Respiratory Drugs - Chapter 37 PDF

Summary

This document details respiratory drugs, covering different types of the respiratory system and their diseases. It explains the function of the respiratory system and discusses several diseases such as asthma and COPD. The document also presents a pharmacological overview, including the types of bronchodilators.

Full Transcript

Chapter 37

Respiratory Drugs
By: Dr. Athena Watkins
 Main Deliver
function of oxygen to
and remove
the carbon
dioxide from
respiratory the cells of
the body
system

Upper respiratory
tract (URT)
Overvie
w Lower respiratory
tract (LRT)

Alveoli: Point of gas
exchange

2
 Chronic obstructive
pulmonary disease
(COPD)
Diseases
Asthma (persistent and
of the present most of the time
Lower despite treatment)
Emphysema
Respirat
Chronic bronchitis
ory Tract

3
 Recurrent and
reversible shortness of
breath
Occurs when the
airways of the lungs
become narrow as a
Bronch result of:
ial Bronchospasms
Inflammation of the
Asthma bronchial mucosa
Edema of the bronchial
mucosa
Production of viscous
mucus
4
 The alveolar ducts
and alveoli remain
open, but airflow to
Bronch them is obstructed.
ial Symptoms
Asthma Wheezing
(Cont.) Difficulty breathing

5
 Asthma

Four categories
Intrinsic (occurring in patients with no
history of allergies)
Extrinsic (occurring in patients exposed
to a known allergen)
Exercise induced
Drug induced
6
Asthma (Cont.)
Status asthmaticus
Prolonged asthma
attack that does not
respond to typical drug
therapy
May last several
minutes to hours
Medical emergency
7
 Chronic Obstructive
Pulmonary Disease (COPD)

Chronic
obstruction of
Chronic
lung airflow Not fully
bronchitis &
that interferes reversible
emphysema
with normal
breathing

8
 Chronic Bronchitis

Continuous Excessive secretion of Often occurs as a
inflammation and low- mucus and certain result of prolonged
grade infection of the pathologic changes in exposure to bronchial
bronchi the bronchial structure irritants

9
 Air spaces enlarge as a result of the
destruction of alveolar walls.

Caused by the effect of proteolytic
enzymes released from leukocytes in
response to alveolar inflammation
Emphyse
ma
The surface area where gas exchange
takes place is reduced.

Effective respiration is impaired.

10
Pharmacologic Overview

Bronchodilators
These drugs relax bronchial smooth
muscle, which causes dilation of the
bronchi and bronchioles that are
narrowed as a result of the disease
process.
Three classes: beta-adrenergic agonists,
anticholinergics, and xanthine derivatives
11
 Short-acting beta
agonist (SABA)
inhalers
Albuterol (Ventolin,
ProAir)
Bronchodilat Levalbuterol (Xopenex)
ors: Beta- Terbutaline (Brethine)
Adrenergic
Agonists Metaproterenol
(Alupent)
SABAs are used as
rescue inhalers for
acute episodes

12
 Bronchodilators: Beta-
Adrenergic Agonists
Long-acting beta agonist (LABA)
inhalers
*LABAs are never used for acute
treatment!
Arformoterol (Brovana)
Formoterol (Foradil, Perforomist)
Salmeterol (Serevent)
13
 Used during acute
phase of asthmatic
attacks

Bronchodilato
Quickly reduce airway
rs: Beta- constriction and
Adrenergic restore normal airflow
Agonists

Agonists, or
stimulators, of Sym
the adrenergic path
omi
receptors in the meti
sympathetic cs
nervous system

14
 Three types
Nonselective adrenergics
Stimulate alpha, beta1
(cardiac), and beta2
(respiratory) receptors
Example: epinephrine
(EpiPen)
Bronchodilat Nonselective beta-adrenergics
ors: Beta-
Adrenergic Stimulate both beta1 and
Agonists beta2 receptors
(Cont.) Example: metaproterenol
Selective beta2 drugs
Stimulate only beta2
receptors
Example: albuterol

15
Beta-Adrenergic Agonists:
Mechanism of Action

Begins at the specific Ends with dilation of
receptor stimulated the airways
Activation of beta2 receptors
activates cyclic adenosine
monophosphate (cAMP), which
relaxes smooth muscle in the airway
and results in bronchial dilation and
increased airflow.
16
 Relief of
bronchospasm
related to asthma,
bronchitis, and
other pulmonary
Beta- diseases
Adrener
gic Used in treatment
Agonists and prevention of
acute attacks
:
Indicati
ons Used in
hypotension and
shock

17
 Alpha and beta
(epinephrine)
Insomnia
Beta-
Restlessness
Adrener Anorexia
gic Vascular headache
Agonist Hyperglycemia
s: Tremor
Adverse Cardiac stimulation
Effects

18
 Long-acting beta2 agonist
Beta- bronchodilator

Adrener
gic Never to be used for acute
Agonists treatment

:
Used for the maintenance
treatment of asthma and
Salmete COPD and is used in
conjunction with an inhaled
rol corticosteroid

(Sereve Salmeterol should never be
nt) given more than twice daily
nor should the maximum
daily dose (one puff twice
daily) be exceeded.

19
 Acetylcholine
(ACh) causes
bronchial
constriction and
narrowing of the
airways.

Anticholinergics
Anticholinergi
bind to the ACh
cs: receptors,
Mechanism of preventing ACh
Action from binding.

Result:
bronchoconstrictio
n is prevented,
airways dilate

20
 Ipratropium (Atrovent),
tiotropium (Spiriva), and
aclidinium (Tudorza), others

Indirectly cause airway
relaxation and dilation
Anticholinergi
cs:
Mechanism of
Action (Cont.)
Help reduce secretions in
COPD patients

Indications: prevention of the
bronchospasm associated
with chronic bronchitis or
emphysema; not for the
management of acute
symptoms

21
 Dry mouth or throat

Nasal congestion

Heart palpitations

Anticholinergi
cs: Adverse Gastrointestinal (GI) distress
Effects
Headache

Coughing

Anxiety

22
 Cause bronchodilation by
relaxing smooth muscle in
the airways

Result: relief of
Xanthine bronchospasm and greater
airflow into and out of the
Derivativ lungs

es:
Drug Also cause central nervous
system (CNS) stimulation
Effects
Also cause cardiovascular
stimulation: increased force
of contraction and increased
heart rate, resulting in
increased cardiac output
and increased blood flow to
the kidneys (diuretic effect)

23
 Dilation of airways in asthmas,
chronic bronchitis, and
emphysema
Mild to moderate cases of acute
asthma
Xanthine
Derivativ NOT for management of acute
es: asthma attack

Indicatio
Adjunct drug in the management
ns of COPD

Not used as frequently because
of potential for drug interactions
and variables related to drug
levels in the blood
24
 Nausea, vomiting, anorexia

Gastroesophageal reflux
during sleep
Xanthine
Derivativ Sinus tachycardia,
es: extrasystole, palpitations,
ventricular dysrhythmias
Adverse
Effects Transient increased
urination

Hyperglycemia

25
 Used without
prescription as a CNS
stimulant or analeptic to
promote alertness (e.g.,
for long-duration driving
Xanthine Cardiac stimulant in
or studying)
Derivativ infants with bradycardia
es:
Caffeine
Enhancement of
respiratory drive in
infants

26
 Nonbronchodil
ating
Newer class of
Leukotri asthma
ene medications
Receptor
Antagoni Currently
sts available drugs
(LTRAs) Montelukast
(Singulair)
Zafirlukast
(Accolate)
Zileuton (Zyflo)
27
 Leukotrienes are substances
released when a trigger, such as
cat hair or dust, starts a series of
chemical reactions in the body.

Leukotrienes cause
inflammation,
bronchoconstriction, and mucus
production.
LTRAs:
Mechani Result: coughing, wheezing,
shortness
sm of of breath

Action LTRAs prevent leukotrienes from
attaching to receptors on cells in
the lungs and in circulation.

Inflammation in the lungs is
blocked, and asthma symptoms
are relieved.

28
 By blocking
leukotrienes:
Prevent smooth muscle
LTRA contraction of the
bronchial airways

s: Decrease mucus
secretion
Prevent vascular
Drug permeability
Decrease neutrophil and
Effect leukocyte infiltration
to the lungs, preventing
Black Box warning
s inflammation
for montelukast
Serious mood related
changes and behaviours

29
 Prophylaxis and long-term
treatment and prevention of
asthma in adults and children
12 years of age and older
Not meant for management
of acute asthmatic attacks
LTRAs:
Indicati Montelukast is also approved
ons for treatment of allergic
rhinitis

Improvement with their use
is typically seen in about 1
week.

30
 Zileuton
LTRAs
: Headache,
Adver nausea,
se Zafirlukast
dizziness,
insomnia
and
Effect
s montelukast
Headache,
nausea, diarrhea
31
 Antiinflammatory
properties

Used for chronic asthma

Do not relieve symptoms of
Corticosteroid acute asthma attacks
s
(Glucocorticoi
ds) May be administered IV

Oral or Inhaled forms
reduce systemic
inhaled forms effects.

May take several weeks
before full
effects are seen

32
 Corticosteroids:
Mechanism of Action
Stabilize membranes of cells that release
harmful bronchoconstricting substances
These cells are called leukocytes, or white
blood cells.
Increase responsiveness of bronchial
smooth muscle to beta-adrenergic
stimulation
Dual effect of both reducing inflammation
and enhancing the activity of beta
agonists 33
 Inhaled Corticosteroids
Beclomethasone dipropionate (Beclovent)
Budesonide (Pulmicort Turbuhaler)
Ciclesonide (Omnaris)
Flunisolide (AeroBid)
Fluticasone
Flovent—inhaler
Flonase--intranasal
Mometasone (Asmanex)
Triamcinolone acetonide (Azmacort)
34
 Nursing Implications
Encourage patients to take measures that
promote a generally good state of health so
as to prevent, relieve, or decrease
symptoms of COPD.
Avoid exposure to conditions that precipitate
bronchospasm (allergens, smoking, stress, air
pollutants).
Adequate fluid intake
Compliance with medical treatment
Avoid excessive fatigue, heat, extremes in
temperature, and caffeine. 35
 Nursing Implications (Cont.)
Encourage patients to get prompt
treatment for flu or other illnesses and to
get vaccinated against pneumonia or flu.
Encourage patients to always check with
their physicians before taking any other
medication, including over-the-counter
(OTC) medications.

36
 Nursing Implications (Cont.)
Perform a thorough assessment before beginning
therapy, including:
Skin color
Baseline vital signs
Respirations (should be between 12 and 24
breaths/min)
Respiratory assessment, including pulse oximetry
Sputum production
Allergies
History of respiratory problems
Other medications
Smoking history 37
 Nursing Implications (Cont.)
Teach patients to take bronchodilators
exactly as prescribed.
Ensure that patients know how to use
inhalers and MDIs and have patients
demonstrate use of the devices.
Monitor for adverse effects.

38
 Which medication will the
nurse teach a patient with
asthma to use when
Audien experiencing an acute asthma
attack?
ce
Respon A. Albuterol
se B. Salmeterol

System C. Theophylline
D. Montelukast
Questio
n #1 NOTE: No input is required to
proceed.
39
 Monitor for therapeutic
effects:
Decreased dyspnea
Decreased wheezing,
restlessness, and anxiety
Nursing Improved respiratory
patterns with return to
Implicatio normal rate and quality
ns Improved activity
tolerance
Decreased symptoms and
increased ease of
breathing

40
 Albuterol, if used too
frequently, loses its
beta2-specific actions
at larger doses &
Nursing causes systemic
Implicatio effects
ns: As a result, beta1
Beta- receptors are
Adrenergi stimulated, causing
c Agonists nausea, increased
anxiety, palpitations,
tremors, and
increased heart rate.
41
 Audience Response System
Question #2

A patient with chronic bronchitis calls the office for a refill of his
albuterol inhaler. He just had the prescription filled 2 weeks ago, but
he says it is empty. When asked, he tells the nurse, “I use it
whenever I need it, but now when I use it, I feel so sick. I’ve been
needing to use it more often.” What is the most appropriate action
by the nurse?

A. The nurse should confirm the pharmacy location for the needed
refill.
B. The nurse should ask the patient to come to the office for an
evaluation of his respiratory status.
C. The nurse should tell the patient not to use this drug too often.
D. The nurse should consult the prescriber for a different inhaler
prescription.

NOTE: No input is required to proceed. 42
 Ensure that the drug
is being used for
chronic management
of asthma, not acute
asthma.
Nursing
Implicatio Teach the patient the
ns: purpose of the
LTRAs therapy.
Improvement should
be seen in about 1
week.
43
 Teach patients to gargle
and rinse the mouth with
lukewarm water afterward
to prevent the
development of oral
fungal infections.
Nursing If a beta agonist
Implication bronchodilator and
s: corticosteroid inhaler are
Inhaled both ordered, the
Corticoster bronchodilator should be
oids used several minutes
before the corticosteroid
to provide bronchodilation
before administration of
the corticosteroid.
44
 Teach patients
to monitor
disease with a
peak flow meter.

Nursing
Encourage use
Implications
of a spacer
: device to ensure
Inhaled successful
Corticostero inhalations.
ids (Cont.)
Teach patient
how to keep
inhalers and
nebulizer
equipment clean
after use.
45
 Inhalers: Patient Education
For any inhaler prescribed, ensure that the
patient is able to self-administer the
medication.
Provide demonstration and return
demonstration.
Ensure that the patient knows the correct time
intervals for inhalers.
Provide a spacer if the patient has difficulty
coordinating breathing with inhaler activation.
Ensure that the patient knows how to keep track
of the number of doses in the inhaler device.
46
Audience Response System
Question #3
A patient is prescribed two different types of inhaled
medications for treatment of COPD. After administering
the first medication, how long should the nurse wait to
administer the second medication?

A. 1 minute
B. 5 minutes
C. 10 minutes
D. 15 minutes

NOTE: No input is required to proceed.

47
 Case Study
The nurse is providing teaching to a group of individuals
with COPD at a community center.
1. Which statement by one of the attendees indicates that
further teaching is needed?

A. “If I develop a puffy face, I will stop taking
methylprednisolone immediately.”
B. “I will inform my prescriber of any weight gain of 2 lb or
more in 24 hours or 5 lb or more in 1 week.”
C. “I use omalizumab to control my asthma but not for an
acute asthma attack.”
D. “When taking theophylline, I will advise my prescriber if I
experience epigastric pain.”

48
NOTE: No input is required to proceed.
 Case Study
One of the attendees expresses concern regarding her
granddaughter’s asthma. The attendee tells the nurse that
she is afraid that she will not know which of her
granddaughter’s medications to give first in case of an
asthma attack.
2. Which medication should the nurse inform the attendee
to administer first for an acute asthma attack?

A. Ipratropium
B. Albuterol
C. Budesonide
D. Montelukast

NOTE: No input is required to proceed. 49