Title: Training Module
1Training Module
2Why are we here today?
- Cough, breathlessness and wheezing are common
symptoms with which patients (adults as well as
children) present to physicians - The list of differential diagnosis for these
symptoms includes pulmonary diseases (like COPD,
asthma, bronchiectasis, tuberculosis and lung
cancer) and cardiac diseases (like ischemic heart
disease, left ventricular failure and valvular
heart disease) - The module is aimed at giving an overview of the
two most important etiological entities (asthma
and COPD) for these symptoms as well as their
management (diagnosis based on clinical
features/investigations and treatment based on
severity)
3Objectives
- At the end of training, the general practitioner
(GP) should be able to - Evaluate a patient presenting with symptoms of
cough, breathlessness and wheezing as well as
conduct relevant examination in order to diagnose
asthma/COPD clinically - Undertake and interpret relevant investigations
peak expiratory flow (PEF) measurement,
spirometry and chest x-ray (if available) to
confirm the presence of airflow obstruction and
to rule out other diagnoses (TB,bronchiectasis
etc.)
4Objectives
- Differentiate the two main causes of airflow
obstruction (asthma and COPD) - Clinically assess the severity of airflow
obstruction - Recognize cases (of asthma and COPD) in whom
referral to specialist or higher centre is
required - Manage and monitor cases (of asthma and COPD)
according to severity - Recognize long term complications like
respiratory failure and cor pulmonale
5Illustrative Cases
6Case 1
- Mohan, a 15 year old boy presents with
- History of episodes of breathlessness, dry cough
and wheeze for the past 3 years - These symptoms usually occur early in the morning
and are worsened with change of season - These also become more severe while playing
cricket with his friends - He also has history of repeated episodes of
sneezing, itchy eyes and clear discharge from the
nose - His mother had a history of similar symptoms when
she was his age
7Case 1
- On physical examination
- Mohan is comfortable while he is being examined
- Vital signs afebrile, respiratory rate (RR)
17/min, heart rate (HR) 82/min, blood pressure
(BP) 118/76 mmHg - GPE- no cyanosis, finger clubbing or stridor is
evident - Chest examination - no hyperinflation, use of
accessory muscles or chest wall retractions.
Auscultation - prolonged expiratory phase along
with diffuse inspiratory and expiratory rhonchi
8Case 1
- What is your provisional diagnosis?
Asthma with allergic rhinitis
9Case 1
- How was the diagnosis of asthma made clinically?
The patient has typical symptoms of asthma
10Asthma
- Symptoms
- The four basic respiratory symptoms generally
associated with asthma are - Breathlessness (dyspnea)
- Wheezing (or noisy breathing)
- Cough
- Chest tightness
11Asthma
- Symptoms
- A patient may present with a variable combination
of one or more symptoms or in between episodes
may be entirely asymptomatic - Symptoms typically tend to be variable,
intermittent and recurrent - Presence of these symptoms in particular during
night or early morning generally indicates the
presence of asthma - These symptoms also tend to worsen after exposure
to nonspecific triggers
12Asthma
- Physical signs
- Examination of the chest is normal if patient
presents during an asymptomatic phase of his
illness - Examination of the skin and upper respiratory
tract can provide useful information on the
atopic status - Hyper-inflated chest may be seen in patients with
long standing disease
13Asthma
- Physical signs
- On auscultation, rhonchi (bilateral, diffuse,
polyphonic, predominantly expiratory) are
prominent - Tachypnea, tachycardia and use of accessory
muscles of respiration suggest severe
exacerbation - Presence of cyanosis and a silent chest
indicate life threatening exacerbation
14Asthma
- Points to remember
- Asthma is largely a clinical diagnosis a
detailed history and careful physical examination
is essential to make a correct clinical diagnosis
of asthma in most instances - Investigations are generally required only if the
diagnosis of asthma is in doubt or other
conditions are suspected to complicate asthma
(this generally implies a referral to a secondary
health care level)
15Case 1
- How will you investigate the patient further?
At this point of time, treatment may be initiated
without any further investigations since asthma
is a clinical diagnosis. However, if there is a
doubt about the diagnosis, or presence of an
alternative diagnosis or complication, the
patient should be referred for investigations
and confirmation of diagnosis.
16Investigations
- SPUTUM FOR ACID-FAST BACILLI to exclude
tuberculosis if the patient has persistent cough
and expectoration for gt 3 weeks - SPIROMETRY
- It is not mandatory but should be performed if
the clinical data is confusing - It provides an objective measurement of the
presence and severity of airflow
obstruction/limitation - Demonstration of bronchodilator reversibility is
helpful in making a more confident diagnosis of
asthma and excluding COPD
17Investigations
- PEF
- Although not very accurate, Peak Expiratory Flow
(PEF) measurements may be used as supportive
evidence in the absence of spirometry - CHEST RADIOGRAPH
- To exclude bronchiectasis, lung cancer and
interstitial lung diseases - HEMOGRAM
- If there is a possibility of anemia as the cause
for dyspnea - ELECTROCARDIOGRAM
- For the diagnosis of cardiac disorders like
congestive heart failure that often mimic asthma
18Case 2
- Ram Lal, a 53 year old farmer presents with
- History of chronic cough and 15-20 ml of clear
sputum daily for the past 8 years - History of increasing breathlessness for 3 years
that was initially on climbing stairs but
gradually worsened with time and now he can
barely walk to his fields half a kilometer away - He denies any acute changes in either his
breathing or the cough and sputum production and
also denies presence of chest pain, hemoptysis or
wheezing - He smoked one pack of bidis/day for 30 years but
quit smoking 3 months ago because of dyspnea - He takes no medications regularly
19Case 2
- On Physical Examination
- Ram Lal is a thin man who appears older than his
stated age - He is conscious and alert
- Vital signs - afebrile, RR 22/min, HR 110/min, BP
140/90 mmHg - His chest is barrel shaped (increased
antero-posterior diameter) with hyper-resonant
note, decreased intensity of breath sounds and
crackles in bases - Rest of the physical examination is unremarkable
20Case 2
- What is your provisional diagnosis?
COPD
21Case 2
- How was the diagnosis suspected clinically?
The patient has symptoms and signs suggestive of
COPD
22COPD
- Symptoms
- The important respiratory symptoms generally
associated with COPD are - Chronic cough which may be intermittent or
present throughout the day - Chronic sputum production sputum can be mucoid
or mucopurulent and is present on most days for
at least 3 months in a year for 2 consecutive
years -
- Both cough and sputum production are
characteristically more in the early morning
23COPD
- Symptoms
- Breathlessness may not be present initially,
tends to progress with time worse on exercise
and during acute exacerbations - Physical Signs
- Rarely diagnostic and often not present until
significant impairment of lung function has
occurred - Certain findings on clinical examination point
towards the diagnosis of COPD
24COPD
- Physical signs
- Pursed lip breathing, use of accessory
respiratory muscles, indrawing of lower
intercostal spaces - Features of hyperinflation - increased
antero-posterior diameter and hyper-resonant
percussion - Uniformly diminished intensity of breath sounds
with a prolonged expiratory phase, fine
inspiratory crepitations, rhonchi (relatively
less pronounced as compared to asthma)
25Case 2
- What are the investigations that you should order
to confirm the diagnosis?
At this point of time, Ram Lal should undergo
sputum testing for AFB (at the nearest DOTS
centre to rule out tuberculosis) and if
negative, should be initiated on treatment for
COPD
26COPD
- Diagnosis
- Investigations are generally required in patients
with suspected COPD for - Confirmation of diagnosis of COPD
- Exclusion of alternate diagnosis
- Assessment of severity
- Diagnosis of complications
27Investigations
- SPUTUM FOR ACID-FAST BACILLI
- to exclude tuberculosis
- SPIROMETRY
- Gold standard for confirmation staging of COPD
- Bronchodilator reversibility is useful to rule
out a diagnosis of asthma and establish patients
best attainable lung function - PEF
- may be used for diagnosing airflow limitation
(and testing bronchodilator reversibility) when
spirometry is not available
28Investigations
- CHEST RADIOGRAPH
- to exclude alternate diagnosis (bronchiectasis,
lung cancer etc) detect complications such as
cor pulmonale, pneumothorax or pneumonia - HEMOGRAM
- ELECTROCARDIOGRAM
- useful in diagnosing cardiac disorders as well as
detecting complications of COPD (like cor
pulmonale)
29(No Transcript)
30Case 3
- Rani, a 26 year old lady presents with
- History of breathlessness, wheezing and cough
with minimal mucoid expectoration since the age
of 12 years - Initially these symptoms were episodic, usually
occurring with change of season but with time,
symptoms have became more severe and episodicity
has been lost and now she has persistent symptoms
throughout the year - Her husband is a chronic smoker who smokes around
10 bidis per day - She cooks food by burning dried wood and dung
31Case 3
- She has been treated by several physicians in the
past and has been prescribed different drugs
including oral salbutamol, oral prednisolone and
inhaled salbutamol - Presently, her symptoms interrupt her sleep 3-4
times per week and even during the day, she is
unable to carry out her day to day activities - Spirometry done outside shows moderate
obstruction and significant bronchodilator
reversibility
32Case 3
- What is the diagnosis (COPD or asthma)?
- What is the severity of the patients disease?
Rani has asthma - based on her symptoms and
reversible airflow obstruction on spirometry,
her asthma is of moderate severity
33Asthma Severity Classification
34Case 3
- What are the goals that are to be kept in mind
while managing Ranis asthma?
35Asthma
- Management Includes the following goals
- Achieve and maintain control of symptoms
- Minimal (ideally no) chronic symptoms, including
nocturnal symptoms - Prevent asthma episodes or attacks
- Minimal (infrequent) exacerbations
- No (or infrequent) emergency visits
- Minimal (ideally no) need for reliever medication
- Maintain normal activity levels
- No limitations on activities, including exercise
- No absenteeism from work place
36Asthma
- Management Includes the following goals
- Avoid adverse effects from asthma medications
- Identification and appropriate treatment of
associated conditions like rhinitis, sinusitis
and GERD - Prevent asthma mortality
37Asthma
- Management
- Asthma can be effectively controlled in most
patients, although it can not be cured - The most effective management is to prevent
airway inflammation by eliminating the causal
factors - The major factors contributing to asthma
morbidity and mortality are under-diagnosis and
inappropriate treatment
38Case 3
- What is the initial treatment that would be
appropriate for this patient?
She should be initiated on controller medication
such as inhaled corticosteroids (ICS) with an
inhaled long-acting ß2-agonist (LABA) either by
metered dose inhaler (MDI preferably with
spacer) or dry powder inhaler (DPI). It should
be emphasized that these medications should be
taken regularly even if she is not having any
symptoms. Reliever medication such as inhaled
short-acting ß2-agonists (SABA) should also be
prescribed with the instructions that it is to be
taken strictly on an as-required basis and not
as a substitute for the controller drug(s)
39Asthma
- Management (Pharmacological)
- A stepwise approach to pharmacological therapy is
recommended - The aim is to achieve asthma control with the
least possible medication - The choice of treatment should be guided by
- severity of the patients asthma
- availability of various drugs and devices for
asthma treatment in and around the patients
place of living - economic considerations
40Asthma
- Management (Pharmacological)
- Controllers Medications also known as
prophylactic, preventive or maintenance
medications - Are required to be taken daily in order to keep
asthma under control and include the following - Inhaled corticosteroids (ICS) most important
- Inhaled long-acting ß2-agonists (LABA)
- Sustained release methylxanthines
- Oral long-acting ß2-agonists
- Leukotriene modifiers
- Systemic glucocorticosteroids
- Cromones
41Asthma
- Management (Pharmacological)
- Reliever Medications
- Also known as quick relief or rescue medications
- taken only on as required basis for immediate
relief - Include the following
- Inhaled short-acting ß2-agonists (SABA) most
important - Systemic glucocorticosteroids
- Anticholinergic agents
- Methylxanthines
- Oral short-acting ß2-agonists
42Asthma
- Points to remember
- If asthma symptoms are more than intermittent (gt
twice a week), it is more appropriate to control
the disease by prescribing maintenance drugs that
control inflammation (use of ICS) rather than by
giving relievers (use of inhaled SABA)
43Asthma
- Management (Pharmacological)
- Inhaled Corticosteroids (ICS)
- Most important component of asthma management
- At present, they are the most effective
controller medications available - Recommended for all patients who have persistent
asthma - Long-term treatment with ICS markedly reduces the
frequency and severity of exacerbations - Benefit of daily use - fewer symptoms, fewer
severe exacerbations, reduced use of relievers,
improved lung function, reduced airway
inflammation
44Asthma
- Management (Pharmacological)
- Inhaled Corticosteroids (ICS)
- The risk for systemic adverse events at
recommended dosages is very small. However, local
side effects like oropharyngeal candidiasis,
hoarseness of voice and throat irritation can
occur - Reduce potential for adverse events by
- Using spacer and/or rinsing mouth
- Using lowest dose possible
45Asthma
- Management (Pharmacological)
- Systemic glucocorticoids are
- Not recommended in treatment of stable asthma
- Rarely required in severe asthma (lowest dose to
control symptoms, alternate day if possible) - Important in treatment of moderate to severe
exacerbations of asthma - Oral prednisolone 40 mg per day
- Intravenous hydrocortisone maximum 400 mg per day
or its equivalent - No advantage of methylprednisolone over
hydrocortisone
46Asthma
- Management (Pharmacological)
- Methylxanthines
- Mild disease (as an alternative to ICS)
- As add on therapy to low to high dose ICS
(moderate or severe disease) they improve lung
function, prevent need for short-acting
beta2-agonists and prevent exacerbations - Acute severe asthma in adults and children when
standard treatment not effective slow
intravenous infusion may be added to standard
treatment if patient is not responding
47Asthma
- Management (Pharmacological)
- Long-acting inhaled ß2-agonists (LABA)
- Should always be combined with ICS
- Not appropriate for monotherapy
- Not a substitute for anti-inflammatory therapy
- This combination is useful in patients with
moderate to severe asthma (patients with
persistent asthma symptoms) - Not useful for acute symptoms or exacerbations
48Asthma
- Management (Pharmacological)
- Short-acting inhaled ß2-agonists (SABA)
- Useful reliever medication in asthma most
effective medication for relief of acute
bronchospasm in acute exacerbations of asthma,
and prevention of exercise induced asthma - Requirement of more than 2 times/week suggests
inadequate asthma control - Regularly scheduled use is not generally
recommended as it lowers effectiveness and
increases airway hyperresponsiveness
49Asthma
- Management (Pharmacological)
- Leukotriene receptor antagonist (LTRA)
- Add on therapy in moderate to severe asthma
- Aspirin-sensitive asthma
- Less effective than ICS
- Anticholinergic drugs
- Additive effect with SABA for asthma
exacerbations - Cromones
- Mild persistent asthma
- Exercise induced asthma (particularly in
children)
50Asthma
- Management (Pharmacological)
- Route of Administration - Inhalation route
- Preferred mode of drug delivery
- Easy, safe, faster onset of action
- More effective than oral route
- Drugs can be given by metered dose inhalers
(MDI), dry powder inhalers (DPI) or nebulizers - Patients should be instructed regarding proper
use of the inhaler device - Technique should be checked regularly
51Asthma
- Management (Pharmacological)
- Route of Administration - Inhalation route
- MDI with spacer/holding chamber is the preferred
device for aerosol delivery, is less expensive
(compared to DPI and nebulization), is as
effective as nebulized aerosol delivery and thus
leads to a lesser dose and lesser side-effects - DPI is easier to use, but costlier
- Route of Administration - Intravenous route
- No benefits over inhalational route
- Potential for increased adverse effects
- Avoid if possible
52Asthma
- Management (Pharmacological)
- Route of Administration - Oral route
- Should be avoided
- Maintenance therapy
- Sustained-release theophylline in mild asthma
- Low-dose steroid in severe uncontrolled asthma
- Long-acting Oral ß2 agonists (if patient unable
to take inhaled bronchodilators) - Disadvantages
- Systemic side-effects
- Slower onset of action
53Asthma Management based on severity
54Asthma Management based on severity
- Mild asthma and intermittent symptoms - vast
majority of patients do not require any daily
medication - a rapid-acting inhaled
bronchodilator (like SABA) may be taken as needed
to relieve asthma symptoms - Mild asthma and persistent symptoms daily
controller medication (preferably ICS) required
to achieve and maintain control of their asthma
(sustained-release theophylline or cromones are
alternatives if ICS are not being used by the
patient) SABA may be taken in addition on an
as-needed basis for immediate relief from asthma
symptoms
55Asthma Management based on severity
- Moderate asthma - combination of ICS and inhaled
LABA twice daily preferred (sustained-release
theophylline or a LTRA or oral LABA are
alternatives to inhaled LABA in this combination
therapy while high dose ICS alone can be used as
an alternative to combination therapy per se) - Severe asthma - combination of high dose ICS plus
inhaled LABA twice daily preferred. Sustained
release theophylline or a LTRA or oral LABA or a
combination of these may be added to inhaled
drugs if symptoms not controlled with inhaled
drugs. Oral corticosteroids may also be
considered in very severe cases
56Asthma Management based on severity
Day-time symptoms lt 1/week and night-time
symptoms ? 2/month - manage with reliever
medications alone Use of reliever medications gt
1/week use controllers Reliever medications -
taken as needed to prevent symptoms but not more
than 3/day - requirement gt 2/week indicates poor
control Once the goals for asthma achieved for at
least three months - gradually reduce maintenance
therapy - 25 reduction every three months Once
the patient is off all asthma medications
follow-up every six months
57Case 3
- In addition to prescribing drug therapy, what
else can you do for Rani? - When will you call her for follow up (F/U)?
Her husband should be advised to quit smoking
since her asthma is likely to have been
aggravated by environmental tobacco smoke (ETS)
exposure. She should avoid exposure to smoke
while cooking (smokeless chullahs , improved
Ventilation). F/U - Rani should come for F/U
regularly till her symptoms are controlled -
after this, the frequency of F/U visits should
be reduced to one visit every 3 months. She
should report immediately in case of any
worsening of symptoms or increasing requirement
of reliever medications
58Asthma
- Management (Non-pharmacological)
- Patient education
- Education of patients assists in the management
of their disease, helps them get the ability to
attempt controlling their disease by themselves
and establishes good rapport between the
physician and patients - Should be a continuous process and should include
both the patient and his family members. It
should help establish a partnership among
physician, the patient and the family members. - Should provide information about the disease and
help them learn self-management skills
59Asthma
- Management (Non-pharmacological)
- Patient education
- Factors leading to poor compliance with
medications include difficulties with use of
inhaler drugs including device usage, complicated
regimens and prescriptions, fears about or actual
side effects and cost of treatment - Other factors include misunderstanding or lack of
information in patients, underestimation of
disease severity by physician, health attitude of
patient and family members, cultural factors and
poor communication between physician and patients
60Asthma
- Management (Non-pharmacological)
- Avoidance of exposure to risk factors
- Use of measures that reduce exposure to noxious
agents is known to decrease asthma exacerbations - Hence attempt should be made to reduce exposure
to indoor allergens, tobacco smoke, vehicle
emission, avoiding specific foods and medications
(identified by patients or their family members
to trigger exacerbations) and irritants in the
workplace
61Asthma
- Management (Non-pharmacological)
- Ensuring regular follow-up
- This is essential for monitoring of the patients
clinical status and ensuring that goals of asthma
management are being met - During each visit, the physician should review
symptom profiles (day time and nocturnal),
requirement for reliever medications, compliance
with controller medications and home PEF record
(if patient is using a PEF meter at home)
62Asthma
- Management (Non-pharmacological)
- Ensuring regular follow-up
- Assess technique of using devices for inhaled
medications as well as risk factors for
exacerbations (identify and advise their
avoidance/control) - Once asthma is controlled, frequency of follow-up
visits can be reduced gradually. However no more
than 3 months (or 6 months if patient comes from
a remote area) should elapse between consecutive
visits - The decision to step up/step down the treatment
should also be taken during follow up visits
63(No Transcript)
64Case 4
- Shanti Devi, a 58 year old lady presents with
- History of cough with expectoration and wheezing
for the last 6 years. The symptoms used to worsen
in the winters with episodes associated with
fever and increased quantity of mucopurulent
sputum that used to get relieved with short
courses of oral medications prescribed by local
practitioners. However, she was not taking any
medications on a regular basis - She denies history of smoking but her husband who
passed away recently had been a chronic smoker
who used to smoke 2 packs of cigarettes everyday
65Case 4
- For the past 1 year her shortness of breath has
increased progressively. During this time she
underwent an ECG and a chest x-ray both of which
were reported as being normal. Subsequently, she
was prescribed oral salbutamol that she took for
a few days but stopped since she had started
experiencing trembling of hands
66Case 4
- What is the diagnosis (COPD or asthma)?
- What is the severity of the patients disease?
Shanti Devi has COPD - based on her symptoms and
signs, she has moderate COPD
67COPD Severity staging without spirometry
68COPD Severity staging with spirometry
69Case 4
- What are the goals that are to be kept in mind
while managing Shanti Devis COPD?
70COPD
- Management Goals
- Relieve symptoms
- Avoidance of risk factors
- Improve exercise tolerance
- Improve health status
- Prevent and treat exacerbations
- Prevent and treat complications
- Reduce mortality
- Minimize side effects from treatment
71COPD
- Management
- The following should be considered while
formulating a management plan - Severity of the patients disease
- Benefits and risks to the individual
- Direct and indirect costs to the individual
and/or his/her family members - Availability of various drugs and devices for
treatment in and around the patients place of
living
72Case 4
- What is the initial treatment that would be
appropriate for this patient?
She should be initiated on inhaled
bronchodilators - a combination of inhaled long
acting anticholinergic (tiotropium) with an
inhaled LABA (e.g. formoterol) may be an
appropriate initial choice. Reliever medication
(inhaled SABA) should also be prescribed on an
as-needed basis. If her symptoms are not
controlled, sustained release oral theophylline
preparations may be added to inhaled drugs. She
also may benefit from the addition of ICS in high
doses
73COPD Management according to severity
Tobacco cessation and pulmonary rehabilitation
are important at all stages
74COPD Management based on severity
- At risk (stage 0) cessation to smoking (or
other forms of tobacco) exposure is the only
intervention required for patients in this stage - Mild COPD (stage 1) rapid-acting inhaled
bronchodilator (like SABA or ipratropium) may be
taken as needed to relieve symptoms
(sustained-release theophylline is an alternative
if patient is not taking inhaled drugs)
75COPD Management based on severity
- Moderate COPD (stage 2) long acting inhaled
bronchodilators are preferred (inhaled tiotropium
with/without inhaled LABA) - sustained-release
theophylline or oral LABA or a combination of
these may be added to inhaled drugs if symptoms
not controlled with inhaled drugs (they can also
be alternatives if patient is not taking inhaled
drugs) - Severe COPD (stage 3) - high dose ICS should be
added to bronchodilator therapy (as described for
moderate COPD) it is equally important to
detect and treat complications
76COPD
- Management (Pharmacological)
- None of the existing medications for COPD has
been shown to modify the long-term decline in
lung function that is the hallmark of this
disease - Therefore, pharmacotherapy for COPD is used to
decrease symptoms and/or complications
77COPD
- Management (Pharmacological)
- Bronchodilator medications
- central to symptom management
- prescribed on an as-needed or regular basis to
reduce symptoms - inhaled therapy is preferred
- long-acting inhaled bronchodilators are more
convenient - choice between bronchodilators or combination
therapy from different classes of bronchodilators
depends on availability and individual response
78COPD
- Management (Pharmacological)
- Choice of Bronchodilators Combining
bronchodilators may improve efficacy and decrease
the risk of side effects compared to increasing
the dose of a single bronchodilator - Anticholinergics (Inhaled) tiotropium,
ipratropium - Beta-agonists (Preferably inhaled) LABA, SABA
- Combination of inhaled anticholinergic and
beta-agonists - Oral theophyllines
79COPD
- Management (Pharmacological)
- Anticholinergics
- cause effective bronchodilation
- reduce rate and severity of acute exacerbations
- improve quality of life
- side effects include dryness, blurred vision etc.
- Corticosteroids
- indicated for moderate to severe stable COPD
(inhaled) and for acute exacerbations
(oral/parenteral) - help by improving lung functions, reducing
exacerbations, improving symptoms and quality of
life and reducing airway reactivity
80Case 4
- In addition to prescribing drug therapy, what
else can you do for Shanti Devi?
She should be educated about her disease and the
need for avoidance of risk factors and should be
kept on regular follow up
81COPD
- Management (Non-pharmacological)
- Patient education (same as for asthma)
- Avoidance of exposure to risk factors
- Pulmonary Rehabilitation (referral to a higher
centre) - Regular follow up (same as for asthma)
82COPD
- Management (Non-pharmacological)
- Avoidance of exposure to risk factors
- Reduction of total personal exposure to tobacco
smoke, occupational dusts and chemicals, and
indoor and outdoor air pollutants are important
goals to prevent the progression of COPD - Smoking cessation is the single most effective
(and cost-effective) intervention to reduce the
risk of developing COPD and stop its progression
83COPD Management
Brief strategies to help the patient willing to
quit smoking
84COPD
- Management (Non pharmacological)
- Avoidance of exposure to other risk factors
- Avoiding open burning of crop residue
- Use of water to suppress dust
- Wearing masks at work place in areas of dust
generation - Reducing risk associated with solid fuel
combustion by using smokeless chullahs - Substitution of solid fuels with LPG or
electricity - Kitchens should be adequately ventilated
85COPD
- When to refer?
- There is a strong suspicion of an alternate
diagnosis - Patient is not responding to treatment
- Presence of complications like chronic cor
pulmonale, respiratory failure or pneumothorax - Assistance in tobacco cessation and/or pulmonary
rehabilitation
86Algorithm for diagnosis and management of COPD at
different levels of health care
Patient reporting with suggestive respiratory
symptoms
- H/o exposure to risk factors - Physical
examination - Exclude other diseases
Sputum for AFB x 3
ve
-ve
Refer to nearest DOTS centre (RNTCP) or start ATT
Provisional diagnosis COPD
Secondary care level
Complications
Spirometry / Chest X-ray
- Spirometry / Chest X-ray if feasible -
Treatment as per guidelines
- Intensive care for acute exacerbation
- Rehabilitation for stabilized patient
domiciliary oxygen, appropriate nutrition and
respiratory physiotherapy
Good response
Poor response
Treatment
Continue treatment
Complications
Good response
Poor response
Follow up
Good response
Tertiary Care Level
Secondary Care Level
Primary Care Level
87Case 5
- Pritam, a 52 year old businessman presents with
- History of shortness of breath and wheezing for
the past 2 months. These symptoms tend to worsen
while lying down and recently he has noted that
his sleep is often disrupted by severe
breathlessness associated with uneasiness and
profuse sweating - this gets relieved in a few
minutes by sitting up and walking around - He denies history of chest pain or cough with
expectoration - He is a known case of hypertension and diabetes
mellitus for the past 10 years - He is a life long non-smoker
88Case 5
- On Physical Examination
- Pritam is an obese gentleman of short stature
- Vital signs afebrile, RR 32/min, HR 110/min, BP
180/100 mmHg - Chest - vesicular breath sounds with normal
intensity are heard throughout lung fields fine
end-inspiratory crackles are heard in both bases - CVS - S1 and S2 are normally heard a systolic
murmur is heard over the apex - Rest of the physical examination is unremarkable
89Case 5
- What is your provisional diagnosis?
Pritam has left ventricular failure
90Case 5
- How was the diagnosis suspected clinically?
Even though the patient is a non-smoker and has
symptoms of wheezing and breathlessness, the
diagnosis is not asthma because in addition, he
has orthopnoea and paroxsymal nocturnal dyspnoea
in association with obesity, diabetes mellitus
and hypertension, all of which are suggestive of
ischemic heart disease and left ventricular
failure
91Case 5
- What are the investigations that you should order
to confirm the diagnosis?
He should undergo ECG and echocardiography and
be initiated on treatment for heart failure.
Referral to a secondary care level for further
evaluation and management should be appropriate
92Case 6
- Pushkar, a 46 year old male presents with
- History of cough with expectoration,
breathlessness and fever for the past 3 months - He has also noticed streaky hemoptysis as well as
weight loss of approximately 6 kg and a reduction
in appetite - He denies history of wheezing or chest pain
- He is a chronic smoker who smoke around 15 bidis
per day
93Case 6
- On Physical Examination
- Vital signs - T 100.9ºF (38.3ºC), RR 22/min, HR
90/min, BP 114/82 mmHg - Chest - bronchial breath sounds are heard over
the left infraclavicular and suprascapular areas
with inspiratory and expiratory crackles in the
same areas while normal vesicular breath sounds
are heard in the other areas. - CVS S1 and S2 are normally heard
- Rest of the physical examination is unremarkable
94Case 6
- What is your provisional diagnosis?
Pulmonary Tuberculosis
95Case 6
- How was the diagnosis suspected clinically?
Even though the patient is a smoker and has
symptoms of cough with expectoration and
breathlessness, the diagnosis is not COPD
because in addition, he has hemoptysis, fever
and constitutional symptoms, all of which are
suggestive of active pulmonary tuberculosis
96Case 6
- What are the investigations that you should order
to confirm the diagnosis?
He should undergo sputum analysis for acid fast
bacilli and chest x-ray
97Differential Diagnosis
- Symptoms
- One should get alerted to the possibility of
presence of an alternative or a coexisting
disease if the following exist - fever
- weight loss
- hemoptysis
- excessive and purulent sputum
- chest pain
- orthopnea and paroxysmal nocturnal dyspnea
- Such diseases could include bronchiectasis,
tuberculosis, ischemic heart disease, left
ventricular failure and lung cancer
98Differential Diagnosis
- Signs
- Presence of one or more of the following (on
physical examination) indicates an
alternative/coexisting disease - Fever
- Purulent sputum
- Finger clubbing
- Localized physical findings
- Evidence of fibrocavitary disease
- Heart murmurs or additional heart sounds
99Summary
100Asthma
- Think of asthma when
- Onset of symptoms at an early age
- Intermittent symptoms
- Family history of atopy/asthma or personal
history of atopy - Non-smoker
- Pronounced wheezing
- Good response to inhaled bronchodilators and
steroids
101Asthma
- The physician should remember
- Asthma can be effectively controlled, although it
cannot be cured - Effective asthma management programs include
education, environmental control and
pharmacologic therapy - A stepwise approach to pharmacologic therapy is
recommended. The aim is to accomplish the goals
of therapy with the least possible medication
102COPD
- Think of COPD when
- Onset of symptoms later in life
- Progressive symptoms and absence of symptom free
periods - Tobacco smoker (bidi/cigarette/hukkah etc.)
- Reduction in intensity of breath sounds
pronounced wheeze not prominent - Not very good response to inhaled bronchodilators
and steroids
103COPD
- The physician should remember
- Development of COPD can be prevented by avoiding
exposure to risk factors - Effective COPD management programs include
reducing exposure to risk factors, pharmacologic
therapy and rehabilitation - Pharmacologic therapy cannot alter the natural
course of the disease and is only for relief of
symptoms. Smoking cessation is the most effective
and proven intervention that has been shown to
reduce mortality in COPD
104Appendix AOverview of asthma and COPD
105Introduction Overview
- COPD and asthma are
- Diseases characterized by airflow obstruction
- Associated with chronic inflammation of the
airways - Common worldwide
- Associated with significant morbidity and
mortality - They differ in the
- Extent of reversibility of airflow obstruction
- Clinical features and natural history
- Type of cellular inflammation involved
106Airflow limitation resulting from a variable
mixture of loss of alveolar attachments,
inflammatory obstruction of the airway and
luminal obstruction with mucus
Peter J Barnes. Chronic Obstructive Pulmonary
Disease. N Engl J Med 2000 343 269-280.
(Reproduced with permission)
107NORMAL AIRWAY
AIRWAY IN PATIENTS WITH AIRFLOW OBSTRUCTION
Airway lumen
Airway wall
Smooth muscle
Mucus glands
Smooth muscle hypertrophy
Inflammation and edema
Airway narrowing
Mucus plugging
Mucus gland hypertrophy and hyperplasia
108Introduction Overview
- COPD
- Includes chronic bronchitis and emphysema
- It is generally difficult to separate out the two
conditions, hence they are grouped together as
COPD - Currently it is the 5th leading cause of death in
the world (4.8 of all deaths in 2002) - Further increases in prevalence and mortality are
predicted (7.9 of all deaths by 2030)
109Introduction Overview
- Risk factors for COPD
- Tobacco smoking (active or passive) is a major
predisposing factor for the development of COPD - Passive smoking is now more appropriately known
as environmental tobacco smoke (ETS) exposure - Both cigarette and bidi smoking are equally
responsible
110Introduction Overview
- Additional risk factors for COPD
- These are particularly important for COPD
occurring in non-smoking individuals - Indoor air pollution like exposure to solid
combustion fuels/biomass fuels (such as dried
dung, wood and crop residue) when they are used
for cooking - Outdoor air pollution like
- exhausts from vehicles and industrial units
- dusts, fumes and smoke from burning of crop
residues in the field - Low socioeconomic status
111Introduction Overview
- COPD
- In the Global Burden of Disease Study, prevalence
was estimated to be - 9.34 per 1,000 males 7.33 per 1,000 females
(worldwide) - 4.38 per 1,000 males 3.44 per 1,000 females
(India) - In a recent large multi-centre population based
Indian study, the prevalence of COPD was found to
be - 4.1 among adult subjects aged 35 years and above
- 8.2 5.9 among bidi cigarette smokers
respectively
112Introduction Overview
- Natural history of COPD
- Development and progression of COPD can vary
between individuals - Generally, the disease tends to progress with
time (especially if a patient's exposure to risk
factors continues) - Course is punctuated with repeated exacerbations
- (defined as a sustained increase in symptoms
that can culminate in hospitalization,
respiratory failure and ultimately death) - Exacerbations are more common in patients with
lower levels of lung function and may lead to
further (as well as rapid) declines in lung
function
113Introduction Overview
- Natural history of COPD
- Stopping exposure to risk factors will slow down
or even halt the progression of disease (and can
result in some improvement in function) even in
advanced stages of the disease - In addition to risk factors, lung function, body
mass index, exercise capability, severity of
dyspnea, and presence of co-morbid diseases
determine the outcome in COPD
114Introduction Overview
- Asthma
- Asthma is one of the most common chronic diseases
worldwide and is a major cause of school/work
absence - Poorly controlled asthma is expensive and health
care expenditures are very high - Investment in prevention medication likely to
yield cost savings in emergency care - Prevalence increasing in many countries,
especially in children
115Introduction Overview
- Asthma
- The estimated prevalence of asthma is believed to
be 100 to 150 million worldwide and 15-20 million
in India - Worldwide around 180000 people per year die of
asthma - An overall increase in severity of asthma
increases the pool of patients at risk for death - In a recent large multi-centric Indian study
involving adult subjects aged 15 years and above,
asthma was present in 2.38
116Introduction Overview
- Risk factors for Asthma
- Host Risk Factors
- Atopy (production of abnormal amounts of IgE
antibodies in response to common environmental
allergens) is one of the strongest identifiable
predisposing factor for developing asthma - Family history of asthma or atopy
117Introduction Overview
- Risk factors for Asthma
- Environmental Risk Factors
- Allergens (Indoor and Outdoor) house dust mites,
allergens from insects and pet animals fungi,
molds and yeasts pollens - Tobacco smoke (active and ETS exposure)
- Air pollution (outdoor and indoor) smoke and
fumes including use of biomass fuels for cooking - Occupational exposures
118Introduction Overview
- Triggers for Asthma
- Triggers Factors which precipitate an
exacerbation in a stable or previously
asymptomatic patient - Respiratory infections (usually viral)
- Allergens (indoor/outdoor)
- Air pollution (indoor/outdoor)
- Tobacco smoke (active and ETS exposure)
- Drugs - Beta-blockers and NSAIDs
- Exercise and exposure to cold, psychological or
other unaccustomed stress
Foods are not commonly established triggers of
asthma
119Introduction Overview
- Natural history of Asthma
- Natural history of asthma is variable
- Onset can occur at any age but commonly tends to
affect children and young adults - Generally severity of asthma in adult life
parallels its severity during childhood - 5-10 of children with mild asthma go on to
develop severe asthma later in life
120Introduction Overview
- Natural history of Asthma
- Contrary to common belief, children do not
necessarily grow out of asthma - Almost two-third continue to have symptoms in
puberty and adulthood - Even the remaining one-third, in whom a clinical
remission may be apparent, persistent lung
function abnormalities are observed
121Appendix BDifferences and similarities between
asthma and COPD
122Asthma COPD Similarities
- What are the similarities between the two?
- Common risk factors and aggravating factors
(tobacco smoke, outdoor and indoor air pollution) - Symptoms (breathlessness, wheezing, cough)
- Signs (reduced intensity of breath sounds,
rhonchi) - Spirometry (obstructive pattern)
123Asthma COPD Differences
124Asthma COPD Differences
125Asthma COPD Differences
126Asthma COPD Differences
127Asthma COPD Differences
- Why is it important to differentiate between the
two? - Prevention - Asthma is not preventable (only
controllable) while COPD is largely preventable - Treatment - Inhaled corticosteroids are the
cornerstone of treatment for all but the mildest
cases of asthma while their utility in COPD is
limited - Outcome - Asthma has a variable course while COPD
usually progresses with time - Complications - Long term complications like
pulmonary hypertension and respiratory failure
are more likely to occur with COPD while they are
rare in asthma
128Appendix CDrugs their dosages
129Equivalent doses of ICS
Medication inserts for HFA preparations should be
carefully reviewed for the correct dosage level
130SABA
- Includes the following drugs
- Salbutamol
- Terbutaline
- Levosalbutamol
- Effect
- Inhaled form
- Onset 1-5 minutes
- Duration 3-6 hours
- Oral form
- Duration 6-8 hours
131Doses of SABA (salbutamol)
132Doses of SABA (terbutaline)
133Long-acting drugs
- Long-acting beta2 agonists - includes the
following - Salmeterol (50 to 100 mcg/day)
- Formoterol (12 to 24 mcg/day)
- Formoterol has a quicker onset of action than
salmeterol - Methylxanthines
- Theophylline (oral) - sustained release
- Adults - 300-600 mg/day
- Children lt 1 yr- 0.2 (age in wks)5 mg/kg/day
- Children gt 1 yr- 16 mg/kg/day
- Doxyphylline is an alternative to theophylline
- 200-400 mg thrice a day
134Other Drugs
135Appendix DMeasurements and devices useful in
management of asthma and COPD
136SPIROMETRY
- Definitions
- Obstructive defect FEV1/FVC ratio lt 70
- Bronchodilator reversibility increase by 12
AND 200 mL over the baseline values (either FVC
or FEV1) after 200 µg of inhaled salbutamol - Presence of a post-bronchodilator FEV1lt80 of the
predicted value in combination with a FEV1/FVC
lt70 confirms the presence of airflow limitation
that is not fully reversible
137PEAK EXPIRATORY FLOW (PEF)
- Although PEF meters are simpler to use than the
spirometers, there is a high degree of
variability and lack of reproducibility of PEF -
hence PEF measurements are inferior to
spirometric values - PEF measurements do not correlate well with FEV1
values and cannot be used interchangeably for
either diagnosing or staging airflow limitation - Can be used for monitoring the disease
138The PEF Meter
- Inexpensive clinic instrument
- Useful for monitoring - allows the patient
- to assess the status of his/her asthma
139The PEF Meter
140PEF Monitoring
- Patients with moderate-to-severe asthma should
have a PEF meter and learn to monitor their PEF - Monitoring can be daily (long-term), short-term
(2 to 3 weeks) and during exacerbations - Patients should measure PEF on waking before
taking a bronchodilator, use their personal best
and be aware that a peak flow lt80 of personal
best indicates a need for additional medication - Patients should use the same peak flow meter over
time
141Metered Dose Inhaler
John Rees. Methods of delivering drugs. BMJ 2005
331 504-506. (Reproduced with permission)
142Metered Dose Inhaler
John Rees. Methods of delivering