice DA. Written information for treating minor illness. BMJ 2001; 322: 1193-1194.
  • 21. Little P, Somerville J, Williamson I, et al. Randomised controlled trial of self management leaflets and booklets for minor illness provided by post. BMJ 2001; 322: 1214-1216, 1217.
  • 22. Marchant JM, Morris P, Gaffney J, Chang AB. Antibiotics for prolonged moist cough in children. Cochrane Database Syst Rev 2005; (4): CD004822.
  • 23. Chang AB, Redding GJ, Everard ML. Chronic wet cough: protracted bronchitis, chronic suppurative lung disease and bronchiectasis. Pediatr Pulmonol 2008; 43: 519-531.
  • 24. National Asthma Council Australia. Asthma management handbook 2006. Melbourne: NACA, 2006.
  • 25. Gibson PG, Fujimura M, Niimi A. Eosinophilic bronchitis: clinical manifestations and implications for treatment. Thorax 2002; 57: 178-182.
  • 26. Taylor DR, Pijnenburg MW, Smith AD, de-Jongste JC. Exhaled nitric oxide measurements: clinical application and interpretation. Thorax 2006; 61: 817-827.
  • 27. Wallace DV, Dykewicz MS, Bernstein DI, et al. The diagnosis and management of rhinitis: an updated practice parameter. J Allergy Clin Immunol 2008; 122 (2 Suppl): S1-S84.
  • 28. Chang AB, Peake J, McElrea M. Anti-histamines for prolonged non-specific cough in children. Cochrane Database Syst Rev 2008; (2): CD005604.
  • 29. Campanella SG, Asher MI. Current controversies: sinus disease and the lower airways. Pediatr Pulmonol 2001; 31: 165-172.
  • 30. Kemp AS. Does post-nasal drip cause cough in childhood? Paediatr Respir Rev 2006; 7: 31-35.
  • 31. Baik I, Kim J, Abbott RD, et al. Association of snoring with chronic bronchitis. Arch Intern Med 2008; 168: 167-173.
  • 32. Birring SS, Ing AJ, Chan K, et al. Obstructive sleep apnoea: a cause of chronic cough. Cough 2007; 3: 7.
  • 33. Bonnet R, Jörres R, Downey R, et al. Intractable cough associated with the supine body position. Effective therapy with nasal CPAP. Chest 1995; 108: 581-585.
  • 34. Gibson PG, Vertigan AE. Speech pathology for chronic cough: a new approach. Pulm Pharmacol Ther 2009; 22: 159-162.
  • 35. Vertigan AE, Theodoros DG, Gibson PG, Winkworth AL. Efficacy of speech pathology management for chronic cough: a randomised placebo controlled trial of treatment efficacy. Thorax 2006; 61: 1065-1069.
  • 36. Vakil N, van Zanten SV, Kahrilas P, et al. The Montreal definition and classification of gastroesophageal reflux disease: a global evidence-based consensus. Am J Gastroenterol 2006; 101: 1900-1920.
  • 37. Gatta L, Vaira D, Sorrenti G, et al. Meta-analysis: the efficacy of proton pump inhibitors for laryngeal symptoms attributed to gastro-oesophageal reflux disease. Aliment Pharmacol Ther 2007; 25: 385-392.
  • 38. Chang AB, Lasserson TJ, Gaffney J, et al. Gastro-oesophageal reflux treatment for prolonged non-specific cough in children and adults. Cochrane Database Syst Rev 2006; (4): CD004823.
  • 39. Swoger J, Ponsky J, Hicks DM, et al. Surgical fundoplication in laryngopharyngeal reflux unresponsive to aggressive acid suppression: a controlled study. Clin Gastroenterol Hepatol 2006; 4: 433-441.
  • 40. Marchant JM, Masters IB, Taylor SM, et al. Evaluation and outcome of young children with chronic cough. Chest 2006; 129: 1132-1141.

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