for many patients. Codeinedepresses the medullary cough
centre and is effective as are pholcodineanddextromethor-
phan, other opioid analogues.EXPECTORANTSDifficulty in clearing viscous sputum is often associated with
chronic cough. Various expectorants and mucolytic agents are
available, but they are not very efficacious.- Mixtures containing a demulcent and an antihistamine, a
decongestant such as pseudoephedrineand sometimes a
cough suppressant, such as codeine, are often prescribed.
This combination is less harmful than anticipated,
probably because the doses of most of its components are
too low to exert much of an effect. - Drugs which reduce the viscosity of sputum by altering the
nature of its organic components are also available. They are
sometimes called mucolytics, and the traditional agents are
unhelpful because they reduce the efficacy of mucociliary
clearance (which depends on beating cilia being
mechanically coupled to viscous mucus). The increased
viscosity of infected sputum is due to nucleic acids rather
than mucopolysaccharides, and is not affected by drugs
such as bromhexineoracetyl cysteine, which are therefore
ineffective. rhDNAase(Pulmozyme)(phosphorylated
glycosylated recombinant human deoxyribonuclease 1
enzyme), given by jet nebulizer, cleaves extracellular
bacterial DNA, is proven effective in cystic fibrosis patients,
decreasing sputum viscosity and reducing the rate of
deterioration of lung function. Its major adverse effects are
pharyngitis, voice changes, rashes and urticaria.
PULMONARY SURFACTANTSSeveral pulmonary surfactants are available. Colfosceril palmi-
tate(synthetic dipalmitoyl-phosphatidylcholine with hexade-
canol and tyloxapol) is used in newborn infants undergoing
mechanical ventilation for respiratory distress syndrome (RDS).
It reduces complications, including pneumothorax and bron-
chopulmonary dysplasia, and improves survival. Colfoscerilis
given via the endotracheal tube, repeated after 12 hours if still
intubated. Heart rate and arterial blood oxygenation/satura-
tion must be monitored. The administered surfactant is rapidly
dispersed and undergoes the same recycling as natural surfac-
tant. Its principal adverse effects are obstruction of the endo-
tracheal tubes by mucus, increased incidence of pulmonary
haemorrhage and acute hyperoxaemia due to a rapid improve-
ment in the condition.1 -ANTITRYPSIN DEFICIENCYα 1 -Antitrypsin is a serine protease produced by the liver.
It inhibits neutrophil elastase in lungs. In patients with242 THERAPY OF ASTHMA,COPD AND OTHER RESPIRATORY DISORDERS
further assessment to 35%. If oxygen produces respiratory
depression, assisted ventilation may be needed urgently.
Specific measures
Respiratory failure can be precipitated in chronic bronchitis by
infection, fluid overload (e.g. as the pulmonary artery pres-
sure increases and cor pulmonale supervenes) or bronchocon-
striction. Antibacterial drugs are indicated if the sputum has
become purulent. Bronchospasm may respond to salbutamol
given frequently via nebulizer (often supplemented by nebu-
lizedipratropium).Hydrocortisoneis given intravenously
for 72 hours. If the PaO 2 continues to fall and the PaCO 2 con-
tinues to rise, endotracheal intubation with suction and intermit-
tent mandatory mechanical ventilation should be considered,
especially if consciousness becomes impaired.
Key points
Respiratory failure- Type I (hypocapnic hypoxaemia) and type II
(hypercapnic hypoxaemia). - Therapy for type I is supportive with high-percentage
oxygen (FiO 2 40–60%). - Therapy for type II is low-percentage oxygen (FiO 2
24–28%) and treatment of reversible factors – infection
and bronchospasm (with antibiotics, bronchodilators
and glucocorticosteroids). - Type I or type II respiratory failure may necessitate
mechanical ventilation. - Central nervous system (CNS)-depressant drugs (e.g.
opiates, benzodiazepines) may exacerbate or
precipitate respiratory failure, usually type II. - Sedatives are absolutely contraindicated (unless the
patient is already undergoing mechanical ventilation).
COUGH
COUGH SUPPRESSANTSCough is a normal physiological reflex that frees the respira-
tory tract of accumulated secretions and removes particulate
matter. The reflex is usually initiated by irritation of the
mucous membrane of the respiratory tract and is co-ordinated
by a centre in the medulla. Ideally, treatment should not
impair elimination of bronchopulmonary secretions nor a
thorough diagnostic search. A number of antitussive drugs are
available, but critical evaluation of their efficacy is difficult.
Patients with chronic cough are often poor judges of the anti-
tussive effect of drugs. Objective recording methods have
demonstrated dose-dependent antitussive effects for cough
suppressants, such as codeine and dextromethorphan.
However, cough should not be routinely suppressed, because
of its protective function. Exceptions include intractable
cough in carcinoma of the bronchus and cases in which an
unproductive cough interferes with sleep or causes exhaus-
tion. Bland demulcent syrups containing soothing substances
(e.g. menthol or simple linctus BPC) provide adequate comfort