lAP Respiratory Chapter SECTION 1 DIAGNOSIS Step 1 - Qualifying some terms Recurrent: The adjective 'recurrent' is essential to the clinical definition of
asthma. More than three episodes of airflow obstruction are considered
significant by several widely followed guidelines.
Cough variant asthma: Recurrent isolated cough of unclear etiology may be a
sole and distressing manifestation of asthma.
Nocturnal cough: Owing to circadian rhythms bronchial caliber in all humans is
narrow at in the early hours of the morning (4 a.m.). Nocturnal cough may, thus,
be the sole manifestation of asthma. In children under treatment, the persistence
of nocturnal symptoms suggests the need for better control.
Recurrent pneumonic infiltrates: This is defined as more than two episodes in
a year of more than three episodes over any period of time. Consider asthma in
the differential diagnosis if the infiltrates recur in different lobes.
Step 2 - Pitfalls in auscultation Localized wheeze: It is important to differentiate this from generalized wheeze,
sin suggests a local obstruction e.g. foreign body.
Stridor: Care should be taken to differentiate stridor from wheeze in very small Conducted sounds: Noisy breathing may occur due to upper airway obstruction
by enlarge tonsils/adenoids/allergic sinusitis/rhinitis. Snoring, mouth breathing,
saliva staining the pillow, restless sleep, long unequal breathing pauses with
sudden wakening are the features that suggest upper airway obstruction.
Diagnosis and assessment of severity of asthma Four easy steps All asthmatic children Step-1 : Suspect asthma in all children whose do not wheeze
presenting symptoms may suggest recurrent airflow
Symptoms suggestive of recurrent airflow obstruction Beware of pitfalls in auscultation
Also consider asthma in the following clinical situations
Recurrent pneumonic infiltrates in different lobes
Recurrent 'lower respiratory infections'.
Asthma being characteristically Step – 2 : Identify signs that suggest generalized episodic, there may be no signs at the time of
Signs suggestive of generalized airflow obstruction
evaluation Typical features
Afebrile episodes: This feature may help to differentiate asthma from
infectious causes of wheezing in early childhood {page 3). Prolonged cough and /
or wheeze after viral respiratory infections may suggest asthma.
Personal atopy: If a child has other manifestations of atopic disease, the risk of
asthma increases. Look for flexural dermatitis, eczema and allergic
rhinoconjunctivitis which are other atopic manifestations. Pre-existing eczema is
probably most important - mainly because eczema is common in the first year of
life and thus, predates the development of asthma in most individuals.
Atopy / Asthma in a parent or sibling: This doubles the risk of asthma in the
child. 1) both parents have asthma the risk is more than three times as compared
Exercise / Activity: In a smaller child, laughing or crying may provoke Triggers: These are usually inhaled irritants or aeroallergens (page 10). Seasonality: Sudden temperature changes, flowering season and harvesting
time are risk situations. This feature can be judged only after observation over a
Relief with bronchodilator ± short-course oral steroid: A past history of
usage of such drugs with relief or a therapeutic trial with these drugs in a case
presenting for the first time are of great importance. This is a clinical indicator of
reversible airflow obstruction The regime is discussed under management of an
ALTENRATIVE DIAGNOSES INVESTIGATIONS Onset below 6 months of age
murmur. Persistent respiratory symptoms
symptoms, fever Persistent cough, constitutional
Unusual symptoms
Recurrent multifocal bacterial infections
malabsorption, failure to thrive First life-threatening episode
localized wheeze, unequal air entry History suggestive of diet allergy (see Assess clinically to qualify the above symptoms Clinical features That merit follow up In children, asthma is a clinical diagnosis, made by evaluation over time either retrospectively or prospectively Investigations help in confirming or ruling out alternative diagnoses, rather than in diagnosing asthma Situation 1
In children with a strong family/personal history of atopy, asthma may be
suspected even after the first afebrile wheezy illness. Early recognition of asthma
in this situation promotes an early and active approach in terms of advice to
parents, trigger avoidance and pharmacotherapy.
Situation 2
As mentioned earlier, asthma is the commonest cause o( recurrent airflow
obstruction in the older child. Early onset asthma i.e. onset in infancy /
toddlerhood is, however, well recognized.
There exists a group o( infants who are born with anatomically small
airways. This predisposes them to wheeze with viral infections (wheeze
associated with lower respiratory infections). Each viral infection results in an
inflamed hyperreactive airway and further narrowing of airway caliber. As these
infants grow older, the airways grow in size and the symptoms progressively
abate. Thus, not ail wheeze and cough are caused by asthma and caution is
needed to avoid giving infants and young children inappropriately prolonged
On the other hand, asthma in early childhood is frequently
underdiagnosed (receiving labels such as recurrent bronchitis, asthmatic
bronchitis, wheezy bronchitis and recurrent upper respiratory tract infections) and
thus, many infants and young children are deprived of the benefits of preventer
therapy. Therapeutic strategies for wheezy infants must address the possibility
that for those who will go on to develop asthma, a prolonged delay in anti-
inflammatory treatment leads to poor growth, school absenteeism, a poor quality
of life and: possibly to a permanent loss in pulmonary function.
In deciding when to initiate daily long-term control therapy, the clinician
must, therefore, weigh the long -term effects of inadequately controlled asthma
versus the possible adverse effects of medicarions given over prolonged periods,
initiation of the lo ng term control therapy should be considered strongly for
infants and young children who in the past year have had more than three
episodes of wheezing that lasted more than 1 day and affected sleep, ANE) who
in addition have identifiable risk factors for development of persistent asthma as
indicated by either a) physician diagnosis of atopic dermatitis or a parental
history of asthma OR b) two of the following conditions : physician diagnosed
allergic rhinitis, greater than 4 percent peripheral blood eoxinophilia*, or
wheezing apart from colds. It should also be considered if they consistently
require symptomatic treatment more than two times per week or have severe
exacerbations (requiring inhaled beta 2 agonist more frequently than every 4
hours over 24 hours) that occur less than 6 weeks apart. If clear benefit is not
observed within 4-6 weeks, alternative diagnoses or therapy must be considered.
* In our setting, parasitic infections arc a common cause of peripheral blood
Step 3 : continued Clinical features that merit follow up Situation 1: < 3 episodes of symptoms of airflow Early recognition of
obstruction in a child with a family history of asthma / asthma leads to atopy or personal history of atopy early intervention
• Follow up this child irrespective of age of onset.
• Caution parents about future recurrences and advise
• Identify trigger factors that may be operative in the
child's environment and advise avoidance / special actions.
Continue to look for other qualifying features on follow
• Assess the severity over time prospectively as on Distinct pathogenic processes Situation 2: Frequent symptoms of airflow obstruction in contribute to
a child between 6 months - 3 years of age
bronchoconstriction but the differing
Wheeze associated lower respiratory infection (WALRl) wheezing phenotypes may be
and early onset asthma are the common causes of difficult to set apart
wheezing in this age group. While children with asthma in the clinical setting
do benefit from a preventer drug regime, preventer
therapy in WALRl continues to be subject of debate.
Early onset asthma Qverlapping features The toddler who wheezes frequently is often a management dilemma. “To treat or not to treat is the question” Grading of asthma
In the event of overlapping criteria, it is appropriate to label the patient as
In each grade the patient may have a mild, moderate or severe
exacerbation. Grading the severity of acute episodes is described on page 17.
Note that while grading, the patient may be on treatment with preventer
Since asthma is a dynamic condition, the grade of severity may change
Peak expiratory flow (PEF) in diagnosis (page 5)
Step 4 : Having diagnosed asthma, quantify the symptoms
over a period of time to assess severity
Grades of severity of Symptoms of Night time airflow obstruction symptoms expiratory flow (PEF)* Continuous Frequent ≤ 60% of persistent personal Physical activity >30% diurnal Grading variation** Moderate > once a day > one a >60% - severity helps persistent <80% of to decide the personal best or optimal preventer diurnal variation** regime for > once a week > twice a long-term persistent but < once a personal control 20-30% diurnal variation** <once a week < twice a intermittent Asymptomatic personal and normal diurnal variation**
** A diurnal variation of <10 % in PEF values is normal.
Lowest PEF levels are seen on waking and highest levels
Children with intermittent asthma but severe exacerbations
should be treated as having moderate persistent asthma.
Investigations in diagnosis Hemogram: In asthma, as in other atopic states, mild eosinophilia is common.
Dieth carbamazine is often irrationally prescribed in the setting of wheezy illness
with m: eosinophilia. Its use should be reserved for tropical eosinophilia,
which should considered when the absolute eosinophil count exceeds 3000 /
X-Ray chest: A baseline chest X-Ray is advisable in every case to exclude other
diagnose possibilities mimicking asthma e.g. congenital anomalies, foreign body.
Repeat radiograp at frequent intervals or with every exacerbation are not
required. In most cases, the chi X-Ray is normal between episodes. Evidence of
generalized hyperinflation may be prese in those with severe symptoms or in
Spirometry: While spirometry offers objective and sensitive criteria, by no
means are that specific to a diagnosis of asthma. Spirometric findings are thus,
to be interpreted in conc with the clinical setting. In children below 7-8 years,
spirometry is difficult to perform, is technician dependent and reproducibility of
test results is poor. Spirometric results 01 reflect the lung function on the day of
testing and may thus be normal since asthma is dynamic condition. The
procedure is expensive and the equipment is not widely available For all these
reasons, the consensus group feels that spirometry has a very restricted r< in the
diagnosis of asthma in the Indian setting.
PEF: Standard values for various populations have not been defined. Thus, the
curren accepted norm is to utilize 'personal best' values as a benchmark. In order
to obtain persoi best values, monitoring of PEF should be performed over one to
two weeks {8.00 a.m. a 8.00 p.m. daily) during asymptomatic periods. This limits
the role of PEF in initial diagnc and assessment of severity but makes it better
suited to monitor therapy and in follow for reassessment of the grade of severity.
Technique, compliance and reproducibility are a difficulties that may be
encountered. Children can be trained to use the peak flow me after
approximately 5 years of age. Asthma, being a dynamic condition as mentioned
early the only merit of PEF monitoring over spirometry is that it can be performed
over a o to two week period at home thereby giving a temporal profile.
Serum IgE, RAST, Skin allergy testing: These tests may help to confirm atopy,
but t asthma. The various allergens have not been well standardized and skin
allergy testing cumbersome, expensive and not widely available. Results of these
tests seldom contribute additionally to pharmacotherapy in managing most
asthmatics. Hence, these tests are r recommended routinely by the consensus
The place of investigations in diagnosis Which test? What information? Hemogram As a baseline May reveal mild eosinophilia in X-ray chest Spriometry
situations where diagnosis if: clinical diagnosis of • FEV, and
Investigations are not a prerequisite to initiating treatment. In indeterminate cases, when spirometry is not feasible, a therapeutic trial with appropriate preventer Peak expiratory flow A poor tool for regime is justified
of >10 % in PEF when not on bronchodilator therapy or diurnal variation of >20 % in PEF when on bronchodilator therapy
Serum IgE levels, RAST, skin allergy
required prior to immunotherapy to identify incriminating allergens.
Goals of long term asthma care
Acute attacks and emergency doctor / hospital visits
Daily activities and sports participation
Towards reaching the goals. Keep the child subjectively and objectively healthy
• Dealing with triggers / precipitants
• Dealing with poor asthma control • Other treatment modalities Patient education: partnering a long term strategy with the parents
Patient education is the most important facet of management
of childhood asthma. Besides patents, involve the child (if
possible) and other caregivers in the discussion.
The ten commandments (Checklist of inputs to parents during the first consultation) Consider calling
• Discuss that asthma is a chronic condition with episodic these children at protected
symptoms and explain the need for continuous preventer times; start or end your day with a session
• Emphasize that the drugs used 'control' but do not 'cure'
asthma. Reassure parents that a majority of children
Clear myths and misconceptions regarding inhaled
therapy and emphasize merits of the inhaled route.
• Discuss the selected regime and address concerns
• Discuss the usage and maintenance of the inhaler device
• Advise the parent to carry the inhaler device at each
• Counsel regarding approximate time taken to note
improvement and emphasize the need for compliance
with the prescribed preventer drugs. Advise regarding
dealing with triggers / precipitants. Emphasize that diet
has a small role in causation of symptoms.
Advise the parent to maintain a diary of events and carry it
at each follow up visit. They may record days that there
Group
are events such as daytime cough, nocturnal cough, education wheeze, reliever medication use, doctor /hospital visits. reassures parents that
(The prototype asthma diaries described in literature are they are not detailed and need to be logged in daily and may be used alone and helps them interact.
in those with persistent symptoms or poor control. Besides, it Maintaining a daily diary even on 'well days' is less likely saves time
• Educate regarding management of acute exacerbations at
• Schedule the first follow up visit 2-4 weeks alter institution
of preventer regime. Subsequent visits may he planned 2-
8 weekly according to the severity or earlier in case of
The eleventh commandment (During follow up)
Identify any lacunae in understanding and reinforce the
More about devices MDI: Difficulty with coordination of actuation and inhalation precludes the usage
of this device without a spacer in most individuals. Direct usage also causes
deposition of more than 80 percent of actuated dose in the orophyarynx. Usage
with a spacer is always strongly recommended.
Chlorofluorocarbons are known to damage the ozone laye r and are now being
replaced by hydrofluoroalkanes. Inhalers which use propellants other than
chlorofluorocarbons have been recently introduced in India. They do not offer any
additional patient benefit but are environment-friendly.
MDI with Spacer*: The age at which one may expect the cooperation and
understanding of a child to move from an 'active' device i.e. MDI with spacer with
mask to a 'passive' device i.e. MDI with spacer is approximately 3 years, as tidal
breathing is adequate to ensure delivery of drug to the lower airways. An older
child may be taught to breathe in and pause after inspiration to a count of'5'. After
each actuation of the MDI, the child should be made to inhale a few times rather
than breathing once after multiple actuations.
*Spacers: Spacers or volume holding chambers eliminate the need for
coordinating inhalation and actuation while using an MDI. For a child on a regime
containing medium or high dose inhaled steroid, use of a spacer with the MDI
minimizes oral steroid deposition and consequently, the local effects of inhaled
steroid therapy viz. thrush and dysphonia. Mouth washing and gargling are
further effective in reducing the quantity of swallowed drug.
Small and large volume spacers are equally efficacious in drug delivery to lungs.
However, small volume spacers may not entirely overcome the problem of
coordination of actuation and inhalation. Some children cannot generate the
inspiratory flows required to move the valve of the valved spacers. In such
children a valved spacer may be used with the child lying down and the spacer
vertical so that the valve lies in the open position or alternatively a non-valved
spacer may be used. Polyamide spacers are stated to have lesser electrostatic
charge lining the inside of the chamber thus making more aerosol available for
Spacers should be cleaned monthly rather than weekly as per manufacturers
recommendations or performance is adversely affected. They should be washed
in soap water solution and allowed to dry in air. The mouthpiece should be wiped
clean of detergent before use. Spacers should be replaced yearly for optimum
Commercially designed spacers give assured drug delivery, though preliminary
data on home made spacers (mineral water bottles) is encouraging. Such home
made devices may be considered if cost is a barrier to initiating inhaled therapy.
DPI: By the age of 7-8 years, the child can usually be trained to generate
appropriate inspiratory flow (30 - 60 L/min) which is required for optimal drug
delivery using a DPI. Lower or higher rates leac to either oral or pharyngeal
deposition. During acute exacerbations, the patient may not be able tc generate
flows within the specified range. Thus, in this setting the use of DPIs may lead t(
Nebulizer: The purchase of a nebulizer for home use is not routinely
recommended. MDI and DP ensure adequate drug delivery and are significantly
cheaper and more convenient for daily prevente therapy. MDIs control the size of
droplets of aerosol better than nebulizers and rapidly deliver a measure amount
of medication. Even in management of acute episodes at home, the use of MDI
with spact and mask has been found to give results comparable to a nebulizer.
Nebulizers, however, do find plac for management of acute episodes in
emergency room / inpatient settings, since,
• In acute severe episodes inability to generate optimal inspiratory flows
and reduced tidal volumes may result in unreliable delivery. The
nebulizer delivers the drug over a longer perk and overcomes the
problems of reduced delivery per breath.
• Mixing of drugs e.g. short acting beta2 agonist (SA β2 agonist) with
anticholinergic nebulize solutions is possible.
Initiating inhaled therapy Select the appropriate device For preventer For acute episodes The advent of regimens Hospital inhaled therapy 9daily use) will be known as the most important milestone in the history of asthma management When it comes to inhaled therapy in asthma, children are not therapeutic orphans. New drugs and novel devices help children reap rich
*Spacer devices are inhaler aids used as accessories to benefits
MDIs. In smaller children who are unable to understand or co-operative, a facemask can be attached to the mouthpiece of the spacer. Commercially available spacers
differ in size 9small volume large volume), design (valved/non-valved) and the material used (polyamide / polycarbonate). For practical purposes drug delivery
through any of these is comparable. Home made spacer may provide an option.
Highlight advantages of the inhaled route to the parents 'Smaller dose': Contrast the milligram (mg) concentration of syrups and tablets with the microgram (nicy) concentration of the same drug in the inhaled form. 'Target delivery' - 'Quicker action': Drug is delivered
directly to the site of action. Reliever drugs, therefore, act The metered dose inhaler with a spacer is the 'Safer': Smaller dose and thus, much better safety profile most versatile device. It can be
than with oral therapy. :This is particularly relevant for used through all steroids. ages, for all the preventer Clear misconceptions that parents may harbour regimes arid for
Is inhaled therapy addictive.' Emphasize that addiction managemaU of liability is a property of the drug rather than device / route. acute episodes
Illustrate with an example that alcohol, though oral, is still
addictive. Reiterate that none of the asthma medications
Is inhaled therapy strong.' Discuss advantages of inhaled
treatment as above. Emphasize the microgram
Is inhaled therapy expensive.' The inhaler device is a one-
time purchase. Only drugs need to be purchased
subsequently. A few inhaled drugs may be slightly more
expensive than oral drugs on a per "dose basis hut, discuss
these in the context of the child's well being, safety and
Are inhalers easy enough for children to use? Discuss
device selected and the ease |of training required for
Instruct parents parents and the child (if possible)
regarding usage of the device (see appendix).
Alternative regimes
Alternative regimes such as cromones, leukotriene receptor antagonists,
and SR theophylline are lest effective than inhaled corticosteroids in mild
persistent asthma. Furthermore, alternative add-of therapies to inhaled
corticosteroids in moderate persistent asthma, which include leukotriene receptor
antagonists and SR theophylline, are less effective than inhaled LARA.
Oral regimes are not necessarily a cheaper option; the cost per day of oral
therapy being similar to regimes consisting of inhaled steroid alone. If initial
expense is a constraint, home made spacers ma be considered.
The' drugs in the various regimes Inhaled corticosteroids (steroids): Inhaled steroids are the most effective
preventer drugs and are hence the 'gold standard'. Beclomethasone
dipropionate(BDP), Budesonide(BUD), and Fluticasone propionate(FP) show
benefit within 2 to 3 weeks of starting therapy.
Low dose refers to usage of inhaled BDP or BUD at < 400 meg/day, medium
dose at 400-800 meg day and high dose > 800 meg/day. The corresponding
dose of FP is half of these. All comparison use CFC propelled BDP as a
reference. When used in equivalent doses the efficacy and advers effect profile
are practically similar. Though twice daily administration of ICS is recommended
having achieved control, one can administer them once daily.
Local adverse affects such as thrush and dysphonia (because of laryngeal
myopathy) are occasiona The smallest dose of ICS compatible with maintaining
disease control should be used. At highe doses, add on agents, for example
LABA, should be actively considered. Administration of IG at or above 400 meg
per day of BDP or equivalent should be followed up for systemic side effect such
as short-term growth suppression and adrenai suppression. Patients on high
dose therapy nee° monitoring of growth and periodic ophthalmic assessment. In
practice most patients require low to medium dose of ICS which are safe and
devoid of any adverse effects. All the three compound are also available as
nasal spray for managing allergic rhinitis.
Inhaled long acting β2 agonists (LAB As): Inhaled LABAs are the preferred add-
on drugs to ICS for treatment of moderate persistent asthma in children above 5
years of age. Salmeterol / formoterc act synergistically when combined with
inhaled steroids and have a steroid sparing role. They are not recommended for
use alone in preventer therapy. This class of drugs is particularly effective it
children with frequent nocturnal or exercise induced symptoms. For want of
children, package inserts advise their use beyond 4
years (salmeterol) or 5 years (formoterol) Potential for developing tolerance
Sodium Cromoglycate: Cromoglycate has limited effectiveness but a strong
safety profile it persistent asthma. It could be considered in treatment of mild
corticosteroids. The benefits of cromoglycate are usually evident about 3-4
weeks after starting the drug. Ideally, it should he used in 4 daily doses, but in
school goiii] children this is often not practical and 3 daily doses may be
Leukotriene receptor antagonists (LTRAs): Zafirlu least (for children = years)
and Montelukas (for children = 1 years), are alternative options, hut not preferred
therapy for treatment of milt persistent asthma. They also may be used with ICS
as add-on therapy in the treatment of moderan persistent asthma (preferred in
children < 5 years) and as an alternative to inhaled LABAs in childret >5 years.
Theophylline: This drug is no longer recognized as a reliever. Ir possesses anti-
inflammatory am immunomodulator properties and is recommended as an
adjunct to inhaled steroids. These effect are seen at serum levels of 5-15
mcg/ml. Syrup formulations have a short duration of action am are, therefore, not
suited for preventer therapy. Sustained release formulations are available, but
thei dosage forms may be suited only for older children.
Oral corticosteroids: If needed, prednisolone may be administered as a single
morning dose ir order to prevent compromise of the hypothalamic-pituitary axis.
The morning dose is convemen for school going children and working parents.
Selecting the optimal preventer regime Starting therapy:
Assess grade of severity of asthma. Start the regime
appropriate to the grade assessed and titrate upwards if First choice Other options Medium to high dose persistent inhaled steroid + LABA If needed Add oral steroid Medication Low dose inhaled Low / medium dose plans must persistent steroid + LABA* or steroid + Leukotriene accomodate Medium dose inhaled receptor antagonist/SR steroids** theophylline* the fact that If recurring severe asthma is both exacerbatiosn Medium dose inhaled a chronic and steroid + LABA* a dynamic Low dose inhaled Cromolyn, LTRA, SR condition persistent theopylline* (Listed alphabetically) No daily medication intermittent
*** Evidence to date does not support using a third long-term control medication added to inhaled corticosteroids and long-acting inhaled β2 - agonists in order to avoid using systemic corticosteroid therapy.
Note: - At every grade of severity, acute episodes should be
managed with reliever drugs as discussed on page 18.
- If a trial of an add-on treatment is ineffective, stop the drug
(or in case of increased inhaled steroid, reduce to the original
Onwards:
If goals of treatment achieved i.e. good control - step down
If goals of treatment not achieved i.e. poor control - step up
treatment if required, as discussed on page l5.
Animal dander may persist for a few months after the pet is given away.
Therefore improvement in asthma may not be immediately evident.
Weather and temperature changes
In general, most acute episodes of asthma are reported in the winter and the
Aspirin sensitivity
Aspirin and NSAIDs are not contraindicated in all children with asthma. The triac
syndrome is very rare below 8 years of age and may pose an occasional problem
in the adolescent. Onset of symptoms ranges from 30 minutes to 2 ho\irs after
drug ingestion am is not IgE mediated. There may be accompanying nasal,
ocular, dermal or gastrointestina manifestations.
The role of diet in the precipitation of asthma symptoms is over-emphasized in
our setting While nuts, eggs, chocolates, sea food and certain preservatives are
the commoner foot; allergens, providing a general avoid list of food items to all
Suspect food allergy only if :
• Symptoms are recurrent, invariable and occuring rapidly after ingestion of
• Ingestion often leads to perioral rash and/or gastrointestinal symptoms in
• Sudden severe life threatening episodes occur without prior warning.
• A child has severe / poorly controlled asthma where other trigger factors have
Confirm by avoidance and challenge, if necessary and feasible, with full
Dealing with triggers / precipitants Inhaled allergens/ Advise avoidance and / or special actions irritants and viral infections are the most important triggers Concurrent medical conditions Allergic rhinitis: This is suspected in a child with afebrile episodes of
rhinorrhoea, sneezing, stuffiness of nose, features of upper airway obstruction
and nocturnal cough (postnasal drip). Examination reveals nasal mucosal
edema, hyperemia, clear nasal discharge, post-nasal drip, 'cobblestone'
pharyngeal wall, horizontal creases under the eyes(Dennie Morgan lines),
bluish/dark discoloration under the eyes(allergic shiners) and a transverse crease
The dosage of nasal steroid spray should be added to that of inhaled
steroid in order to compute the total dose of steroid therapy.
Newer antihistaminics lack anticholinergic and sedative properties and are
safe and less troublesome to use in children with allergic rhinitis or eczema
accompanying asthma. There is no role for continuing them as therapy in asthma
Seasonal asthma
A few children experience asthma symptoms only in relation to certain
pollens, spores or molds. The time of the year (harvesting or flowering season)
Children with asthma are at risk for complications during and after surgery.
Acute bronchoconstriction may be triggered by intubation, impaired cough reflex,
atelectasis or respiratory infections. The likelihood of these complications
depends upon the severity of the bronchial hyperresponsiveness, mucous
Addressing special situations Concurrent medical conditions
• Allergic rhinitis / • Intranasal steroid sprays:
Asthma and allergic rhinitis frequently co- exist-the concept of one airway, one disease
• Avoid oral bronchodilators / Perioperative
• For those who have received steroids may be needed in this risk situation
months, intravenous hydrocortisone must be given 8
hourly on the day of surgery reducing the dose within 24 hours
Exercise induced asthma (E1A)
In some children, EIA may be the only manifestation of asthma, while in most
patients it is an expression of poorly controlled asthma and in them, preventer
Non-pharmacological advice: Teaching the child the correct breathing technique
and avoiding exercise on cold mornings, ensure that warm air reaches the lungs.
Each individual has a threshold of activity above which EIA may occur. Initial
exercise below that threshold (warming up) induces a latent period of about 1
hour during which span heavier exercise does not provoke symptoms.
Pharmacological advice: Optimal anti-inflammatory preventer medications will
reduce airway responsiveness and consequently the occurence of EIA.
SA β 2 agonist: They are good for those who exercise infrequently or when the
exercise is planned. Tachyphylaxis is observed and therefore, these agents are
not .advisable if exercise is repeated throughout the day or over many days.
Inhaled LA β 2 agonist: They may be added in a child on a preventer regime of
inhaled steroid whose exercise induced symptoms are persistent. Administration,
of short acting inhaled agents before exercise at school is not always practical in
our setting and use of LA P2 agonist with preventer regime is preferred. They
may also be used in exercise induced asthma, especially if the time of exercise is
not predictable or in children who take part in frequent sporting activities.
Formoterol may be considered if exercise is expected early in the day owing to
its rapid onset of action. With sustained usage of salmeterol (> 1 month duration),
the protective effect of each dose may reduce to 6-9 hours after administration.
LTRAs: They are useful whenever the exercise is too frequent or unpredictable
or when exercise induced asthma exists in an otherwise well controlled child with
mild asthma. Montelukast, in particular, is a long acting once daily drug and
covers for the whole day. It can be used above the age of 1 year making it a
preferred option in children below 5 years. Unlike with LA p2 agonist, patients do
not exhibit tolerance to the protective effect of LTRA.
Addressing special situations Situation
Exercise induced Non-pharmacological advice:
• For those not initiated to a particular game,
Exercise is the
Avoidance of outdoor exercise on winter mornings
only trigger the child must be trained to conquer and not avoid
• Advise a short period of warming up within
• Notify teacher / coach about child's
condition and advise the need for inhaled medication prior to activity
Pharmacological advice : For prevention
• Grade severity of asthma and institute
If EIA persists, select additional options from below:
Exercise induced asthma should not limit either participation or success in sport
effect observed 2-3 hours after salmeterol and within 1 hour after formoterol dose, lasting for 10-12 hours.
Leukotriene receptor antagonists (LTRAs)
(children 1-4 years), 5mg OD (children 5-12 years) or 10 mg OD (children > 12 years)
For treatment
If exercise induces symptoms, treat with inhaled SA J32 agonists
Monitoring weight and height
Untreated / Poorly controlled asthma is an important cause of failure to
thrive. Once appropriate treatment is instituted, increase in growth velocity is
noted. Growth velocity monitoring is also very important in children on high dose
inhaled steroid / continuous oral steroid regimes. Such children also need
periodic ophthalmic assessment for development of posterior subcapsular
Adverse effects of theophylline
Serum theophylline levels need to be monitored in case of symptoms and
• Concomitant administration of macrolides, fluoroquinolones, anticonvulsant or
Stepping down therapy
Reduction in therapy should be gradual because asthma can deteriorate
at a highly variable rate and intensity.
Brittle asthma
Brittle asthma is characterized by sudden and unpredictable fall in lung
function, often with no evident triggers. The suddenness of the attacks suggests
a neurogenic origin. Since some children are poor perceivers of initial
bronchospasm and since the condition is labile, continuous long term peak
expiratory flow monitoring is recommended. Inhaled bronchodilators, rather than
rescue steroids, form the mainstay of therapy. Mechanical ventilation may be
Asthma in remission
A child with a past history consistent with persistent asthma who has
neither had symptoms of airflow obstruction nor taken therapy for the past 12
Follow up
• Call for first follow up at 1-2 weeks after initiating therapy and
subsequent follow up 2-8 weekly-Review regime prescribed and diary of events since the past visit. Enquire specifically regarding bronchodilator usage, school absenteeism, limitation of activity and sleep disturbance.
• Assess if symptoms and signs of asthma are present at the
time of visit and monitor weight and height.
• Check for adverse effects (relevant especially, if on oral drugs
Re-emphasize the need for continued compliance and clarify
any doubts regarding asthma and its management {page 7). In most cases, Assess whether goals of treatment (page 6) have been follow up is achieved. essentially clinical Goals of treatment
• At 3-6 months, good control continues
principle "Last in - First out" In the
• Step down to the regime suitable for a
Risk factors for persisting into
inhaled steroid (grade 2 regime) for 3-6
adulthood 2 out of 3 children with asthma outgrow
• Onset after the symptoms
• Follow up 3-6 monthly for a period of 1-
resumption of preventer regime if recurrences
Clinic situations:
Recurrence of symptoms and signs of airflow obstruction during follow-up – Assess as mentioned under poor control. Beware the brittle asthmatic.
Irregular follow up - Assess grade of severity on presentation, prescribe appropriate preventer regime and reiterate need for compliance and follow up.
Peak expiratory flow (PEF)
In well-controlled children with mild-moderate asthma, routine PEF monitoring is
not necessary. Introduction of the concept not only adds to the number of inputs
that the parents have to imbibe initially and but also increases the initial cost.
The best time to introduce the concept of PEF monitoring is after an acute
episode in response to the question, "How do I know an attack is coming ?" or
"How do I judge the severity of an attack at home ?".
All currently available peak flow meters are comparable. Low reading peak flow
meters (those calibrated for a lower range of peak flow) are suited for pediatric
The norms for different child populations have not been standardized. It is
inappropriate to use 'normals' in the charts supplied with the-devices, since they
Ascertain what the normal value for the child is by observin; the child's 'personal
best'. This may be done by asking the parents / child to record 8 a.m. and 8 p.m.
readings over 7-14 days when the child is asymptomatic. Recheck instrument
efficacy and personal best periodically. Readjust personal best values upwards
on a yearly basis to account for growth. Parental supervision of recordings is
highly desirable because the measurement of PEF is dependent on effort and
technique. Patients need instructions, demonstrations and frequent reviews of
technique. The procedure is effort dependent - beware a malingering adolescent
and ignore a reading when the child has coughed into the device.
Caution:
• PEF monitoring during acute episodes may worsen the symptoms by leading
to collapse of peripheral airways during forced expiration.
• In long term daily monitoring, compliance may be an issue to deal with.
Usage of the device is described in the appendix.
Spirometry
Spirometry is most helpful to ensure that an apparently well-controlled
child has normal lung function. A persistent bronchodilator response in an
asymptomatic child is an indicator that preventer therapy should not be reduced.
Place of investigations in follow up PEF and spirometry may help to follow up older children in select situations
assessment of severity for patients with poor perception of airflow obstruction e.g. britde asthmatics
Correctable issues : Reasons for non-adherence : Medication – related factors Patient – related factors
• Misunderstanding the need for • Denial for diagnosis
• Difficulties in delivering inhaled • Cultural issues (traditions/ beliefs)
Reasons for poor drug delivery – the 3 D’s : Delivery
• Incorrect dosing e.g. • Inappropriate device • MDI used directly with
• Spacer prescribed, • Mask not apposed to
• MDI attached directly • Inability to distract
because of humidity • Inability to generate
Short course steroid
A temporary increase in anti-inflammatory therapy using oral steroids may
be indicated to re-establish control. However, one should resist overuse of oral
steroid as an alternative to daily inhaled preventers.
Stepping up closes / grades
While stepping up, first step up in the same grade towards the higher
range of doses and after this has been achieved, consider stepping up to a
higher grade of preventer regime. At each step, give sufficient time for action of
Dealing with poor asthma control
A deterioration of asthma may be characterized by
reduction in PEF, by failure of inhaled bronchodilators to
produce a sustained response, by a reduced tolerance to exercise or activity or by the development of increasing
nocturnal symptoms. In case of poor response to
preventer treatment, the following steps are needed.
Rule out alternative diagnosis
Review the history, clinical features and investigations as Usually, 'difficult' asthma has easy solutions Identify correctable issues
Adherence: Ascertain adherence with prescribed
preventer regime. This may be done by questioning the
parents or by comparing the prescribed dose count over a
period of time with the number of canisters of inhalers
used. Drug delivery: Ask the parent / patient to
demonstrate the technique of usage of the inhaler device
Trigger elimination: Review the list of triggers. A detailed
description of the child's environment may uncover a less
Concurrent medical conditions
Reassess the child for concurrent medical conditions viz.
allergic rhinitis or gastroesophageal reflux that may be
Consider short course steroid
To regain control, a short course of oral prednisolone (1-2
mg / kg / day, maximum 60 mg / day, for 3-10 days) is
often effective. \{ asthma symptoms do not recur and PEF
remains normal, no additional therapy is necessary.
However, if the prednisolone burst does not control
symptoms, is effective only for a short period of time (less
than 1-2 weeks) or needs to be repeated frequently,
Step up preventer dose regime after objective monitoring
In children with poor control, an objective assessment of
daily trends in peak flow is desirable. Besides comparing
with personal best values> diurnal variations need to be
studied (page 4). Suitable changes in preventer regime
Specialist referral
If poor control still persists, repeat steps described above
and consider specialist referral and infrequently needed
treatment options e.g. methotrexate, immunotherapy
(page 16). Consider complications of asthma such as
allergic bronchopulmonary aspergillosis or bronchiectasis.
Immunotherapy
The course of allergen immunotherapy is typically of 3-5 years duration.
Reactions to immunotherapy, especially bronchoconstriction are more frequent
among patients with poorly controlled asthma compared to those with other
atopic conditions such as allergic rhinitis. It is, therefore, important to have the
asthma relatively stable when starting immunotherapy.
Immunomodulators
Immunomoduiator drugs that reduce oral systemic steroid dependence should be
used only in selected patients who. are under the supervision of an asthma
specialist. Although, some of the compounds have steroid sparing effects, their
use in asthma remains complicated because of highly variable effects, potential
toxicity and limited clinical experience. The drugs tried include troleandomycin,
cyclosporine, methotrexate, gold, intravenous immunoglobulin, dapsone and
Complementary medicine
A review of multiple trials on the use of acupuncture in asthma concluded that
they lacked quality and that the effectiveness of acupuncture in treating
asthma has not been established. One trial, however, demonstrated benefit in
EIA. Homeopathy, based on the "law of similars" and the use of infinitesimatly
small doses is as yet unproven for asthma. No controlled clinical trials have been
reported on herbal medicines and the claims of effectiveness of western plant
derivatives for asthma remain unsubstantiated.
Efficacy of 'Asmaron', an ayurvedic drug developed by CSIR is yet to be
substantiated by scientific trials in children.
Other treatment modalities Immunotherapy Immunotherapy and immuno- Usage: As an adjunct to preventer therapy. modtilator drugs have Indications: definite evidence of
• Poorly controlled asthmatics on maximal benefit but find use in a very
preventer therapy in whom allergy testing small select shows sensitivity to one or at the most two group
unavoidable indoor allergens e.g. dust mite.
Prerequisites:
• Only in a hospital setting with full resuscitative
• Asthma is relatively stable at the time of
• Relatively early in the natural history of the
disease before irreversible changes have occured. Immunosuppresive drugs Methotrexate and gold salts have the best evidence for There is some positive effects. preliminary evidence of the Usage: • As an adjunct to preventer therapy. adjunctive role of yoga and Indications: acupuncture
• Poorly controlled asthmatics on optimal
preventer therapy with good compliance and
elimination of triggers or in whom side effects of Prerequisites: Other modalities Ketotifen: This oral mast-cell stabilizer has been used as a
preventer drug. Its role in asthma is not well defined.
Yoga: Some qualitative research performed without including control grouops has shown beneficial effect. It may be used as a supplement to pharmacotherapy. Acupuncture: Results of published trials examining long-
term benefit are conflicting. Acupuncture has been
demonstrated to have a mild bonchodilator effect superior to No data exists to support other
'placebo' and 'no treatment' when measuring its effect on forms of methacholine induced bronchoconstriction. Lack of scientific complementary medicine
evidence and experience prevents mention or discussion of
other modalities such as homeopathy, ayurveda, fish therapy,
Assessment of severity of an acute episode
Assess for presence of 'Red flag' signs which suggest threat
• Altered sensoriurn (drowsy or very agitated)
Assessment is clinical and has
Excessive use of accessory muscles or state of
exhaustion (vocalization limited to 1-2 words)
to be quick
ABG: rate of rise of pC02>5mm Hg/hr, pCO2>40
mm Hg, pO2<60 mm Hg, metabolic acidosis (-
If Red flag signs are absent, grade seventy of exacerbation as below : Respiratory rate Wheezing present* Accessory muscle usage <6 yrs > 6 yrs < 30 < 20 No apparent activity 31-45 21-35 Terminal expiration with Questionable stethoscope increase 46-60 36-50 Entire expiration with Increase stethoscope apparent > 60 >50 During inspiration and Maximum expiration without activity stethoscope * If wheezing absent (due to minimal air flow), score > 3 4-6 Moderate > 6 severe Ascertain the following information:
• Medications the child is already using as The decision making involves two parts; how to
Reliever medications taken before reporting to treat and where to treat Identify risk factors for acute severe asthma:
• Prior intensive care admission / mechanical
• Poor compliance with preventer therapy
• Rapid onset and progress-of symptoms
• Frequent visits to doctor in preceding few days
• Visit to emergency room in past 48 hours
• Economic and logistic constraints to healthcare
Hypoxia is due to ventilation-perfusion mismatch. SA P; agonists may increase
the mismatch by attenuating the hypoxic pulmonary vasoconstriction. Hence,
oxygen must always be administered along with nebuteed SA P: agonists.
Oxygen saturation must be maintained > 91%.
Hydration
The child may need more than maintenance fluids initially due to increased
insensible Josses. Fluids are also required to make secretions less viscous. The
amount required reduces when the patient is ventilated. SIADH must be
anticipated, especially if the patient is on positive pressure ventilation.
Drugs used in management
Short-acting β2 agonists (SA β2, agonists): SaJbutamoi and terbutaline are
similar in their efficacy, actions, kinetics and adverse effects. An isomer of
salbutamol (Laevalbuterol), which is now available in the Indian market, is
equipotent to salbutamol at half the dose but there is no added advantage as far
as side effects or efficacy are concerned. While inhalation is the method of
choice, oral alternatives may be justified in children whose symptoms are mild
and infrequent. High dose /frequent nebulization with β2 agonists may result in
hypokalemia. This has been postulated as a cause of the occurrence of
arrhythmia and sudden death. Long-acting β2 agonists have no role in the
management of acute episodes. If a child is on a preventer containing this class
of drugs, there is an additional need for SA β2 agonists for relief from acute
Rescue steroid: Advent of this regime of steroid usage has drastically reduced
morbidity and hospitalization in children with acute exacerbations. Steroid
therapy directly reduces inflammation and also induces expression of β2 agonist
receptors. Rescue steroids take about 6-8 hours to document an effect,
irrespective of route of administration and in situations assessed to be moderate
to severe, it is justified to initiate usage early. Underuse of steroids has been
incriminated in fatal cases. Oral prednisolone is the best option. Rescue therapy
used for 3-7 days has no contraindications and adverse effects with such usage
are insignificant. No tapering of dose is necessary. Parenteral steroids do not
confer any advantage in an outpatient setting but may be used in hospitalized
children who are severely distressed, drowsy or unable to retain oral medication.
High dose inhaled steroids are under trial for their role as rescue agents and
some studies have reported encouraging results.
Ipratropium bromide: Inhaled ipratropium may add to the bronchodilator
benefits seen with inhaled p, agonists but is less effective when used alone.
Usage may be limited to 24-48 hours to minimize incidence of atropine-like side-
Aminophylline: Aminophylline still finds place in the management of acute
severe episodes in a ward / JCU setting. Improved diaphragm contractility and
mucociliary clearance may be beneficial effects. The risk for adverse effects is
high, especially in those who are on long acting theophylline as a preventer drug
and a loading dose must be avoided in such patients. A calculated intravenous
drip rather than a bolus dose is a safer option.
Practices not routinely followed Antibiotics: Antibiotics are not routinely required since bacterial infections
seldom trigger asthma . Consider antibiotics only in those who do not improve in
response to bronchodilators, have purulent secretions or have radiological
Mucolytics: These may dislodge thick secretions and increase airflow- Sedatives: This group of drugs may depress the respiratory drive, suppress the
cough reflex and mask the vita! sign of deterioration of sensorium.
Chest physiotherapy: This is not routinely indicated. It may actually add to the
child's discomfort. If there is evidence of collapse (invariably due to a mucous
plug), gentle cupping and vibration with the palm of the hand is helpful.
Formulations available Short acting β2 agonists Salbutamol
2-4 puffs as needed. May be repeated thrice at 20 min interval and then 1-4 hourly as needed
DPI Rotcap 200 1-2 Rotacapas as needed. May be repeated thrice mcg/dose
at 20 min intervals and then 1-4 hourly if needed.
Neb respirator 0.15 mg/kg, minimum 0.25ml < 6 months age, 0.5 solution 5 mg/ml
ml > 6 months age, 0.5-1 ml older children.
For continuous nebulization 10mg/10 ml saline via jet nebulizer
Use equivalent doses as respirator solution
Laevalbuterol Terbutaline
Neb respirator 2-5 mg diluted and nebulized solution 10mg/ml
0.075 mg/kg/dose may be repeated thrice at 20min intervals.
Bolus 5-10 mcg/kg over 10 minutes followed by 2-10 mcg/kg/hour iv (1ml terbutaline + 50ml 5% dextrose, thus, 1 ml = 10 mcg terbutaline)
Non-selective β2 agonists Adrenaline RELIEVERS : Possible adverse Comments
• Nebulizer solution of salbutamol is compatible
with nebulizer solution of sodium cromoglycate
• Subcutaneous terbutaline is not recommended
• IV terbutaline drip necessitates continuous heart
rte and ECG monitoring. If heart rate >180/min or
if ECG changes develop, havle the drip rate.
• Discontinue nebulized β2 agonist if using high
• Dose of iv terbutaline is to be halved if
concurrently used with theophylline drip.
• Since dry powder devices require an optimal
inspiratory flow rate they may not be suited to
manage acute episodes. May be used for mild
• Non selective β2 agents such as isoproterenol
and adrenaline are used infrequently because of
• May be used when inhaled therapy is not feasible
or as an adjunct to inhaled therapy in very severe
Formulations available in India Anticholinergics Ipratropium
thrice at 20 mins interval and then 6-8 hourly as needed.
0.5 ml < 1 year, 1 ml > 1 year every 20
Neb respule 0.5mg/2ml Use equivalent doses as respirator
Corticosteorids Predinoslone Hydrocortisone Methylxanthines Aminophylline
0.5-1 mg/kg/hr continuous infusion in 5% dextrose.
Other drugs Magnesium
25-50 mg/kg in normal saline infused over
sulphate Possible adverse effects Comments
Dryness of mouth, increased • Slower onset of than β2 agonists but may wheezing in some, blurred
• Alternative in children in bronchospasm due
Seldom any with short term Rescue therapy or burst therapy : use.
• Short-term therapy should continue till
glucose metabolism, fluid • Tapering is not necessary.
retention, mood alteration may be observed.
• Inhaled steroids are not yet proven effective
Consideration should be given to co-existing conditions such • Injectable steroids do not confer quicker
episodes or when the child is likely to vomit
• Aminophylline is superfluous for routine
treatment of acute exacerbations in patients receiving optimal j32 agonists and steroids. Use justified only in children with respiratory failure since studies for efficacy have excluded such patients for ethical reasons. Improvement of mucociliary clearance and diaphragm contractility may be important mechanisms in this setting.
• Theophylline mg/kg = aminophylline mg/kg x
Tachycardia, hypotension, • Calcium channel modulation by this drug muscle weakness
results in decreased histamine and acetyl-choline release.
Formulations available in Mast cell stabilizers cromoglycate corticosteroids Beclomethasone MDI 50,100,200, 250 mcg/dose 50-400 mcg twice a day dipropionate Budesonide
Maintenance dose : 0.25 – 0.5 mg twice a day
Fluticasone propionate Leukotriene receptor antagonists Montelukast Possible adverse effects Comments
Hardly any. Medicinal taste and • 4 times daily regime is difficult to implement. For reflex coughing are minimized by
practical purposes three times daily regime may
• A dose half hour prior to exercise provides
protection from EIA for about 4-6 hours.
Cough, dysphonia (laryngeal • Systemic effects of inhaled steroids may occur myopathy), oral thrush.
due to pulmonary absorption and intestinal
absorption of orally deposited drug. The newer
steroids-budesonide and fluticasone propionate
are almost completely inactivated by the liver
during first-pass metabolism and thus have
negligible systemic effects. Fluticasone is not
and budesonide have negligible • When using inhaled fluticasone propionate, the
beclomethasone dipropionate or budesonide by
may occur though studies are not conclusive. These effects include
adrenal suppression, growth • Growth monitoring is important if high doses are
• Injectable dexamethasone is not recommended
for inhalation since systemic absorption is considerable.
Comparable to placebo. • Bioavailability not affected by food intake. Uncommonly, may cause • Effect starts soon after initiation of therapy (1st
syn¬drome (eosinophilic vasculitis) has been documented on tapering oral steroids
Formulations available in India corticosteroids Long-acting β2 agonists Fluticasone (FP) + Almeterol (Sml)
Budesonide + Formoterol (Form) Methylxanthines Theophylline
Sustained-release anhydrous Getting started theophylline tab/cap 100 mg, 200 mg, > 1 year: (rule of 3's) 300 mg, 450 mg
Increments 3 mg/ kg Space the increments 3 days apart Monitor levels 3 days after any increment and then only periodically if poor control/ suspicion of adverse effects <1 year: 0.2 x age in weeks + 5 (gives the dose in mg/kg) Obese: Use average weight for height
corticosteroids Prednisolone Possible adverse effects Comments
Inhaled corticosteroids See • Combination of inhaled steroid with long acting previous page
(3, agonists has been shown to have a synergistic effect.
• Not to be used for treatment of acute symptoms.
• Potential for developing tolerance exists but
• significance is probably not relevant. • To be used with inhaled steroid therapy and not
• Literature recommends usage only .for children
Potential for serious toxicity at • Doses less than 12 mg/kg being used - serum level > 20 mcg/ml- Early
caffeine-like adverse effects are • Doses more than 28 mg/kg being used -
• Several drugs and clinical situations alter
theophylline kinetics (particular care to be taken
with macrolides, fluoroquinolones, antitubercular and anticonvulsant therapy).
• Introducing the drug gradually reduces incidence
Increased appetite, abnormalities • Significant side effects may occur with in glucose metabolism, fluid
retention, mood alteration, growth • Low doses for prolonged duration may
occasionally be required in severe steroid
co-existing conditions such as herpes, varicella or tuberculosis • Use minimum possible dose to control
symptoms. Single morning dose is convenient.
expensive and do not confer additional benefit.
Spacer / Volume holding chamber Ask the child / parent to:
Assemble the spacer, lining up the notch of one half with the slot of the
other half. Then, push the two parts firmly together.
Remove tbiL cap of the inhaler, shake the inhaler and insert it into one end
Place the mouthpiece of the spacer in the child's mouth. Seal the child's
lips around the mouthpiece by gently placing the finger of one hand
Encourage the child to breathe in and out slowly and gently. This will
make a 'clicking' sound as the valve opens and closes. Once the breathing
pattern is well established, depress the canister with the free hand and
leave the device in the same position as the child continues to breathe
(tidal breathing) 4 to 5 times. An older child may be taught to breathe in
deeply and pause after inspiration to a count of '5'.
Remove the device from the child's mouth.
If a second puff is required, wait for about one minute before repeating
For children below about three years, a face mask should be attached to
theYnouthpiece of the spacer and apposed closely to the face before
Cleaning the spacer:
Wash with a mild soap / detergent solution every month. Allow to drip dry.
Do not rinse or use a cloth to dry. This minimizes the static charge and thus,
reduces drug deposition on the spacer wall.
Metered Dose Inhaler Ask the child / parent to:
Remove the mouthpiece cover and shake the inhaler.
Place the mouthpiece of the inhaler in the mouth between the teeth and
seal lips around it taking care not to bite.
Start breathing in, slow and deep. Press the canister and continue to
Remove the inhaler from the mouth and hold the breath for about 10
Wait for at least one minute before taking another inhalation.
Parents must assist and supervise those children who need help in using
their MDl correctly. The MDl may be used without spacer only in older children.
Accuhaier Ask the child / parent to:
Slide the purple dust cover to open the device.
Hold the Accuhaier with the dose counter facing upward and the
Use the thumb to push the lever back till you hear a click.
Purse the lips around the mouthpiece and breathe in normally.
Close the device by sliding back the cover.
Parents must assist and supervise those children who need help in using
Rotahaler Ask the child / parent to:
Hold the Rotahaler vertically and insert a Rotacap, transparent end first,
into the small raised square hole of the Rotahaler. Make sure that the top
of the Rotacap is level with the top of the hole. (If the shell from previous
use is still lodged in the square hole, it will be pushed out when the fresh
Hold the mouthpiece and rotate the base. The fin separates the two
Instruct the child to breathe out gently. Let the child grip the mouthpiece
between the teeth (without biting) and seal his/her lips around it. Then, let
the child breathe in the powder slowly and deeply. (If the child is doing this
correctly, the Rotacap shell will make a low rattling sound inside the
Remove the Rotahaler from the child's mouth and ask him/her to hold the
breath for about 10 seconds. Parents must assist and supervise those
children who need help in using their Rotahaler correctly.
Nebulizer Prerequisites:
Optimal volume of solution in nebulizer chamber is 2 to 4 ml
Practical points on usage:
• Saline should be used as the diluent and not distilled water. This is because
hypo-osmolar solutions can lead to reflex bronchospasm. ^
• Delivery may be effected through a mouthpiece or mask, depending upon the
• If a mask is used, it should be held as close to the face as is comfortable for
the child. Any gap reduces drug delivery significantly.
Cleaning the nebulizer: After each treatment After each day
0. Disassemble the nebulizer 0. Disassemble the nebulizer
0. Rinse the tubing, medication cup, 0. Submerge the tubing, medication
cup and mouthpiece/mask in a mild liquid detergent and warm water for
air-dry between a folded paper towel. Avoid drying in dusty or 0. Using a small bristle brush, scrub all smoky areas.
parts to remove any sediment that may have accumulated.
Note : If the equipment is not likely to be used again for a few days, it should be
placed m a plastic bag with a twist tie and stored in a clean area.
* Acetic acid solution is made by mixing one pan white vinegar and three pans
water and should be freshly prepared every day.
Peak flow meter
There are several types o( peak flow meters available in the Indian
market. The steps for using a peak flow meter are similar for alt types.
Ask the parent to:
Fit the mouthpiece to the peak flow meter.
Ensure that the child stands up and holds the peak flow meter
horizontally without restricting movement of the pointer. Adjust the
Nose clips are unnecessary. Ask the child to breathe in deeply {as far as
possible) with the mouth wide open. Place the mouthpiece in the child's
mouth and seal his / her lips around it.
Ask the child to blow out as hard and fast as possible. The child should be
told to blow out vigourously, as if blowing out candles on his birthday cake.
In case the child coughs, disregard that reading. Make sure that the child's
tongue is not blocking the mouthpiece. Record the result.
Make the child repeat steps 2-4" thrice and record the highest of three
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O NASCIMENTO DO CIDADÃO DIFERENTE: PROGNÓSTICO OU JULGAMENTO Universidade de Santo Amaro - INTRODUÇÃO E OBJETIVOS O nascimento de bebês em condições que exigem a intervenção de profissionais da saúde são bastante comuns. No entanto, quando a condição, como no caso das anomalias congênitas, indica o desenvolvimento de deficiência, impedimento ou desvantage