Longacting 2Agonist Therapy in the Management of COPD

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Longacting 2Agonist Therapy in the Management of COPD

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Title: Longacting 2Agonist Therapy in the Management of COPD

1
Long-acting ?2-Agonist Therapyin the Management
of COPD
FR0621 7/05
2
Definition of Chronic ObstructivePulmonary
Disease (COPD)

COPD is a disease state characterized by airflow
limitation that is not fully reversible
Airflow limitation is usually progressive and may
be accompanied by airway hyperreactivity
COPD is an umbrella term used to describe
irreversible airflow obstruction associated
primarily with
Chronic bronchitis (20)
Emphysema (80)
Or a combination of chronic bronchitis and
emphysema

Pauwels RA et al, on behalf of the GOLD
Scientific Committee. Am J Respir Crit Care Med.
20011631256-1276. Petty TL. American Lung
Association. State of the Air 2002. Available at
www.lungusa.org/press/lung_dis/asn_copd.html.
Accessed March 23, 2004.
3
Risk Factors and Genetic Factorsfor COPD

Risk factors
Cigarette smoke
Occupational dusts
Indoor/outdoor air pollution
Infections
Genetic factors
Alpha1 (a1)-antitrypsin deficiency

Pauwels RA et al, on behalf of the GOLD
Scientific Committee. Am J Respir Crit Care Med.
20011631256-1276.
4
Pathologic Changes in COPD

Pathologic changes in central and peripheral
airways, lung parenchyma, and pulmonary
vasculature
Chronic inflammation leads to repeated cycles of
injury and repair of airway wall
Narrowing of airways lumen due to increasing
collagen content and scar tissue formation
Eventual fixed airways obstruction

Pauwels RA et al, on behalf of the GOLD
Scientific Committee. Am J Respir Crit Care Med.
20011631256-1276.
5
Pathologic Changes in COPD (cont'd)
6
Pathologic Changes in COPD (cont'd)

Destruction of lung parenchyma emphysema
Ranges from lesions limited to upper lung regions
to diffuse lesions
May also involve destruction of pulmonary
capillary bed
Initial thickening of intima of pulmonary
vessels, then increasing amounts of smooth muscle
and inflammatory cell infiltration as disease
worsens

Pauwels RA et al, on behalf of the GOLD
Scientific Committee. Am J Respir Crit Care Med.
20011631256-1276.
7
Sequential Physiologic Changesin COPD

Mucus hypersecretion
Ciliary dysfunction
Expiratory airflow limitation ? key to diagnosis
Peripheral airways obstruction
Parenchymal destruction
Pulmonary vascular abnormalities
Cor pulmonale ? associated with poor prognosis

Chronic cough Chronic sputum production
Produce hypoxemia, then hypercapnia
Pauwels RA et al, on behalf of the GOLD
Scientific Committee. Am J Respir Crit Care Med.
20011631256-1276.
8
Epidemiology and Impact of COPD

Fourth leading cause of death in the world1
Overall prevalence 30 to 35 million cases in
United States2
16,000,000 diagnosed
Approximately as many cases undiagnosed2
Chronic bronchitis gt14,000,0003
Emphysema gt1,800,0003

1. Pauwels RA et al, on behalf of the GOLD
Scientific Committee. Am J Respir Crit Care Med.
20011631256-1276. 2. Petty TL. American Lung
Association. State of the Air 2002. Available at
www.lungusa.org/press/lung_dis/asn_copd.html.
Accessed March 23, 2004. 3. American Lung
Association. Epidemiology Statistics Unit
March 2001. Available at http//www.lungusa.org/d
ata/copd/copd1.pdf. Accessed February 22, 2002.
9
Epidemiology and Impact of COPD (cont'd)

Fourth leading cause of mortality in United
States
More than 119,000 deaths annually
42 increase in age-adjusted death rate from 1979
to 1998
COPD accounted for
13.2 million office visits to doctors in 1997
668,362 hospitalizations
Annual estimated cost of COPD 31.9 billion

American Lung Association. Epidemiology
Statistics Unit March 2001. Available at
http//www.lungusa.org/data/copd/copd1.pdf.
Accessed February 22, 2002.
10
Natural History of COPD(Fletcher and Peto)
Never smoked or not susceptible to smoke
Forced Expiratory Volume in1 Second (FEV1) (
of Value at Age 25)
Smoke regularly and susceptible to its effects
Stopped at age 45
Disability
Stopped at age 65
Death

Age (Years)
Death due to irreversible chronic obstructive
lung disease. Reprinted with permission from
Fletcher C, Peto R. Br Med J. 197711645-1648.
11
Percentage Change in Age-adjusted Death Rates,
United States, 1965-1998
CVD cardiovascular disease. Global Initiative
for Chronic Obstructive Lung Disease. Chronic
obstructive pulmonary disease (COPD). Available
at http//www.goldcopd.com/slides/download.ppt.
Accessed February 7, 2003.
12
Increasing Awareness of COPD

70 of individuals affected by COPD (15.2
million) are unaware they have the disease
Simple everyday tasks become difficult
May be suffering more than necessary
The key to disease management education,
diagnosis, and proper treatment
National COPD Awareness Month
Raises awareness about COPD
Encourages people with symptoms to seek help and
learn about COPD and treatment options

American Lung Association. President Bush
declares November National COPD Awareness Month.
November 2001. Available at http//www.lungusa.or
g. Accessed December 17, 2002.
13
Signs and Symptoms of COPD

Chronic cough
Present intermittently or every day
Often present throughout the day
Seldom only nocturnal
Chronic sputum production
Any pattern may indicate COPD

Pauwels RA et al, on behalf of the GOLD
Scientific Committee. Am J Respir Crit Care Med.
20011631256-1276.
14
Signs and Symptoms of COPD (cont'd)

Dyspnea that is
Progressive
Persistent
Described by patient as increased effort to
breathe, heaviness, gasping
Worse on exercise or during respiratory infection
History of risk factors, especially
Tobacco smoke
Occupational dusts and chemicals
Smoke from home cooking or heating fuels
Chest x-ray seldom diagnostic, but
high-resolution computed tomography (CT) may aid
in differential diagnosis

Pauwels RA et al, on behalf of the GOLD
Scientific Committee. Am J Respir Crit Care Med.
20011631256-1276.
15
SpirometryMeasurement of Airflow Limitation

Helps identify patients in early course of
disease
Should be performed for patients with chronic
cough, sputum production, and risk factors
Measure forced vital capacity (FVC) and FEV1 and
calculate FVC/ FEV1 ratio
Assess severity

Pauwels RA et al, on behalf of the GOLD
Scientific Committee. Am J Respir Crit Care Med.
20011631256-1276.
16
Classification of COPD by Severity

Stage Characteristics
Stage 0 At Risk Chronic symptoms, exposure to
risk factors, normal spirometry
Stage I Mild FEV1/FVC lt70, FEV1 gt80, with or
without symptoms
Stage II Moderate FEV1/FVC lt70, 50 lt FEV1
lt80, with or without symptoms
Stage III Severe FEV1/FVC lt70, 30 lt FEV1 lt50,
with or without symptoms
Stage IV Very Severe FEV1/FVC lt70, FEV1 lt30 or
FEV1 lt50 predicted plus chronic respiratory
failure

National Heart, Lung, and Blood Institute. Global
Strategy for the Diagnosis, Management, and
Prevention of Chronic Obstructive Pulmonary
Disease NHLBI/WHO Workshop - UPDATED 20031-100.
17
Differential Diagnosis of COPD
COPD
ASTHMA

Onset early in life
Day-to-day variations in symptoms
Symptoms at night/early morning
Allergy, rhinitis, and/or eczema also present
Family history of asthma
Largely reversible airflow limitation

Onset in midlife
Symptoms slowly progressive
Long smoking history
Dyspnea during exercise
Largely irreversible airflow limitation

Management Plan
Assess and monitor disease
Reduce risk factors
Manage stable COPD
Manage exacerbations

Goals of Effective Management
Prevent disease progression
Relieve symptoms
Improve exercise tolerance
Improve health status
Prevent and treat complications
Prevent and treat exacerbations
Reduce mortality

To prevent and control symptoms
To reduce frequency and severity of exacerbations
To improve health status
To improve exercise tolerance

Inhaled corticosteroids for moderate-to-severe
COPD with frequent exacerbations
Trial with inhaled corticosteroids (6 wk-3 mo) to
identify candidates for long-term treatment
Combination of ?2 agonist, anticholinergic, or
theophylline may produce additional improvements
in lung function and health status
No evidence to support use of leukotriene
antagonists

Mild (Stage I)
Short-acting inhaled bronchodilator as needed
Moderate (Stage II)
Add regular treatment with one or more
long-acting inhaled bronchodilators
Severe (Stage III)
Add inhaled corticosteroids if repeated
exacerbations
Very Severe (Stage IV)
Add long-term oxygen if chronic respiratory
failure
Consider surgical treatments

Bronchodilators
?2 agonists
Short acting
Long acting
Formoterol fumarate inhalation powder
Salmeterol
Salmeterol fluticasone dipropionate
Anticholinergics
Ipratropium, tiotropium
Methylxanthines
Aminophylline, theophylline
Inhaled glucocorticosteroids

Central to symptom management
Inhaled therapy preferred
Prescribed on as-needed or regular basis to
prevent or reduce symptoms
Long-acting bronchodilators more convenient
Combinations of bronchodilators may improve
efficacy and reduce risk of side effects versus
increasing dose of a single agent

SPIRIVA (tiotropium bromide inhalation powder)
Inhaled anticholinergic agent
Indicated for long-term, once-daily, maintenance
treatment of COPD-related bronchospasm
Mean 28 to 31 peak improvement in FEV1 after 1
week and maintained consistently in 12-month
studies
ADVAIR DISKUS (salmeterol fluticasone
dipropionate)
Single-product combination inhalation agent
Bronchodilatory (?2 agonist) and
anti-inflammatory (corticosteroid) mechanisms of
action
Indicated for twice-daily maintenance therapy of
airflow obstruction in COPD due to chronic
bronchitis
Has not been evaluated in COPD for longer than 6
months
Not to be used for treatment of acute symptoms of
shortness of breath
Should not be used concomitantly with a
long-acting ?2 agonist

SPIRIVA product information, Boehringer
Ingelheim, Inc. ADVAIR DISKUS product
information, GlaxoSmithKline.
24
Corticosteroid Usein Stable COPD

Use of corticosteroids in management of stable
COPD is limited
Oral corticosteroids
Long-term treatment with oral corticosteroids not
recommended
Lack of evidence of long-term benefit
Associated with steroid myopathy (associated with
muscle weakness, decreased functionality,
respiratory failure)
Inhaled corticosteroids
Do not modify the long-term decline of FEV1
Added to bronchodilator for severe COPD with
frequent exacerbations

GOLD Committee, Executive Summary 2004.
25
FORADIL AEROLIZER (formoterol fumarate
inhalation powder)in the Management of COPD
26
Formoterol Fumarate Inhalation Powder

Capsule dosage form containing a dry powder
formulation of formoterol fumarate intended for
oral inhalation only, and only with the
AEROLIZER inhaler
Clear, hard gelatin capsule
12 mcg formoterol fumarate 25 mg lactose as a
carrier

FORADIL AEROLIZER prescribing information.
27
Formoterol Fumarate Inhalation Powder Mechanism
of Action

FORADIL AEROLIZER is a long-acting selective
?2-adrenergic receptor agonist (?2 agonist).
Inhaled formoterol fumarate acts locally in the
lung as a bronchodilator
The pharmacologic effects of FORADIL AEROLIZER
are at least in part attributable to stimulation
of intracellular adenyl cyclase, the enzyme that
catalyzes the conversion of adenosine
triphosphate (ATP) to cyclic-3', 5'-adenosine
monophosphate (cyclic AMP)
Increased cyclic AMP levels cause relaxation of
bronchial smooth muscle and inhibition of release
of mediators of immediate hypersensitivity from
cells, especially from mast cells

FORADIL AEROLIZER prescribing information.
28
Formoterol Fumarate Inhalation PowderLong-acting
?2 Agonist

Formoterol fumarate long-acting ?2 agonist
Onset of action similar to albuterol
Indicated for the maintenance treatment of asthma
and COPD, and prevention of EIB
Not indicated for acute symptoms of asthma

FORADIL AEROLIZER prescribing information.
29
Salmeterol Xinafoate Long-acting ?2 Agonist

Salmeterol long-acting ?2 agonist
Indicated for maintenance treatment of asthma and
COPD, and prevention of EIB
Not indicated for acute symptoms of asthma

Serevent prescribing information.
30
Formoterol Fumarate Inhalation PowderChemical
Structures of ?2 Agonists
Drawn from prescribing information for 1.
PROVENTIL HFA (Schering Corporation) 2.
Serevent DISKUS (GlaxoSmithKline) 3. FORADIL
AEROLIZER (Schering Corporation)
31
Formoterol Fumarate Inhalation PowderHydrophilic/
Lipophilic Properties

Albuterol Hydrophilic
Reaches receptor through aqueous extracellular
compartment
Is easily washed away
Salmeterol Highly lipophilic
Binding to the ?2 receptor is delayed
Prolonged retention at lipophilic receptor
Formoterol Amphiphilic
Both hydrophilic and lipophilic properties
Available in aqueous compartment

Anderson GP. Life Sci. 1993522145-2160.
32
Formoterol Fumarate Inhalation PowderPharmacokine
tic Properties

Absorption
Rapidly absorbed into plasma, reaching a maximum
drug concentration of 92 pg/mL within 5 minutes
of dosing
Distribution
Binding to human plasma proteins in vitro was 61
to 64
Metabolism
Formoterol is metabolized primarily by direct
glucuronidation at either the phenolic or
aliphatic hydroxyl group and O-demethylation
followed by glucuronide conjugation at either
phenolic hydroxyl groups
Four cytochrome P450 isozymes (CYP2D6, CYP2C19,
CYP2C9, and CYP2A6) are involved in the
O-demethylation of formoterol
Formoterol did not inhibit CYP450 enzymes at
therapeutically relevant concentrations
Excretion
Systemically absorbed formoterol is eliminated in
the urine and in the feces over a period of 104
hours. Unchanged formoterol and the glucuronide
conjugates are eliminated renally
The mean terminal elimination half-life was
determined to be 10 hours

FORADIL AEROLIZER prescribing information.
33
Formoterol Fumarate Inhalation PowderPharmacodyna
mic Properties

Tolerance to the bronchoprotective effects of
formoterol was observed as evidenced by a
diminished bronchoprotective effect on FEV1 after
2 weeks of dosing, with loss of protection at the
end of the 12-hour dosing period
Rebound bronchial hyperresponsiveness after
cessation of chronic formoterol therapy has not
been observed

FORADIL AEROLIZER prescribing information.
34
Formoterol Fumarate Inhalation PowderIndications

Bronchoconstriction in patients with COPD
Long-term, twice-daily (morning and evening)
administration in the maintenance treatment of
patients with COPD, including chronic bronchitis
and emphysema
Maintenance treatment of asthma
Long-term, twice-daily (morning and evening)
administration in the prevention of bronchospasm
in adults and children 5 years of age and older
with reversible obstructive airways disease
(including patients with symptoms of nocturnal
asthma) who require regular treatment with
inhaled, short-acting ?2 agonists
It is not indicated for patients whose asthma can
be managed by occasional use of inhaled,
short-acting ?2 agonists
Acute prevention of EIB
Administered at least 15 minutes before exercise,
on an occasional, as-needed basis in the
treatment of adults and children 5 years of age
and older

FORADIL AEROLIZER prescribing information.
35
Formoterol Fumarate Inhalation Powder
Significantly Greater Bronchodilation in COPD
versus Placebo

Significantly Higher FEV1 With Formoterol as
Compared With Ipratropium At Most Time Points
Over 12 Hours After Morning Dose (P0.001)

Last Treatment Day of a 12-Week Treatment Period
(n194)
(n194)
(n200)
Mean FEV1 (L)
? Second dose of ipratropium
At time points 5 and 15 minutes and hours 1, 2,
3, 4, 5, 6, 10, 11, and 12 (P0.001)
Dahl R et al. Am J Respir Crit Care Med.
2001164778-784.
36
Formoterol Fumarate Inhalation Powder
Significant Improvement in Overall Symptom
Scoresfor COPD versus Ipratropium
Patient diary scores on a scale of 0 to 3, with a
maximum of 18 higher scores worse symptoms.
Plt0.001 vs placebo P0.009 vs ipratropium
(n194)
(n194)
(n200)
Dahl R et al. Am J Respir Crit Care Med.
2001164778-784.
37
Formoterol Fumarate Inhalation Powder
Significantly Reduces Use of Rescue Albuterolin
COPD versus Ipratropium
Plt0.001 vs placebo Plt0.014 vs ipratropium
(n194)
(n194)
(n200)
Dahl R et al. Am J Respir Crit Care Med.
2001164778-784.
38
Formoterol Fumarate Inhalation Powder Quality of
Life (QoL) Assessment in COPD

St Georges Respiratory Questionnaire (SGRQ)
Total score drawn from three subscores symptoms,
activity, impacts
Questionnaire administered at baseline and at
conclusion of each study
Formoterol fumarate inhalation powder
Significantly improved total QoL scores versus
placebo1
Significantly reduced the need for rescue
medicine use versus placebo1
Effect of ipratropium bromide metered-dose
inhaler (MDI) on QoL scores did not differ from
placebo

1. Dahl R et al. Am J Respir Crit Care Med.
2001164 778-784.
38
39
Formoterol Fumarate Inhalation Powder
Significantly Improves QoLin COPD Patients
versus Ipratropium
12-Week Study
n194
Plt0.001 vs placebo Plt0.002 vs ipratropium
n194
SGRQ St. Georges Respiratory Questionnaire
Dahl R et al. Am J Respir Crit Care Med.
2001164778-784.
40
Formoterol Fumarate Inhalation PowderPotential
Role in Management of Acute Exacerbations of COPD

Clinical evidence of benefits of inhaled ?2
agonists in treatment of acute exacerbations of
COPD1
Greater effect on spirometry than parenterally
administered bronchodilators
Significant (Plt0.001), dose-dependent changes in
FEV1, FVC, and inspiratory capacity (IC) in
patients with acute exacerbations of COPD
demonstrated with formoterol fumarate inhalation
powder2

1. McCrory DC et al. Chest. 20011191190-1209.
2. Cazzola M et al. Clin Drug Invest.
200222369-376.
41
FORADIL AEROLIZERAdverse Events in COPD Trials

Similar to those reported with other selective ?2
agonists, such as
Angina, hypertension or hypotension,
tachycardia, arrhythmias, nervousness, headache,
tremor, dry mouth, palpitation, muscle cramps,
nausea, dizziness, fatigue, malaise, hypokalemia,
hyperglycemia, metabolic acidosis, and insomnia
FORADIL AEROLIZER should not be used to treat
acute symptoms of asthma or used more than twice
daily. Acute symptoms should be treated with
inhaled, short-acting selective ?2 agonists
FORADIL AEROLIZER should be used with caution
in patients with cardiovascular disorders
FORADIL AEROLIZER is not a substitute for
inhaled or oral corticosteroids and in the
treatment of asthma, they should not be stopped
or reduced

FORADIL AEROLIZER prescribing information.
42
FORADIL AEROLIZERAdverse Events in COPD Trials
(cont'd)

Of the 1634 patients in two pivotal
multiple-dose, controlled trials in COPD, 405
were treated with FORADIL AEROLIZER 12 mcg
twice daily. The numbers and percentage of
patients who reported adverse events were
comparable in the 12- mcg twice-daily and placebo
groups. Adverse events experienced were similar
to those seen in asthmatic patients, but with a
higher incidence of COPD-related adverse events
in both placebo- and formoterol- treated patients
The following slide shows adverse events where
the frequency of an adverse event was gt1 in the
FORADIL AEROLIZER group and exceeded placebo.
The two clinical trials included doses of 12 mcg
and 24 mcg, administered twice daily
Seven adverse events showed dose ordering among
tested doses of 12 and 24 mcg administered twice
daily pharyngitis, fever, muscle cramps,
increased sputum, dysphonia, myalgia, and tremor
Overall, the frequency of all cardiovascular
adverse events in the two pivotal studies was low
and comparable to placebo (6.4 for FORADIL
AEROLIZER 12 mcg twice daily, and 6.0 for
placebo)
There were no frequently occurring specific
cardiovascular adverse events for FORADIL
AEROLIZER (frequency greater than or equal to 1
and greater than placebo)

FORADIL AEROLIZER prescribing information.
43
FORADIL AEROLIZEROverall Incidence of Adverse
Events in COPD TrialsSimilar to Placebo

Number and Frequency of Adverse Events Occurring
in gt1 of Adult COPD Patients Treated in
Multiple-Dose Controlled Clinical Trials
FORADIL? AEROLIZER?, Placebo,
Adverse Event 12 mcg bid (n405)
(n420)
Upper respiratory infection 7.4 5.7
Back pain 4.2 4.0
Pharyngitis 3.5 2.4
Chest pain 3.2 2.1
Sinusitis 2.7 1.7
Fever 2.2 1.4
Leg cramps 1.7 0.5
Muscle cramps 1.7 0
Anxiety 1.5 1.2
Pruritus 1.5 1.0
Increased sputum 1.5 1.2
Dry mouth 1.2 1.0
Trauma 1.2 0

43
FORADIL AEROLIZER prescribing information.
44
FORADIL AEROLIZER
AEROLIZER Inhaler
45
FORADIL AEROLIZER Benefits

Provides feedback confirming that the full dose
was taken. The patient can

Hear the capsule spin in the inhaler during
inhalation
Feel a mildly sweet taste on the back of the
throat
See that the medication has been inhaled

Eliminates the need for hand-breath coordination
98 of patients were able to use the AEROLIZER
inhaler correctly in a randomized study of 98
adult asthma patients

Eliraz A et al. Int J Clin Pract.
200155164-170.
46
FORADIL AEROLIZER Follow the 4 Ps

Peel paper backing from blister card, and push
capsule through remaining foil immediately before
use
Put capsule in AEROLIZER inhaler chamber and
twist mouthpiece closed. Never place capsule
directly into mouthpiece
Press both side buttons once and release, with
AEROLIZER inhaler held upright
Place mouth on mouthpiece and inhale, with
AEROLIZER inhaler held with blue buttons
pointing sideways

47
FORADIL AEROLIZER Summary in the Management of
COPD