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S Afr Fam Pract
ISSN 2078-6190       EISSN 2078-6204 

© 2016 The Author(s)

REVIEW

Introduction

Cough is considered an important reflex which enhances the 
clearance of secretions and particles from the airway passages.1-4 

It protects the airways from aspiration of foreign materials. It is 
also considered one of the most common symptoms for which 
people seek medical attention from their pharmacists, general 
practitioners and pulmonologists.1

Classification of cough

Cough is classified according to the length of time that the cough 
persists. While there is some debate regarding the differences in 
the length of period for the classification of acute, subacute and 
chronic coughs, for the purposes of this review, the authors will 
consider an acute cough as one which lasts less than or equal to 
three weeks.1,2 A subacute cough is one that lasts between three 
to eight weeks and a chronic cough is one that lasts for longer 
than eight weeks.1,2

Common causes of acute, subacute and  
chronic coughs

For the majority of patients with acute cough, the causes can 
be either viral or bacterial, and tend to be as a result of upper 
respiratory tract infections, such as acute bronchitis or tracheo-
bronchitis.1 The vast majority of these infections are viral in 
nature and tend to be self-limiting. Only a few patients with an 
acute cough will actually seek medical attention. The cough itself 

lasts one to two weeks and disappears once the trigger is gone.1 
Whilst it is impossible to predict whether or not an acute cough 
will become chronic, it is important to remember that repeated 
cases of acute cough can indicate an underlying chronic disease 
such as asthma.1

Subacute coughs are usually the result of bronchial hyper-
responsiveness following a specific infection.1 The cough tends to 
be bothersome even after the inciting infection has completely 
resolved. There is a lack of good quality evidence to explain a 
clear practical approach to treat these types of subacute coughs, 
but health practitioners tend to use inhaled corticosteroids and 
even advanced therapy like leukotriene modifiers as first line 
agents. Evidence suggests that these coughs are also self-limiting 
in cases of post-infection bronchial hyper-responsiveness. Some 
cases of subacute coughs can be caused by Bordetella pertussis 
infections. In this case, the cough tends to be persistent with 
disabling paroxysms, even though the infection itself has 
completely resolved. With the fear around the use of the vaccine 
to prevent pertussis, the frequency of subacute coughs caused 
by this infection has increased. Regardless of prior vaccination, 
it is important to rule out a recent pertussis infection as the 
cause of the patient’s subacute cough. The characteristic of 
these coughs, particularly in children, tends to their paroxysmal 
nature as well as the inspiratory whoop associated with them. 
Some of the non-infectious causes of subacute coughs include 

Abstract

On a regular day, healthcare providers will be contacted by one or more health seekers presenting with cough as a symptom. 
Cough has been considered an important physiological reflex that protects the airways from aspiration of foreign materials. 
Cough is one of the most common symptoms for which people seek medical attention from their healthcare practitioners. The 
common classifications for cough include acute, subacute and chronic cough. Such classification is time dependant. Acute cough 
is generally self-limiting, while subacute and chronic coughs have various different causes. There are many different causes of 
cough, and the common causes of persistent coughs include: upper airway cough syndrome, asthma, gastroesophageal reflux 
disease (GORD) and even pharmacological therapy. There are other important causes of chronic cough especially in the Southern 
African region that include: pulmonary tuberculosis (TB), environmental diseases, and others, which will not be covered by this 
article. Management of subacute and chronic coughs should be individualised according to their cause. Currently, there is no 
evidence to suggest acute coughs need to be treated. Moreover, there is poor evidence to recommend the use of over the counter 
(OTC) cough syrups in the management of acute coughs.

Keywords: cough, acute cough, chronic cough, subacute cough, cough syrup 

South African Family Practice 2016; 58(4):35-39
 
Open Access article distributed under the terms of the 
Creative Commons License [CC BY-NC-ND 4.0] 
http://creativecommons.org/licenses/by-nc-nd/4.0

Management of Cough: a practical approach
Vally, M*a, Irhuma, MOEa

aDivision of Clinical and Experimental Pharmacology, Department of Pharmacy and Pharmacology,  
School of Therapeutic Sciences, Faculty of Health Sciences, University of Witwatersrand, Johannesburg
Corresponding author, email: muhammed.vally@wits.ac.za



S Afr Fam Pract 2016;58(4):35-3936

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gastroesophageal reflux disease(GORD), bronchial asthma and 
upper airway cough syndrome.1 

In addition, some pathologies may present initially with 
subacute cough symptoms, including lung cancers, pulmonary 
tuberculosis (TB), asbestosis, and other pulmonary conditions.

With a chronic cough, the most common causes are: upper 
airway cough syndrome (previously known as the post nasal 
drip), GORD, asthma and pulmonary TB.2 Cough may also be a 
complication of drug therapy such as the use of angiotensin-
converting enzyme (ACE) inhibitors.5 Some of the less common 
causes of chronic cough include a varying number of diseases 
that affect the airways like non-asthmatic eosinophilic bronchitis, 
chronic bronchitis, neoplasms and even foreign bodies.5

Upper Airway Cough Syndrome as a cause of cough

This is a common cause of both a subacute and chronic 
cough.1,2 The underlying reasons for the post nasal drip include 
seasonal or perennial allergic rhinitis, vasomotor rhinitis, acute 
nasophyrangitis and sinusitis.6 Symptoms of the post nasal drip 
include frequent nasal discharge, a sensation of fluid dripping 
down into the back of the throat and the frequent need of 
patients to clear their throats.7 It is important to remember that 
an absence of these symptoms does not exclude the diagnosis.8 
Physical examination clues include the cobble stone appearance 
of nasopharyngeal mucosa and the presence of secretions in the 
nasopharynx. Since the signs and symptoms of upper airway 
cough syndrome are non-specific, there is a lack of criteria for 
definitive diagnosis. Ultimately, it is the response to therapy that 
secures the diagnosis. When there are no other apparent causes 
for the patient’s subacute or chronic cough, one can start empiric 
therapy for upper airway cough syndrome before attempting 
extensive diagnostic work-up in the search for other etiology.9

Gastroesophageal Reflux Disease (GORD) as a cause 
of cough 

GORD is the second common cause of a persistent cough 
and patients may complain of symptoms of gastric reflux (e.g. 
heartburn).7-9 The symptoms of gastric reflux, however, may be 
absent in up to 40 per cent of patients who present with a cough 
as a result of reflux.7 The optimal diagnostic study is to monitor 
oesophageal pH for 24 hours. This must be performed with event 
markers to allow for the correlation between the oesophageal 
pH and cough. The sensitivity of this study exceeds 90 per cent.7

Asthma as a cause of cough  

In adults, asthma is the second leading cause of a persistent 
cough.10 The cough associated with asthma is usually nocturnal 
and is usually accompanied by an episodic wheeze, shortness 
of breath and even chest tightness. However, it can be the 
sole symptom in a form of asthma known as “cough variant 
asthma”.11-13 Cough variant asthma is a rare form of asthma and 
shows no evidence of airway obstruction on spirometry.14 In 
patients with traditional bronchial asthma, the characteristic 
symptoms can be expected along with variability in symptoms, 
precipitation of attacks by a range of factors like environmental 
allergens as well as the patients response to bronchodilators and 
corticosteroids.15 While the wheeze is usually the cardinal sign 

of asthma, it may in fact be absent at the time of consultation 
with the patient. Some associated factors that could suggest 
asthma include a family history of asthma or atopy, a patient’s 
personal history of atopic diseases (like allergic rhinitis, allergic 
conjunctivitis and atopic eczema) as well identifiable triggers for 
symptoms and the relief of symptoms with a bronchodilator.15 
The diagnosis of asthma is predicated on the proof of reversibility; 
however, the presence of reversible airway obstruction or a 
positive methacholine challenge does not necessarily prove 
the presence of asthma in patients with a cough secondary to 
asthma.7 Spirometry (pre- and post-bronchodilators) may be 
falsely positive in 33 per cent of patients, while the methacholine 
challenge may be falsely positive in 22 per cent of patients.7 
Thus the best way to confirm asthma as a cause of the patient’s 
subacute or chronic cough is to show improvement in the cough 
with appropriate asthma therapy. An example of such therapy is 
the use of inhaled corticosteroids for two to four weeks. 

ACE-Inhibitors as a cause of cough

Approximately 15 per cent of patients (other studies suggest 
between 4-20 per cent) treated with an ACE-inhibitor will have a 
non-productive cough as a side effect of their medication.16,17 The 
exact pathogenesis of this cough is not well understood, but it is 
thought to be as a result of bradykinin excess due to a decrease 
in the inactivation of bradykinin to kinin.17-18 A review of clinical 
trials found that the incidence of cough in patients taking ACE-
inhibitors was significantly higher than those taking placebo 
(10.6 per cent vs 3.4 per cent).19 Some of the general features of 
ACE-inhibitor induced cough are listed in Table 1 below.

Table 1: General feature of ACE-inhibitor induced coughs20

The cough induced by ACE-inhibitors: 

• Begins within one week of initiating therapy, but can be delayed by 
up to six months

• Presents often as a tickling, scratchy or even itchy sensation in the 
throat

• Can take up to four weeks to subside after discontinuation of 
therapy, but usually subsides within one to four days

• Tends to reoccur with re-challenge even when using a different 
ACE-inhibitor

• Does not seem to occur more frequently in asthmatics when 
compared to non-asthmatics. 

• Generally is not accompanied by airflow obstruction (except in 
cases of ACE-inhibitor induced angioedema)

Management of sub-acute and chronic cough

Previous studies have reported that the treatment of the 
underlying cause of the subacute or chronic cough was successful 
in more than 90 per cent of cases.7,8 There is some debate over 
this, as newer studies suggest fewer patients have success when 
the underlying cause is treated.21-23 Table 2 summarises the 
treatment recommendations for the specific causes of subacute 
and chronic cough. 

Management of acute cough

Acute viral coughs are usually self-limiting and prescribed 
treatment is unnecessary.28 These coughs are sometimes 
distressing for patients, and patients have reported benefit 
from various over the counter (OTC) medications; however, 



Management of Cough: a practical approach 37

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there is little evidence of their effect.28 Cough suppression 
in these circumstances should be avoided as it may lead to 
retention of mucous, promote stasis and even increase the 
risk of infection.29 There is no good evidence to suggest that 
expectorants actually work. The use of combination cough 
mixtures cannot be supported as they either contain substances 
with no proven benefit or they contain substances with opposed 
pharmacological action (such as those containing expectorants 
and antihistamines). In cases with tenacious and chronic mucous 
production, mucolytics may be attempted. However, it is far 
more important for the patient to maintain adequate hydration 
to reduce sputum viscosity.29 Table 3 summarizes some of the 
over the counter (OTC) preparations available for acute cough.

Evidence based opinion on cough syrups for acute 
cough

A 2014 Cochrane review on over the counter medications in 
acute cough, confirms what other previous reviews of the topic 

have suggested.30 The study looked at 29 randomised control 
trials (RCTs) that met the inclusion criteria for the review. Of the 
29 studies, 24 were double blinded and 5 were single blinded. 
Studies were excluded from the review based on either a lack 
of placebo control, the cough was artificially induced, the study 
subjects had a cough for longer than three weeks or the cough 
outcomes were not clearly reported. The reviewers found there 
was no good evidence on the effectiveness of these medications. 
It is thus unclear whether these medications are helpful for 
the treatment of acute cough. The reviewers found that there 
were not sufficient trials in each group of active ingredients. 
Furthermore, 11 of the 29 included trials showed a positive 
result, whereas 18 did not show active treatment to be superior 
to placebo. The reviewers did, however, suggest that most of the 
preparations seem to be safe based on the studies that reported 
side effects and the low incidence of minor adverse effects that 
were reported. The lack of evidence regarding the effectiveness 
of these cough mixtures, the authors suggest, brings into 

Table 2: Treatment recommendations for the specific causes of subacute and chronic cough

Cause of the subacute of 
chronic cough 

Evidence Based Recommendation 

Upper Airway Cough Syndrome Due to allergic rhinitis24:

1.  Consider the use of intranasal normal saline, steaming therapy, intranasal corticosteroids, antihistamines, and/
or cromolyn.

2.  Second and third generation antihistamines are more effective than first generation antihistamines in these 
patients.

Due to vasomotor rhinitis24:

1.  Due to their anticholinergic effects, first generation antihistamines combined with a decongestant are usually 
an effective treatment.

2.  Consider inhaled ipratropium bromide only if the above combination does not work or is contraindicated.

Due to acute nasopharyngitis24:

1.  Consider using a combination of first generation antihistamines with a decongestant.

2.  Second and third generation antihistamines were not found to be efficacious in randomized controlled trials.

3.  Be wary of the side effects of first generation antihistamines such as sedation when prescribing the drugs.

Due to sinusitis 24:

1.  Prescribe a first generation antihistamine and decongestant preparation for 1 week.

2.  Consider therapy for acute bacterial sinusitis (antibiotics, intranasal corticosteroids, etc) if bacteria are 
suspected as the cause of the sinusitis. 

Gastroesophageal Reflux 
Disease (GORD)

Lifestyle modifications25: 

1.  Weight loss is recommended for overweight or obese patients.

2.  Elevation of the head end of the bed is beneficial when troublesome.

3.  Other lifestyle modifications should be tailored to the patient (example diet, smoking cessation, etc).

Acid-suppression therapy7,25:

1.  This is the preferred therapy.

2.  Consider using an empiric short-term trial of Proton-Pump inhibitors (PPI).

3.  It may take up to 8 weeks, or even several months, for a patient to show an improvement. 

4.  Some debate exists as to the effectiveness of this recommendation; however, acid suppression therapy is still 
preferred. 

5.  Refer to gastroenterologist in persistent cases.

Asthma For cough variant asthma 26,27:

1.  Put the patients on regular inhaled corticosteroids and bronchodilators when needed.

2.  Patients who are refractory to this treatment can be placed on oral corticosteroids +/-  leukotriene receptor 
antagonists e.g. Montelukast, unless not recommended.

ACE-inhibitors 1.  Consider ACE-inhibitor dose reduction, re-evaluate the patient with possibility to re-challenge with a different 
ACE-inhibitor.17

2.  Switch to an Angiotensin Receptor Blocker (ARB) if possible.17



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question whether these medications should be promoted using 
language that implies effectiveness.30 Table 4 summarizes the 
evidence for each of the common active ingredients found in 
cough mixture in the adult population trials.

Conclusion

Acute cough is usually viral or allergic in nature. Although a large 
variety of cough preparations are available and commonly used, 
the evidence for their efficacy is unclear and limited. The practice 
of using multicomponent cough preparations has never been 
supported on scientific grounds.28,29,30

References

1. De Blasio F, Virchow JC, Polverino M, et al. Cough management: a practical 
approach. Cough (London, England). 2011;7:7. doi:10.1186/1745-9974-7-7

2. D’Urzo A, Jugovic P. Chronic cough. Three most common causes. Can Fam 
Physician. 2002;48:1311-1316.

3. Irwin RS, Madison JM. The diagnosis and treatment of cough. N Engl J Med. 
2000;7;343(23):1715-1721.

4. Irwin RS, Curley FJ. The treatment of cough. A comprehensive review. Chest. 
1991;99(6):1477-1484.

5. Irwin RS, French CT, Lewis SZ, et al. Overview of the Management of Cough: 
CHEST Guideline and Expert Panel Report. Chest. 2014;146(4):885-889.

6. Patrick H, Patrick F. Chronic cough. Med Clin North Am. 1995;79(2):361-72.

7. Irwin RS, Curley FJ, French CL. Chronic cough. The spectrum and frequency of 
causes, key components of the diagnostic evaluation, and outcome of specific 
therapy. Am Rev Respir Dis. 1990;141(3):640-7.

8. Pratter MR, Bartter T, Akers S, DuBois J. An algorithmic approach to chronic 
cough. Ann Intern Med 1993:119:977.

9. Irwin RS, Baumann MH, Bolser DC, Boulet LP, Braman SS, Brightling CE, et al. 
American College of Chest Physicians (ACCP). Diagnosis and management of 
cough executive summary: ACCP evidence-based clinical practice guidelines. 
Chest. 2006;129(1 Suppl):1S-23S.

10. Holinger LD, Sanders AD. Chronic cough in infants and children: an update. 
Laryngoscope. 1991;101(6 Pt 1):596-605.

11. Corrao WM, Braman SS, Irwin RS. Chronic cough as the sole presenting 
manifestation of bronchial asthma. N Engl J Med. 1979;300(12):633-7.

12. Johnson D, Osborn LM. Cough variant asthma: a review of the clinical literature. J 
Asthma. 1991;28(2):85-90.

13. O’Connell EJ, Rojas AR, Sachs MI. Cough-type asthma: a review. Ann 
Allergy.1991;66(4):278-82, 285.

14. Motala C, Green RJ, Manjra AI, Potter PC, Zar HJ. South African Childhood 
Asthma Working Group. Guideline for the management of chronic asthma in 
children – 2009 update. S Afr Med J. 2009;99(12 Pt 2):898-912.

15. Lalloo U, Ainslie G, Wong M, Abdool-Gaffar S, Irusen E, Mash R, et al. Guidelines 
for the management of chronic asthma in adolescents and adults. SA Fam Pract. 
2007:49(5).

16. Morice AH, Kastelik JA. Cough. 1: Chronic cough in adults. Thorax. 
2003;58(10):901-7.

17. Brunton LB, Chabner BA, Knollmann BC, eds. Goodman & Gilman’s. The 
Pharmacological Basis of Therapeutics. 12th ed. New York: McGraw-Hill; 2011.

18. Dykewicz MS. Cough and angioedema from angiotensin-converting enzyme 
inhibitors: new insights into mechanisms and management. Curr Opin Allergy 
Clin Immunol. 2004;4(4):267-70.

19. Lacourcière Y, Lefebvre J, Nakhle G, Faison EP, Snavely DB, Nelson EB. Association 
between cough and angiotensin converting enzyme inhibitors versus 
angiotensin II antagonists: the design of a prospective, controlled study. J 
Hypertens Suppl. 1994;12(2):S49-53.

20. Israili ZH, Hall WD. Cough and angioneurotic oedema associated with 
angiotensin-converting enzyme inhibitor therapy. A review of the literature and 
pathophysiology. Ann Intern Med. 1992;117(3):234-42.

21. Birring SS. Controversies in the evaluation and management of chronic cough. 
Am J Respir Crit Care Med. 2011; 183:708. 

22. Woodcock A, Young EC, Smith JA. New insights in cough. Br Med Bull. 2010; 
96:61.

23. Haque RA, Usmani OS, Barnes PJ. Chronic idiopathic cough: a discrete clinical 
entity? Chest. 2005;127:1710.

24. Pratter MR. Chronic upper airway cough syndrome secondary to rhinosinus 
diseases (previously referred to as postnasal drip syndrome): ACCP evidence-
based clinical practice guidelines. Chest. 2006 Jan;129(1 Suppl):63S-71S.

25. Dipiro JT, Talbert RL, Yee GC, Matzke GR, Well BG, Posey LM, eds. 
Pharmacotherapy A pathophysiologic approach. 9thed. New York: McGraw-Hill; 
2014.

Table 3: Examples of over the counter (OTC) preparations available in South Africa29

Pharmacological 
group

Active ingredient Example of product on 
the market 

Indications Cautions 

Antitussives Codeine Broncleer with codeine®,
Benylin with codeine®

Non-productive cough Respiratory depression, head 
injuries, acute alcoholism, acute 
asthma, heart failure secondary to 
chronic lung disease, CYP 2D6 ultra 
rapid metabolisers, porphyria 

Pholcodine Pholtex®,
Pholtex forte®,
PholtexJunior®

Non-productive cough Asthma, hepatic impairment, 
respiratory depression

Dextromethorphan Benylin Dry Cough® Non-productive cough Asthma, hepatic impairment, 
respiratory depression

Expectorants Guaifenesin Benylin wet cough®, 
Benylin wet cough 
methol®, Dilinctjunior®

Cough alleviation Porphyria

Mucolytics Acetylcysteine ACC-200®, Amuco® Cystic fibrosis and other respiratory 
disorders associated with the 
production of viscous mucous 

Asthmatics; patients with a history 
of peptic ulceration 

Bromhexine Bisolvon® Cystic fibrosis and other respiratory 
disorders associated with the 
production of viscous mucous

Asthmatics; patients with a history 
of peptic ulceration, porphyria 

Carbocisteine Mucospect®, Betaphlem®, 
Flemlite®, Flemex®

Cystic fibrosis and other respiratory 
disorders associated with the 
production of viscous mucous

Active peptic ulceration, history of 
peptic ulcer disease, porphyria 



Management of Cough: a practical approach 39

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26. Cheriyan S, Greenberger PA, Patterson R. Outcome of cough variant asthma 
treated with inhaled steroids. Ann Allergy. 1994; 73:478.

27. Spector SL, Tan RA. Effectiveness of montelukast in the treatment of cough 
variant asthma. Ann Allergy Asthma Immunol. 2004; 93:232.

28. Morice AH, McGarvey L, Pavord I; British Thoracic Society Cough Guideline 
Group. Recommendations for the management of cough in adults. Thorax. 2006 
Sep;61(Suppl1):i1-24.

29. Rossiter D, Blockman M, Barnes KI, Cohen K, Decloedt E, Irhuma M, , et al. eds. 
South African Medicines Formulary. 11th Edition. Cape Town: South African 
Medical Association Health and Publishing Group;2014.

30. Smith SM, Schroeder K, Fahey T. Over-the-counter (OTC) medications for acute 
cough in children and adults in community settings. Cochrane Database Syst 
Rev. 2014;11:CD001831.

Table 4: Summary of evidence regarding cough mixtures in the adult population trials30

Pharmacological group Active ingredient Outcomes measured Recommendation

Antitussives Codeine
• Eccles 1992
• Freestone 1997

Eccles 1992:
Reported on a five-point cough severity 
score.
Freestone 1997: Cough was assessed 
via microphone using cough sound 
pressure levels 90 minutes after drug 
administration, cough frequency counts 
and subjective scores.

Codeine was not superior to the placebo 
as a single dose or a total daily dose. 

Dextromethorphan
• Lee 2000
• Pavesi 2001
• Adams 1993

Lee 2000:
Cough frequency, mean subjective cough 
scores.
Pavesi 2001:
Three-hour continuous cough recording, 
measuring cough bouts, cough 
components, cough effort, cough 
intensity and cough latency.
Adams 1993:
Mean cough score.

Dextromethorphan was not superior to 
the placebo, with reported higher adverse 
events compared to the placebo.

Expectorants Guaifenesin
• Robinson 1977
• Kuhn 1982
• Albrecht 2012

Robinson 1977:
Cough frequency and intensity
Kuhn 1982:
Cough frequency, cough severity and 
sputum thickness. 
Albrecht 2012:
Spontaneous symptom severity scores

Guaifenesin was not superior to placebo.

Mucolytic Bromhexine
• Nesswetha 1967

Frequency of coughs Bromhexine shows better outcomes 
when compared to the placebo, although 
the study was limited by the number of 
participants.

Antihistamine 
and decongestant 
combination 

Loratadine and 
pseudoephedrine combination 
• Berkowitz 1989

Cough scores reported in patient diaries No recommendation in acute cough.

Dexbrompheniramine and 
pseudoephedrine combination
• Curley 1988

Mean severity rank of cough on a scale 
from zero to four obtained through a 
patient diary.
Adverse effects of this combination.

Formulation not available in South Africa, 
with unknown risk-benefit outcomes.

Other Honey
• Avner Cohen 2012

Improvements in total symptom scores No data in adults; however, honey was 
superior to placebo in trial children 
participants.