Care of Clients with Oxygenation Problems PDF

Summary

This document provides an overview of the care of clients with problems in oxygenation by discussing respiratory system disorders. It covers management of patients with upper and lower respiratory tract problems, as well as chronic pulmonary diseases. The document includes various types of rhinitis, sinusitis, and management strategies.

Full Transcript

Care of Clients
with Problems in
Oxygenation
Marlon A. Allecer, RN
Respiratory systems disorder

 II. Management of Patients with Upper
Respiratory Tract Disorders
1. Describe nursing management of patients with
upper airway disorders.
2. Discuss upper respiratory tract infections according
to cause, incidence, clinical manifestations, and
management.
3. Use the nursing process in caring for patients with
upper airway infection
Respiratory systems disorder

III. Management of Patients with Chest and
Lower Respiratory Tract Disorders
1. Compare the various pulmonary infections
with regard to causes, clinical
manifestations, nursing management,
complications, and prevention.
2. Describe preventive measures appropriate
for controlling and eliminating occupational
lung disease.
Respiratory systems disorder

IV. Management of Patients with Chronic Pulmonary
Disease
1. Describe the pathophysiology, clinical manifestations,
treatment, and medical and nursing management of chronic
pulmonary diseases
2. Discuss the major risk factors for developing chronic
obstructive pulmonary disease and nursing interventions to
minimize or prevent these risk factors
3. Develop an education plan for patients with chronic
obstructive pulmonary disease.
UPPER RESPIRATORY
DISORDERS
Types of Rhinitis
1. Allergic Rhinitis - is the reaction of the nasal
mucosa to a specific allergen.
❑Allergic rhinitis can be classified according to the
causative allergen (seasonal or perennial) or,
❑ the frequency of symptoms (episodic,
intermittent, or persistent).
❑ Episodic refers to symptoms related to sporadic
exposure to allergens that are not typically
encountered in the patient’s normal environment,
such as exposure to animal dander when visiting
another person’s home.
 Allergic Rhinitis …
❑Intermittentmeans that the symptoms are present
less than 4 days a week or less than 4 weeks per
year.
❑Persistent means that the symptoms are present
more than 4 days a week and for more than 4
weeks per year

7 By Abdi Wakjira( Bsc, Msc) 11/20/2024
 Pathophysiology
Sensitization to an allergen occurs with initial allergen exposure,
which results in the production of antigen-specific immunoglobulin
E (IgE).
 After exposure, mast cells and basophils release histamine,
cytokines, prostaglandins, and leukotrienes.
 These cause the early symptoms of sneezing, itching,
rhinorrhea, and congestion.
 Four to 8 hours after exposure, inflammatory cells infiltrate
the nasal tissues, causing and maintaining the inflammatory
response.
 Because symptoms of rhinitis resemble those of the common
cold, the patient may believe the condition is a continuous or
repeated cold.
 Clinical Manifestations
 Manifestations of allergic rhinitis are initially
sneezing; watery, itchy eyes and nose; altered
sense of smell; and thin, watery nasal discharge that
can lead to a more sustained mucus production and
nasal congestion.
 The nasal turbinates appear pale,boggy, and
swollen.
 C/M is characterized by 4 cardinal symptoms of
watery Rhinorrhoea, nasal obstruction, nasal itching
and sneezing.
 Clinical Manifestations Cont…d
 The posterior ends of the turbinates can become so
enlarged that they obstruct sinus aeration or
drainage and result in sinusitis.
 With chronic exposure to allergens, the patient’s
responses include headache, congestion, pressure,
nasal polyps, and postnasal drip as the most
common cause of cough.
 The patient may complain of cough, hoarseness,
and the recurrent need to clear the throat.
Congestion may cause snoring
DIAGNOSIS OF Allergic Rhinitis
The diagnosis of AR is based on a typical history of allergic
symptoms and diagnostic tests.
When 2 or more symptoms out of watery Rhinorrhoea,
sneezing, nasal obstruction and nasal pruritus persist for ≥1
hour on most days, Allergic Rhinitis is strongly suspected
Skin testing
Skin testing is the most important to find offending allergens.
There are various testing methods including the scratch, prick/
puncture, intradermal and patch tests.
 The radioallergosorbent test (RAST);Serum specific
IgE level
Multiple allergen simultaneous test (MAST); uses a
photo reagent instead of a radioactive isotope,
TREATMENT OF ALLERGIC RHINITIS
 Requires a stepwise approach depending on the
severity and duration of symptoms.
 Treatment options for AR consist of
a) Allergen avoidance,
b) Pharmacotherapy,
c) Immunotherapy and
d) Surgery.
The four major categories of medications used to
manage cold symptoms are antihistamines,
decongestants, antitussives, and expectorants.
 Pharmacotherapy
An over-the-counter (OTC), non-sedating
antihistamine
Competitively inhibit the interaction of histamine
with H1 receptors.
They prevent and relieve nasal itching, sneezing, and
Rhinorrhoea, and ocular symptoms,
e.g.
Loratadine 10 mg once daily
Desloratadine 5 mg once daily
Cetirizine 10 mg once daily or divided BID
Levocetirizine 5 mg once daily in the evening
Intranasal corticosteroids

Are potent inhibitors of the late-phase allergic
reaction in Allergic Rhinitis.
They inhibit recruitment of Langerhans cells,
macrophages, mast cells, T cells, and eosinophils into
the nasal mucosa
They control itching, sneezing, Rhinorrhoea, and
stuffiness
E.g.
Beclomethasone dipropionate 2 sprays EN/day
Fluticasone (Flonase), 1–2 sprays EN /day
Decongestants
❖Decrease swelling of the nasal mucosa which, in turn,
alleviates nasal congestion
e.g. Oxymetazoline nasal spray
Pseudoephedrine 60 mg every 4-6 h
pills 120mg ER every 12h
240mg ER once daily
 NURSING AND COLLABORATIVE
MANAGEMENT
 The most important step in managing allergic rhinitis
is identifying and avoiding triggers of allergic
reactions
 The goal of medications is to reduce inflammation
associated with allergic rhinitis, reduce nasal
symptoms, minimize associated complications, and
maximize quality of life.
 Appropriate oral medication options include:
H1-antihistamines, corticosteroids, decongestants, and
leukotriene receptor antagonists (LTRAs).
 NURSING AND COLLABORATIVE
MANAGEMENT Cont …d
 Second-generation antihistamines are
preferred over first generation antihistamines
because of their nonsedating effects.
 Remind patients who are taking
antihistamines to have adequate fluid intake to
reduce adverse symptoms.
 Nasal corticosteroid sprays are used to
decrease inflammation locally with little
absorption in the systemic circulation.
 Therefore, systemic side effects are rare.
 2. Non-Allergic Rhinitis
This form of rhinitis does not depend on the
presence of IgE and is not due to an allergic
reaction.

The symptoms can be triggered by cigarette
smoke and other pollutants as well as strong
odors, alcoholic beverages, and cold.

Other causes may include blockages in the nose,
a deviated septum, infections, and over-use of
medications such as decongestants.
 3. Acute viral Rhinitis
 Acute viral rhinitis (common cold or acute coryza) is
an infection of the upper respiratory tract that can
be caused by more than 200 different viruses.
 The majority of colds, which are caused by
rhinoviruses, are mild and self-limiting.
 Cold symptoms may last 2 to 14 days, with typical
recovery in 7 to 10 days.
 Caution patients to use the intranasal
decongestant sprays for no more than 3 days to
prevent rebound congestion from occurring.
 Cough suppressants may be used.
 3. Acute viral Rhinitis Cont…d
 Complications of acute viral rhinitis include
pharyngitis,
sinusitis, otitis media, tonsillitis, and lung infections.
 Unless symptoms of complications are present,
antibiotic therapy is not indicated.
 If symptoms remain for 10 to 14 days with no
improvement, acute bacterial sinusitis may be
present, and antibiotics will be prescribed.
 Teach the patient to recognize the symptoms of
secondary bacterial infection, such as a temperature
higher than 100.4° F (38° C); tender, swollen glands;
severe sinus or ear pain; or significantly worsening
symptoms.
 Sinusitis
Four pairs of paranasal
sinuses

1. Frontal-above eyes in
forehead bone

2. Maxillary-in cheekbones,
under eyes

3. Ethmoid-between eyes and
nose

4. Sphenoid-in center of skull,
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behind nose and eyes
 Sinusitis---
An acute inflammatory process
involving one or more of the
paranasal sinuses.

A complication of 5%-10% of
URIs in children.

Persistence of URI symptoms
>10 days without
improvement.

Maxillary and ethmoid
sinuses are most frequently
involved.
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 Types of Sinusitis
It is typically classified by:_

 Duration of illness (acute vs. Chronic)

 Etiology (infectious vs. Noninfectious)

 Pathogen type (viral, bacterial, or fungal)

1. Acute Sinusitis – respiratory symptoms last
longer than 10 days but less than 30 days.

2. Sub acute sinusitis – respiratory symptoms
persist longer than 30 days without improvement.

3. Chronic sinusitis – respiratory symptoms last
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longer than 120 days.
 Pathophysiology of sinusitis
Rhinitis or abrupt pressure changes (air
planes, diving) or dental extractions or
Inflammation
infections. and edema of mucous
membranes lining the sinuses cause
obstruction.
With inflammation, the mucosal lining of the
sinuses produce mucoid drainage. Bacteria invade
and pus accumulates inside the sinus cavities.
Postnasal drainage causes obstruction of nasal
passages and an inflamed throat.

If the sinus orifices are blocked by swollen
mucosal lining, the pus cannot enter the nose and
builds up pressure inside the sinus cavities
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 Predisposing Factors
⧫Allergies,
⧫Cold weather
⧫High pollen counts
⧫Day care attendance
⧫Smoking in the home
⧫Reinfection from siblings

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 Predisposing Factors
⧫Anatomical: septal deviation, nasal
deformities, nasal polyps
⧫Mucociliary functions: cystic fibrosis,
immotile cilia syndrome.
⧫Systemic disease: immune
deficiency.: DM, AIDS,
⧫Neoplasia

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 Etiology
Acute sinusitis Chronic sinusitis
Str. pneumoniae Anaerob bacteria:
%41 ✓ Bactroides,
H. influenzae %35 fusobacterium
M. catarrhalis %8 ✓ S. Aureus
Others %16 ✓ Strep. Pyogenes
✓ Strep. pyogenes ✓ Str. Pneumoniae
✓ S. aureus ✓ Gram (-) bacteria
✓ Rhinovirus fungi
✓ Parainfluenzae
✓ Veilonella,
peptococcus
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Signs and Symptoms
Headache, congestion, facial pain, fatigue, and
cough,
Purulent nasal discharge.
Pain over the region of the affected sinuses
If a maxillary sinus is affected, the
patient experiences pain over the cheek
and upper teeth.
In ethmoid sinusitis, pain occurs
between and behind the eyes.
Pain in the forehead typically indicates
frontal sinusitis.
Fever may be present in acute infection, with or
without generalized fatigue and foul breath.
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Diagnosis of sinusitis
History ;persistent symptom of URI and physical findings
Radiographic studies
Opacification and mucosal thickening air filled
level
Others :
Translumination of sinus cavity
Sinus aspirate culture
Nasal endoscopy
If repeated episodes occur:-
✓ x-ray examination
✓ computed tomography (CT) scan
✓ magnetic resonance imaging (MRI)
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Treatment of Sinusitis
Nondrug measures :
❖ Maintain adequate hydration(drink 6-10glasses of
liquid )
❖ Personal Steam vaporizer

❖ Apply warm facial packs (warm wash cloth, hot
water bottle)
❖ Saline irrigation lavage or sniff (1/4 teaspoon salt
dissolved in 1cup of water )
❖ Sleep ahead of bed elevated

❖ Adequate rest

❖ Avoid cigarette smoke and extremely dry or cool
air
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Drug Treatment
Antibiotics
First-line:
Amoxicillin, 1.5 to 3.5 g/d divided 2 or 3 times daily)
Trimethoprim–sulfamethoxazole 800/160 mg twice
daily
Second-line:
Amoxicillin–Clavulanate (500/125 mg 3 times daily)
Second- or third-generation cephalosporin
Cefuroxime, 250 or 500 mg twice daily,
❑ Doxycycline 200 mg on first day then 100 mg twice
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 Antibiotics----
Macrolides :
Clarithromycin, 500 mg twice daily or
Azithromycin, 500 mg daily for 5 days
Fluoroquinolones :
Ciprofloxacin, 500 twice a day or
Levofloxacin, 500 mg once daily
Oral antihistamines :Loratadine, 10 mg daily
Nasal decongestant: Xylometazoline intranasally, 2 to 3
sprays every 8 to 10 hr.
Nasal steriods :Fluticasone, 2 puffs) intranasally [200 µg] daily
Acetaminophen or ibuprofen is given for pain and fever.

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Nursing management
Patient teaching self care
Instruct patient to blow the nose gently and to use tissue to
remove the nasal drainage.
Increasing fluid intake,
Applying local heat (hot wet packs), and
Elevating the head of the bed promote drainage of the
sinuses.
Instructs the patient about the importance of medication
regimen.

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Tonsillitis
Tonsils are protective (lymph) glands that are situated on
both sides in the throat.
The tonsils constitute an important part of the body's
immune system and are vital defense organs.
They protect the body from bacteria and viruses by fighting
these as soon as they enter the body (via the oral / nasal
cavity).
Inflammatory process of the mucosa and structures of the
pharyngo-tonsillar area, usually of infectious origin
Tonsillitis is contagious.
It affects all ages, but is most common in children between
ages 5 and 10

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 Tonsillitis ---

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 Clinical Manifestations
Throat pain, either mild or severe.
Swallowing with difficulty.
Odynophagia, pharyngeal exudate, anterior cervicolateral
lymphadenopathy, scarlet rash and headache
Chills and fever as high as 104° F (40° C) or more.
Swollen lymph glands on either side of the jaw.
Ear pain.
Cough (sometimes).
Vomiting (sometimes).
Refusal to eat in a very young child.
Erythema,
Edema,
Ulcer or vesicles

11/20/2024 36
 Causes of Tonsillitis
❖ Viruses: Rhinovirus, adenovirus, influenza virus,

Para influenza virus,Coxsackie virus and Epstein-

Barr virus

❖ Aerobic Bacteria: GABHS and other streptococcal

species, Neisseria gonorrhoeae, Corynebacterium

diphtheriae.

❖ Yeast :Candida species.

Spirochetes:Treponema pallidum (syphilis)
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 Causes ----

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 Assessment and Diagnostic
Findings
✓ History :look at throat to
see red and swollen
tonsils with spots or sores.
✓ Throat culture: rapid strep
test
✓ Blood test ;done to confirm
presence of infection
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 Medical Management
Bed rest, except to use the bathroom, is necessary
until fever subsides.
DIET
Supportive measures include Increase all fluid intake.
While the throat is very sore, use liquid nourishment,
such as milk shakes, soups, and high-protein fluids
(diet or instant-breakfast milk drinks).
Viral tonsillitis is not effectively treated with antibiotic
therapy.
Tonsillectomy if complicated

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 Antibiotic treatment of choice
 Penicillin V: 27 kg: 500mg / 12h
10 days
 Penicillin G Benzathine:
27 kg: 1.200.000 UI, single
dose

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 Antibiotic treatment of choice
 Amoxicillin: 50mg /kg/day, every 12-24 hours, 10
days, with a maximum dose of 500mg /12h or
1g/24h.
 Mediated by IgE:
- Azithromycin: 20mg/kg /day, once a day, 3
days (maximum 500mg/day)
- Clindamycin: 20-30mg/kg /day, every 8-12h, 10
days (maximum 900mg/day).

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 Indications for tonsillectomy
Recurrent tonsillitis (more than seven per year
Persistent, chronic tonsillitis
Recurrent peritonsillar abscess with previous
history of recurrent or persistent tonsillitis.
Unilateral tonsillar hypertrophy.
Hemorrhagic tonsillitis.
Chronic tonsillolithiasis.
Nasal obstruction with speech abnormalities,
orodental abnormalities.
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 Complications of tonsillitis
 Classified into suppurative and nonsuppurative
complications.
 The nonsuppurative complications include
Scarlet fever,
Acute rheumatic fever, and
Post-streptococcal glomerulonephritis.
Suppurative complications include
❖ Peritonsillar,
parapharyngeal and
retropharyngeal abscess formation.
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Pharyngitis
ACUTE PHARYNGITIS:is a sudden painful
inflammation of the pharynx, the back portion of the throat
that includes the posterior third of the tongue, soft palate,
and tonsils.
It is commonly referred to as a sore throat
Causes
⚫ Viral infection- most common(adenovirus, influenza
virus, Epstein-Barr virus, and herpes simplex virus)
⚫ Bacterial infection-Group A beta-hemolytic
streptococcal bacterial infection called strep throat.
 Cont….d
Pathophysiology
Viral/ strep throat infection
The body responds by triggering an inflammatory response
in the pharynx.
This results in pain, fever, vasodilation, edema, and tissue
damage, manifested by redness and swelling in the tonsillar
pillars, uvula, and soft palate.
A creamy exudate may be present in the tonsillar pillars
If caused by GA hemolytic streptococcus- it may be severe
If caused by uncomplicated virus- may be subside
promptly(3 to 10 days after the onset).
46
 Cont….d
Complications
Sinusitis

Otitis media

Peritonsillar abscess

Mastoiditis

Cervical adenitis

In rare cases, the infection may lead to bacteremia,
pneumonia, meningitis, rheumatic fever, and
nephritis.
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 Cont….d
Clinical features
Fiery-red pharyngeal membrane and tonsils
Lymphoid follicles that are swollen and flecked
with white-purple exudate, and enlarged
Tender cervical lymph nodes
No cough
Fever
Malaise
Sore throat

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 Cont….d

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 Cont….d
 Assessment and dxs
Accurate diagnosis of pharyngitis is essential to determine
the cause (viral or bacterial)
Newer and more rapid diagnostic tests (eg, the rapid
streptococcal antigen test (RSAT).
Medical mgt
For virus- supportive care
For bacterial-penicillin is a drug of choice if allergic and
resistance (clarithromycin and azithromycin) may be
used.
Analgesic medications, as prescribed( i.e. Aspirin or
acetaminophen)can be taken
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 Cont….d
Nursing management
Instructs the patient to:_
❖ Stay in bed during the febrile stage of illness and
❖ Full course of antibiotic therapy
Preventive measures
❖ Not sharing eating utensils, glasses, napkins, food, or
towels; cleaning telephones after use
❖ Using a tissue to cough or sneeze
❖ Disposing of used tissues appropriately
❖ Avoiding exposure to tobacco and secondhand smoke.
11/20/2024 51
Cont….d
Chronic pharyngitis:- is a persistent inflammation of the
pharynx.
Types
❖ Hypertrophic: characterized by general thickening and
congestion of the pharyngeal mucous membrane
❖ Atrophic: probably a late stage of the first type (the
membrane is thin, whitish, glistening, and at times
wrinkled)
❖ Chronic granular (“clergyman’s sore throat”),
characterized by numerous swollen lymph follicles on the
pharyngeal wall

11/20/2024 52
 Cont….d
Common in person :_
work in dusty surroundings
Use their voice to excess
Suffer from chronic cough
Habitually use alcohol and tobacco.
Clinical manifestation
Sense of irritation or fullness in the throat,
Mucus that collects in the throat and can be expelled by
coughing
Difficulty swallowing.

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 Cont….d
Medical management
Nasal congestion medications (ephedrine sulfate
(Kondon’s Nasal) or phenylephrine hydrochloride)
Antihistamine decongestant medications, such as
Pseudoephedrine.
For adults with chronic pharyngitis, tonsillectomy is an
effective option.
Nursing management
Avoid alcohol, tobacco, secondhand smoke, and exposure
to cold or to environmental or occupational pollutants.

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Larynxfrontsm
LARYNGITIS

55
 DEFINITION

It is the
inflammation of
larynx leading to
oedema of laryngeal
mucosa and
underlying
structures.
 ETIOLOGY
INFECTIOUS:
 Viral laryngitis can be caused by rhinovirus, influenza
virus, parainfluenza virus, adenovirus, coronavirus,
and RSV.
 Bacterial laryngitis can be caused by group A
streptococcus, streptococcus pneumoniae, C.
diphtheriae, M. catarrhalis,haemophilus
influenzae, bordetella pertussis, and M. tuberculosis.
 Fungal laryngitis can be caused by Histoplasma,
Candida (especially in immunocompromised persons)
57
NON-INFECTIOUS
 Inhaled fumes
 Acid reflux disease
 Allergies
 Excessive coughing, smoking, or alcohol
consumption.
 Inflammation due to overuse of the vocal cords
 Prolonged use of inhaled corticosteroids for asthma
treatment
 Thermal or chemical burns
 Laryngeal trauma, including iatrogenic one caused by
endotracheal intubation
Predisposing factors

 Smoking
 Psychological strain

 Physical stress

 Voice abuse misuse

 Acid reflux (GERD)

 Frequent sinus infectionsr

 Types – acute (less then 3
weeks)and chronic (more than 3
weeks )
 Pathophysiology
 Due to etiological factors
 The mucosa of the larynx becomes
congested and may become oedematous.
 A fibrinous exudate may occur on the
surface.
 Signs and symptoms

 Sometimes infection involves the
perichondrium of laryngeal cartilages
producing perichondritis.
 Types of Laryngitis
 1. Acute Laryngitis
 2. Chronic laryngitis
1. Acute laryngitis:
Def: It is the inflammation of larynx which
lasts less than a few days & leads to
edema of laryngeal mucosa & underlying
structures.
Most cases of AL are temporary &
improve after the underlying causes get
better.

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 Acute Laryn ….

 Frequently caused by ‘Rhinovirus”
 Other causative Organisms:

▪ Para influenza virus

▪ Respiratory syncytial virus

▪ Adeno virus

▪ Measles & Mumps

▪ Bacterial infection- such as Diphteria,
these are rae.
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  Vocal misuse, vocal strain or yelling
or over use of the voice.
 Exposure to noxious

 Viral infections such as that cause a
cold.
 Frank aphonia

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 Chronic Laryngitis

 Laryngitis that lasts more than 3
weeks is known as chronic laryngitis.
 More persistent disorder that
produces lingering hoarseness &
other voice changes
 It is usually painless & has no
significant sign of infection.

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 Etiology
 Vocal misuse
 Exposure to noxious agent.
 Infectious agents leading to upper
respiratory tract infections. Most often
viral but some times bacterial
 Inhaled irritants such as chemical
fumes, allergens or smoking.
 Acid reflex, also gastro esophageal
reflux disease (GERD)

11/20/2024 65
 Cont …d
 Chronic sinusitis, bronchitis
 Excessive alcohol use

 Habitual over use of the voice such as with singers
or cheerleaders.
 Smoking

Less common cause of chronic laryngitis include:
▪ Infections such as TB, syphilis or a fungal infections.

▪ Infections with certain parasites.

▪ Cancer

▪ Vocal cord paralysis, which can result from injury,
stroke or a lung tumor or other conditions.
11/20/2024 66
 Clinical features
 Husky, high pitched voice, Body aches, Fever, Malaise.
 Dysphonia (hoarseness) or aphonia (inability to speak)
 Dysphagia (difficulty in swallowing)
 Dyspnea (difficulty in breathing), predominantly in
children
 Dry, burning throat, Dry irritating paroxysmal cough.
 Cold or flu-like symptoms , Swollen lymph nodes in the
throat, chest, or face
 Hemoptysis (coughing out blood), Increased production
of saliva.
Clinical features Cont…d
 Signs of acute URTI.
 Dry thick sticky secretions.

 Dusky red and swollen vocal cords.

 congestion of laryngeal mucosa.
Treatment
SUPPORTIVE
 Voice rest.
 Steam inhalation.
 Cough suppressants.
 Avoid smoking and cold climate.
 Fluid intake.
 Diagnosis
 Based upon a combination of a
complete history & physical exam.
 If symptoms are severe, particularly
in children, the doctor may order an
x-ray of the neck & chest.
 CBC Some times in children rarely in
adults.

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 Laryngoscopy

 Visual examination of vocal cords in a
procedure called laryngoscopy, by using a
light & a tiny mirror to look in to the back
of the throat.
 Fiber optic -laryngoscopy
 Biopsy

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 Treatment
DEFINITIVE
 If laryngitis due to gastroesophageal reflux, an H2-
inhibitor (ranitidine) or proton-pump inhibitor
(omeprazole) is used to reduce gastric
acid secretions.
 If laryngitis is caused by thermal or chemical burns,
steroids are used.
 In viral laryngitis, drinking sufficient fluids will be
helpful.
 If laryngitis is due to a bacterial or fungal infection,
appropriate antibiotic or antifungal therapy is
given.
Supportive Therapy
 Drinking lot of fluids - Drink 7-9 glasses of water per
day; herbal tea and chicken soup also provides soothing
effect.
 maintaining good general health - Exercise regularly.
 Avoiding smoking - They are bad for the heart, lungs
and vocal tract.
 Eating a balanced diet - Include vegetables, fruits and
whole grain foods.
 Avoid dry, artificial interior climates.
 Do not eat late at night - may have problems when
stomach acid backs up on the vocal cords.
 Use a humidifier to assist with hydration.
Management of pt with respiratory disorder
Oxygen Therapy
❖ Is the administration of oxygen at a concentration greater than
that found in the environmental atmosphere
❖ The goal of oxygen therapy is to provide adequate transport of
oxygen in the blood while decreasing the work of breathing
and reducing stress on the myocardium
Indications
❖ Change in the patient’s respiratory rate or pattern( hypoxemia
or hypoxia)
❖ Need for oxygen is assessed by arterial blood gas analysis,
pulse oximetry, and clinical evaluation.

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 Oxygen therapy is the administration of oxygen at
a concentration greater than that found in the
environmental atmosphere.
 At sea level, the concentration of oxygen in room
air is 21%.
 The goal of oxygen therapy is to provide adequate
transport of oxygen in the blood while decreasing
the work of breathing and reducing stress on the
myocardium.
 Oxygen transport to the tissues depends on factors
such as cardiac output, arterial oxygen content,
concentration of hemoglobin, and metabolic
requirements.
 These factors must be kept in mind when oxygen
therapy is considered.
11/20/2024 75
 Indications
 A change in the patient’s respiratory rate or pattern
may be one of the earliest indicators of the need for
oxygen therapy.
 The change in respiratory rate or pattern may result
from hypoxemia or hypoxia.
 Hypoxemia - a decrease in the arterial oxygen
tension in the blood is manifested by changes in
mental status.
Such as:
▪ progressing through impaired judgment,

▪ agitation,

▪ 11/20/2024
disorientation, 76
 Indications Cont …d
 Sign & symptoms of hypoxemia include:
▪ confusion,
▪ lethargy, and coma,
▪ dyspnea,
▪ increase in blood pressure,
▪ changes in heart rate,
▪ dysrhythmias,
▪ central cyanosis (late sign),
▪ diaphoresis, and cool extremities.
▪ Hypoxemia usually leads to hypoxia, which is a
decrease in oxygen supply to the tissues.
Hypoxia, if severe enough, can be life-
threatening.
11/20/2024 77
 Indications Cont …d
 The signs and symptoms signaling the need
for oxygen may depend on how suddenly
this need develops.
 With rapidly developing hypoxia, changes
occur in the central nervous system
because the higher neurologic centers are
very sensitive to oxygen deprivation.
 The clinical picture may resemble that of
alcohol intoxication, with the patient
exhibiting lack of coordination and impaired
judgment.

11/20/2024 78

Indications Cont …d
Longstanding hypoxia (as seen in chronic
obstructive pulmonary disease [COPD] and chronic
heart failure) may produce fatigue, drowsiness,
apathy, inattentiveness, and delayed reaction
time.
 The need for oxygen is assessed by arterial blood
gas analysis and pulse oximetry as well as by
clinical evaluation.
Cautions in Oxygen Therapy
As with other medications, the nurse administers
oxygen with
caution and carefully assesses its effects on each
patient. Oxygen is a medication and except in
emergency situations is administered only when
prescribed by a physician.

11/20/2024 79
 Indications Cont …d
 In general, patients with respiratory conditions are
given oxygen therapy only to raise the arterial
oxygen pressure (PaO2) back to the patient’s
normal baseline, which may vary from 60 to 95 mm
Hg.
 In terms of the oxyhemoglobin dissociation curve
the blood at these levels is 80% to 98%
saturated with oxygen; higher inspired
oxygen flow (FiO2) values add no further
significant amounts of oxygen to the red
blood cells or plasma.

11/20/2024 80
 Indications Cont …d
Types of Hypoxia:
❑ Hypoxia can occur from either severe
pulmonary disease (inadequate oxygen
supply) or from extrapulmonary disease
(inadequate oxygen delivery) affecting
gas exchange at the cellular level.
❑ The four general types of hypoxia are
hypoxemic hypoxia, circulatory hypoxia,
anemic hypoxia, and histotoxic hypoxia.

11/20/2024 81
 Types of Hypoxia Cont …d
1. Hypoxemic Hypoxia
Hypoxemic hypoxia is a decreased oxygen level in
the blood resulting in decreased oxygen diffusion
into the tissues.
It may be caused by hypoventilation, high altitudes,
ventilation–perfusion mismatch (as in pulmonary
embolism), shunts in which the alveoli are collapsed
and cannot provide oxygen to the blood (commonly
caused by atelectasis), and pulmonary diffusion
defects.
It is corrected by increasing alveolar ventilation or
providing supplemental oxygen
11/20/2024 82
 Types of Hypoxia Cont …d
2. Circulatory Hypoxia
Circulatory hypoxia is hypoxia resulting
from inadequate capillary circulation.
It may be caused by decreased cardiac
output, local vascular obstruction, low-flow
states such as shock, or cardiac arrest.
Although tissue partial pressure of oxygen
(PO2) is reduced, arterial oxygen (PaO2)
remains normal.
Circulatory hypoxia is corrected by
identifying and treating the underlying
cause.
11/20/2024 83
 Types of Hypoxia Cont …d
❑ 3. Anemic Hypoxia
Anemic hypoxia is a result of decreased
effective hemoglobin concentration, which
causes a decrease in the oxygen-carrying
capacity of the blood. It is rarely accompanied
by hypoxemia.
❑ Carbon monoxide poisoning, because it
reduces the oxygen-carrying capacity of
hemoglobin, produces similar effects but is
not strictly anemic hypoxia because
hemoglobin levels may be normal

11/20/2024 84
 Types of Hypoxia Cont …d

4. Histotoxic Hypoxia
Histotoxic hypoxia occurs when a toxic
substance, such as cyanide, interferes with
the ability of tissues to use available oxygen

11/20/2024 85
 OXYGEN TOXICITY
 Oxygen toxicity may occur when too high a
concentration of oxygen (greater than 50%) is
administered for an extended period (longer than 48
hours).
 It is caused by overproduction of oxygen free
radicals, which are byproducts of cell metabolism.
 If oxygen toxicity is untreated, these radicals can
severely damage or kill cells.
Antioxidants such as vitamin E, vitamin C, and beta-
carotene may help defend against oxygen free
radicals. (Scanlan, Wilkins & Stoller, 1999).
11/20/2024 86
 OXYGEN TOXICITY Cont…d
Signs and symptoms of oxygen toxicity include:
 substernal discomfort,

 paresthesias,

 dyspnea,

 restlessness,

 fatigue,

 malaise,

 progressive respiratory difficulty, and

 alveolar infiltrates evident on chest x-rays.

11/20/2024 87
 SUPPRESSION OF VENTILATION
 In patients with COPD, the stimulus for respiration
is a decrease in blood oxygen rather than an
elevation in carbon dioxide levels.
 Thus, administration of a high concentration of
oxygen removes the respiratory drive.
 The resulting decrease in alveolar ventilation can
cause a progressive increase in arterial carbon
dioxide pressure (PaCO2), ultimately leading to
the patient’s death from carbon dioxide narcosis
and acidosis.
 Oxygen-induced hypoventilation is prevented by
administering oxygen at low flow rates (1 to 2
L/min).
11/20/2024 88
 OTHER COMPLICATIONS
 Because oxygen supports combustion, there
is always a danger of fire when it is used. It is
important to post “no smoking” signs when
oxygen is in use.
 Oxygen therapy equipment is also a potential
source of bacterial cross-infection; thus, the
nurse changes the tubing according to
infection control policy and the type of
oxygen delivery equipment.

11/20/2024 89
 Methods of Oxygen
Administration
 Oxygen is dispensed from a cylinder or a
piped-in system.
 A reduction gauge is necessary to reduce the
pressure to a working level, and a flow meter
regulates the flow of oxygen in liters per
minute.
 When oxygen is used at high flow rates, it
should be moistened by passing it through a
humidification system to prevent it from
drying the mucous membranes of the
respiratory tract.
11/20/2024 90
 Methods of Oxygen
Administration …
 Oxygen delivery systems are classified as low-flow or
high-flow delivery systems.
1. Low-flow systems contribute partially to the inspired
gas the patient breathes.
The amount of inspired oxygen changes as the patient’s
breathing changes.
Examples of low-flow systems include:
1. nasal cannula,
2. oropharyngeal catheter,
3. simple mask,
4. partial-rebreather and
5. non-rebreather masks.

11/20/2024 91
 Methods of Oxygen
2.
Administration …
High-flow systems provide the total amount of inspired air.
❑ A specific percentage of oxygen is delivered independent of the
patient’s breathing.
❑ High-flow systems are indicated for patients who require a
constant and precise amount of oxygen.
Examples of such systems include:
1. transtracheal catheters,
2. Venturi masks,
3. aerosol masks,
4. tracheostomy collars,
5. T-piece, and
6. face tents

11/20/2024 92
 Chest physiotherapy
▪ Includes postural drainage, chest percussion,
and vibration, and breathing retraining.

The goals of CPT are to remove bronchial
secretions, improve ventilation, and increase
the efficiency of the respiratory muscles.

11/20/2024 93
 Postural drainage

Allows the force of gravity to assist in the removal of
bronchial secretions.
The secretions drain from the affected bronchioles into
the bronchi and trachea and are removed by coughing
or suctioning.
Used to prevent or relieve bronchial obstruction caused
by accumulation of secretions.
Patient usually sits in an upright position, secretions are
likely to accumulate in the lower parts of the lungs.

11/20/2024 94
Positions used for postural drainage

11/20/2024 95
 Positions used for postural
drainage

11/20/2024 96
Positions used for postural drainage

11/20/2024 97
 Nursing Management

The nurse should be aware of:-
Patient’s diagnosis as well as the lung lobes or segments
involved
Cardiac status
Any structural deformities of the chest wall and spine
Auscultating the chest before and after the procedure is
used to identify the areas that need drainage and assess
the effectiveness of treatment
The nurse explores strategies that will enable the patient
to assume the indicated positions at home(use of objects
readily available at home, such as pillows, cushions, or
cardboard boxes

11/20/2024 98
 Cont…d
PD is usually performed two to four times
daily, before meals (to prevent nausea,
vomiting, and aspiration) and at bedtime
The nurse makes the patient as comfortable as
possible in each position and provides an
emesis basin, sputum cup, and paper
tissues.
If the patient cannot cough, the nurse may
need to suction the secretions mechanically.
11/20/2024 99
 Chest Percussion and Vibration
Thick secretions that are difficult to cough up may be
loosened.
Help dislodge mucus adhering to the bronchioles and
bronchi.
Percussion is carried out by cupping the hands and lightly
striking the chest wall in a rhythmic fashion over the lung
segment to be drained.
The patient uses diaphragmatic breathing during this
procedure to promote relaxation
percussion over chest drainage tubes, the sternum, spine,
liver, kidneys, spleen, or breasts (in women) is avoided.
Percussion is performed cautiously in the elderly (b/c of
increase incidence of osteoporosis and risk of rib fracture)
11/20/2024 100
 Vibration

Is the technique of applying manual
compression and tremor to the chest wall during
the exhalation phase of respiration
❖Helps increase the velocity of the air expired
from the small airways, thus freeing the mucus.
❖After three or four vibrations, the patient is
encouraged to cough, contracting the abdominal
muscles to increase the effectiveness of the
cough

11/20/2024 101
Fig. showing Percussion and vibration. A. Proper hand
position for vibration. B. Proper technique for vibration.
The wrists and elbows remain stiff; the vibrating
motion is produced by the shoulder muscles. C. Proper
hand position for percussion.
11/20/2024 102
 Nursing Management
❑The nurse ensures that the patient is
comfortable, is not wearing restrictive
clothing, and has not just eaten.
❑Gives medication for pain, as prescribed,
before percussion and vibration and splints any
incision and
❑ Provides pillows for support as needed.

11/20/2024 103
 Cont …d
Deep Breathing and Coughing
Effective coughing can keep the airways clear of
secretions.
An ineffective cough is exhausting and fails to bring up
secretions.
Instruct the patient to take two or three deep breaths,
using the diaphragm.
This helps get the air behind the secretions.
After the third deep inhalation, tell the patient to hold
the breath and cough forcefully.
This is repeated as necessary.
Good hydration can facilitate this process.

11/20/2024 104
 Incentive Spirometry

Def:
 Incentive spirometry, also referred to as sustained
maximal inspiration (SMI).
 Incentive Spirometry is designed to mimic natural
sighing or vomiting by encouraging the patient to
take long, slow, deep breaths.
 This is accomplished by using a device that provides
patients with visual or other positive feed back when
they inhale at a predetermined flow rate or volume
& sustain the inflation for at least 5 seconds.

11/20/2024 105
Purpose

 To increase tran-pulmonary pressure &
inspiratory volumes, improve inspiratory
muscle performance, & re- establish or
simulate the normal pattern of
pulmonary hyperinflation.
 When the procedure is repeated on a
regular basis, airway patency may be
maintained & lung atelectasis prevented
& reversed.

11/20/2024 106
 Cont …d

Indication:
Upper abdominal or thoracic- surgery

Lower abdominal surgery

 Prolonged bed rest

 Surgery in patients with COPD

 Lack of pain control

 Presence of thoracic or abdominal binders.

11/20/2024 107

Using an
The inhalation Incentive
of air, in a slowSpirometer
and controlled
manner, helps inflate the lungs.
 The marker within the spirometer will measure
the depth of each breath.
 Assume an upright position if possible (sitting or
semi-Fowler’s).
 Breathe using your diaphragm.
 Place mouthpiece firmly in the mouth, to breathe
in deeply and slowly, holding each breath in for
3–4 seconds and exhaling slowly.
 Repeat 6–10 times per session.
 Use spirometer every hour while awake (keep it
within reach).
 Try coughing, with splinting of incision, after each
use.
11/20/2024 108
Incentive spirometer

 How to use an incentive spirometer

11/20/2024 109
 ARTIFICIAL AIRWAYS
 The patient with an airway disorder such as a laryngeal
obstruction or cancer may require the use of a
temporary or, in some cases, a permanent artificial
airway.
 Two types of artificial airways that may be used include
an endotracheal tube (ETT) or a tracheostomy tube.
 General recommendations are to favor a
tracheostomy tube rather than ETT if the patient
will be intubated for 21 days or greater, and to
favor the ETT over a tracheostomy if support will
be required for 10 days or less (Morris et al.,
2013).
11/20/2024 110
 ARTIFICIAL AIRWAYS Cont…d
ETT and tracheostomy tubes have several
disadvantages.
 The tubes cause discomfort,

 the cough reflex is depressed because
closure of the glottis is hindered, and
 Secretions tend to become thicker because
the warming and humidifying effect of the
upper respiratory tract has been bypassed.
11/20/2024 111
 ARTIFICIAL AIRWAYS Cont…d
 The swallowing reflexes are depressed
because of prolonged disuse and the
mechanical trauma produced by the
endotracheal or tracheostomy tube, thus
increasing the risk of aspiration.
 In addition, ulceration and stricture of the
larynx or trachea may develop.
 Of great concern to the patient is the inability
to talk and to communicate needs.
11/20/2024 112
Endotracheal intubation
involves passing an endotracheal tube through
the mouth or nose into the trachea.

11/20/2024 113
 Cont …d

It is a means of providing an airway for patients
who cannot maintain an adequate airway on their
own
Comatose patients,
Patients with upper airway obstruction),
For patients needing mechanical ventilation,
For suctioning secretions from the pulmonary
tree
11/20/2024 114
 Cont …d

Tracheotomy
is a surgical procedure in which an opening is made into the trachea.
The indwelling tube inserted into the trachea is called a tracheostomy
tube
It may be either temporary or permanent.
Equipment
✓ Sterile gloves
✓ Hydrogen peroxide
✓ Normal saline solution or sterile water
✓ Cotton-tipped applicators
✓ Dressing
✓ Twill tape
✓ Type of tube prescribed, if the tube is to be changed

11/20/2024 115
 Cont …d
A tracheotomy is used
To bypass an upper airway obstruction,
To allow removal of tracheobronchial secretions,
To permit the long-term use of mechanical
ventilation,
To prevent aspiration of oral or gastric secretions
in the unconscious or paralyzed patient (by closing
off the trachea from the esophagus)
To replace an endotracheal tube

11/20/2024 116
Tracheostomy tube in place

11/20/2024 117
Tracheostomy tubes. A. Cuffed tracheostomy tube; used for
patients on mechanical ventilation. B. Cuffed fenestrated tube;
allows the patient to talk. C. Uncuffed tracheostomy tube; not
used for adult patients on mechanical ventilation; often used for
permanent tracheostomy patients who are not ventilator
dependent.

11/20/2024 118
 Nursing Management

Continuous monitoring and assessment.
Newly made opening must be kept patent by proper
suctioning of secretions.
The patient is placed in a semi-fowler’s position to
facilitate ventilation, promote drainage, minimize
edema, and prevent strain on the suture lines After
the vital signs are stable
Analgesia and sedative agents must be administered
with caution because of the risk of suppressing the
cough reflex.
11/20/2024 119
 Preventing Complications Associated With
Endotracheal and Tracheostomy Tubes

Administer adequate warmed humidity.
Maintain cuff pressure at appropriate level.
Suction as needed per assessment findings.
Maintain skin integrity.
Change tape and dressing as needed or per protocol.
Auscultate lung sounds.
Monitor for signs and symptoms of infection,
including temperature and white blood cell count.
11/20/2024 120
 Cont …d

Administer prescribed oxygen and monitor
oxygen saturation.
Monitor for cyanosis.
Maintain adequate hydration of the patient.
Use sterile technique when suctioning and
performing tracheostomy care.

11/20/2024 121
 Lower
Respiratory
Tract
Disorders

11/20/2024 122
 Pneumonia
❖ Pneumonia (from the Greek pneuma, “breath”) is a
potentially fatal infection and inflammation of the
lower respiratory tract (i.e., bronchioles and alveoli)
usually caused by inhaled bacteria and viruses
❖ Is an inflammation of the lung parenchyma.
❖ Is a lung infection involving the lung alveoli (air
sacs) and can be caused by microbes, including
bacteria, viruses, or fungi.
 Pneumonitis -- immune-mediated inflammation of
alveoli

11/20/2024 123
 Pneumonia
Clinical Definition
Symptoms of acute LRT infection
a) Cough, sputum, chest pain
b) Fever,sweating,shiver, aches and pains
New focal chest signs on examination OR
New radiographic pulmonary infiltrates

11/20/2024 124
 Classification of pneumonia

Based on causative agent
Bacterial or typical pneumonia,
Atypical pneumonia
Viral pneumonia
Fungal pneumonia etc

11/20/2024 125
 Pneumonia

 Anatomic(morphological) classification
Lobar pneumonia- homogeneous consolidation of
one or more lung lobes
Broncho- pneumonia- multiple patchy shadows in a
localized or segmental area.

11/20/2024 126
Bronchopneumonia
 Infants + young children and the elderly.
 Usually secondary to other conditions associated with local
and general defense mechanisms:
Viral infections (influenza, measles)
Aspiration of food or vomitus
Obstruction of a bronchus (foreign body or
neoplasm)
 Inhalation of irritant gases
Major surgery
Chronic debilitating diseases, malnutrition

11/20/2024 127
 Lobar pneumonia:
⧫ S. pneumoniae.

⧫ Previously healthy individuals.

⧫ Abrupt onset.

⧫ Unilateral stabbing chest pain on inspiration
(due to fibrinous pleurisy).

11/20/2024 128
 Types of Pneumonia

Community-acquired pneumonia(CAP)
⧫ Infection of the pulmonary parenchyma
acquired from exposure in the community
⧫ Occurs either in the community setting
or within the first 48 hours after
hospitalization or institutionalization.
⧫ Infection usually spread by droplet
inhalation.
⧫ Highest incidence in winter

⧫ Smoking important risk factor
11/20/2024 129
 “Typical” CAP:
 History
✓Previously healthy with sudden onset of
fever and shortness of breath
✓Presents with “typical” severe, acute
infection
✓Infectious agent (usually S. Pneumonia or
H. Flu) is culturable/ identifiable
✓Responsive to cell-wall active antibiotics

11/20/2024 130
 “Typical” CAP:
 Physical signs and symptoms
Tachycardia

Tachypnea

Productive cough with purulent sputum
and possible hemoptysis
Pallor and cyanosis

11/20/2024 131
Typical CAP----

localized:
− dullness to percussion

− decreased breath sounds

− crackles ,ronchi , egophony

Investigations
CXR showing lobar consolidation
CBC showing leukocytosis w/ left shift
Sputum sample contains neutrophil, RBCs;
Gram stain may be positive depending on
organism

11/20/2024 132
“Atypical” CAP
History :
Previously healthy present with is
usually sub-acute, low-grade fever,
sore throat, and intractable cough
Minimal sputum production
Able to continue to work
No sick contacts, recent travel, or
evidence of altered immune system
11/20/2024 133
“Atypical” CAP
PE reveals a mildly ill-appearing
patient with diffuse wheezes on lung
exam
“Walking pneumonia” syndrome
Causative pathogens are difficult to
culture/identify by standard
methods
Not responsive to penicillins
11/20/2024 134
 Types Of Atypical Pneumonia.

 Mycoplasma pneumonia
 Caused by tiny bacteria mycoplasma pneumoniae.

 It is generally milder than other types

 Children and adults who are infected often show
symptoms resembling those of a cold or flu, such
as coughing, sneezing, and a mild fever.
 Generally, not have to be hospitalized.

11/20/2024 135
 Types Of Atypical Pneumonia.

 Chlamydophila pneumonia.
 Caused by chlamydophila pneumoniae bacteria.

 School-age children at greatest risk for this type.

 Legionella pneumonia (legionnaires’ disease)
 Caused by legionella pneumophila bacteria.
 Not spread through person-to-person contact.
 Legionnaires’ disease tends to be more serious
than other types of atypical pneumonia.
 It can lead to respiratory failure and death in
some cases.

11/20/2024 136
 Common causes Of CAP
The causative agents for CAP that requires hospitalization are:

✓ Previously healthy individual: → S. pneumoniae
✓ Pre-existing viral infection → Staph. aureus or S.
pneumoniae
✓ Chronic bronchitis → Haemophilus influenzae or S.
pneumoniae
✓ AIDS → Pneumocystis carinii, cytomegalovirus, TB
✓ Elderly people and those with co morbid illnesses → H.
Influenzae
✓ Legionella, pseudomonas Aeruginosa, and other gram-negative
rods.
✓ Viruses (infants and children)
✓ Atypical bacteria
11/20/2024 137
The most common causes for viral
pneumonia are:
⚫ Influenza
⚫ Parainfluenza
⚫ Adenovirus
⚫ Respiratory syncytial virus (RSV)
 appears mostly in children
⚫ Cytomegalovirus
 In immunocompromised hosts

11/20/2024 138
Features of Severe Pneumonia

⧫ ‘Core’ clinical adverse prognostic features
(CURB)
⧫Confusion
⧫Urea > 7 mM (>19.1 mg/dL)
⧫Respiration rate >30 /min
⧫Blood Pressure: Systolic BP < 90 mm Hg and/or
diastolic BP ≤ 60 mmHg
⧫ NOTE: Patients with 2 or more CURB are at high
risk of death
11/20/2024 139
 Hospital-Acquired Pneumonia
 Also known as nosocomial pneumonia
 Is defined as the onset of pneumonia symptoms more than
48 hours after admission in patients with no evidence of
infection at the time of admission.
 Is an acute lower respiratory tract infection acquired after
at least 48 hours of admission to hospital and is not
incubating at the time of admission.
 Ventilator-associated pneumonia (VAP), is pneumonia
occurring more than 48 hours after endotracheal
intubation.

11/20/2024 140
 Predisposing factors
 Defense mechanisms are incompetent or overwhelmed
 Decreased cough and epiglottal reflexes (may allow
aspiration)
 Mucociliary mechanism impaired
 Pollution

 Cigarette smoking

 Upper respiratory infections

 Tracheal intubation
 Aging
 Metabolic disorder

 Mechanical ventilation (VAP)

 Supine positioning and aspiration


11/20/2024 141
 Pneumonia

The common organisms responsible for HAP
Enterobacter species,
Escherichia coli,
H. influenzae,
Klebsiella species,
Proteus, Serratia marcescens,
P. aeruginosa,
methicillin-sensitive or methicillin-resistant
Staphylococcus aureus (MRSA), and
S. pneumoniae
11/20/2024 142
 Pneumonia
Pneumonia in the Immunocompromised Host

Includes Pneumocystis pneumonia (PCP), fungal
pneumonias, and Mycobacterium tuberculosis.

Aspiration Pneumonia

Is the pulmonary consequences resulting from entry of
endogenous or exogenous substances into the lower
airway.

11/20/2024 143
 Clinical manifestations
⧫Cough producing greenish or yellow
sputum
⧫High fever that may be accompanied by
shaking chills
⧫Shortness of breath
⧫Tachypnea
⧫Pleuritic chest pain
⧫ Headache

11/20/2024 144
 Clinical manifestations…

⧫ Sweaty and clammy (moist) skin,
⧫ Loss of appetite
⧫ Fatigue
⧫ Blueness of the skin
⧫ Nausea, vomiting
⧫ Mood swings
⧫ Joint pains or muscle aches

11/20/2024 145
 Investigations
❖ History
❖ Physical exam
❖ Chest x-ray
❖ Gram stain of sputum
❖ Sputum culture and sensitivity
❖ Pulse oximeter or ABGs
❖ CBC, differential, chemistry
❖ Blood cultures
Invasive diagnostic techniques
✓ Transtracheal aspiration
✓ Bronchoscopy with a protected brush catheter
✓ Direct needle aspiration of the lung

11/20/2024 146
 Medical management
EMPIRIC ANTIBIOTIC THERAPY
First line (Mild):Amoxicillin 1g PO TID #5-7days and if penicillin allergy
Clarithromycin 250gm PO BID #5-7days
(Moderate): Benztylpencillin 1.2g IM QID #7days
plus
Doxycycline100mg PO BID #7days
or
Clarithromycin 500gm PO BID #7days
If penicillin allergy Cefriaxone 1gm Iv daily #7days plus
Doxycycline100mg PO BID #7days or Clarithromycin 500gm PO BID
#7days
(Severe): Benztylpencillin 1.2g IM every 4hours
plus
Gentamycin IV daily plus
Azithromycin 500mg IV/PO daily
If penicillin allergy :Cefriaxone 1gm Iv daily #7days plus Azithromycin
500mg IV/PO daily
11/20/2024 147
 Pneumonia cont’d…

Medical management…
E.g. according to DACA
For community acquired ambulatory
pts (mild pneumonia):-
◦ Amoxicillin
OR
◦ Erythromycin
OR
◦ Doxycyciline

11/20/2024 148
 Pneumonia cont’d…

For community acquired hospitalized pts (severe pneumonia):-
Non-Drug treatment:
Bed rest

Frequent monitoring of temperature, blood pressure and pulse
rate.

Give attention to fluid and nutritional replacements

Administer Oxygen

Analgesia for chest pain
11/20/2024 149
 Pneumonia cont’d…

Drug treatment:

Benzyl penicillin PLUS Gentamicin

OR Ceftriaxon.

Pneumonia due to staphylococcus aureus:

Cloxacillin 1-2 gm, IV or IM QID for 10-14 days.

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 Pneumonia

HAP (nosocomial pneumonias)
Antimicrobials effective against gram-negative & gram-positive
should be given in combination. Suitable combination is:
Cloxacillin plus Gentamicin
OR
Ceftriaxone plus Gentamicin
Ciprofloxacin
Pneumocytis pneumonia responds to Trimethoprin +
Sulfamethoxazole
11/20/2024 151
 Chronic Obstructive Pulmonary
Disease
 COPD is also known as:
 Chronic obstructive lung disease (COLD),

 Chronic obstructive airway disease
(COAD),

 Chronic airflow limitation (CAL) and

 Chronic obstructive respiratory disease
(CORD)

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 Chronic Obstructive Pulmonary
Disease

 It is pulmonary disease characterized by airflow
limitation that is not fully reversible.
 Refers to chronic bronchitis and emphysema, a
pair of two commonly co-existing diseases of the
lungs in which the airways become narrowed.
 This leads to a limitation of the flow of air to and
from the lungs causing shortness of breath

11/20/2024 153
❖ In COPD, less air flows in and out of the airways because of one or
more of the following:

❖The airways and air sacs lose their elastic quality.

❖The walls between many of the air sacs are destroyed.

❖The walls of the airways become thick and inflamed.

❖The airways make more mucus than usual, which tends to
clog them.

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Causes
❖ Smoking
❖ Occupational exposures
❖ Air pollution
❖ sudden airway constriction in response to
inhaled irritants,
❖ Bronchial hyperresponsiveness, is a
characteristic of asthma.
❖ Genetics-Alpha 1-antitrypsin deficiency

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Pathophysiology of COPD
Abnormal inflammatory response of the
lungs due to toxic gases
Response occurs in the airways,
parenchyma & pulmonary vasculature.

Narrowing of the airway takes place

Destruction of parenchyma leads to emphysema.
Destruction of lung parenchyma leads to an imbalance of proteinases /
antiproteinases.

Pulmonary vascularchanges

Mucus hyper secretion dysfunction(cilia
dysfunction,airflowlimitation,corpulmonale(RVF)

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 Clinical features
⧫Chronic cough
⧫Sputum production
⧫Wheezing
⧫Chest tightness
⧫Dyspnea on exertion
⧫Wt.loss
⧫Respiratory insufficiency
⧫Respiratory infections
⧫Barrel chest- chronic hyperinflation leads to loss of
lung elasticity

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DIFFERENTIAL DIAGNOSIS
Diagnosis Suggestive feature
COPD Onset mid-life
Symptom slowly progressive
History of tobacco smoking
Asthma Onset early in life
Symptom varies widely from day to day
Symptom worse at night/morning
Family history
Congestive heart Chest X-ray shows dilated heart,
failure pulmonary edema
Pulmonary function test shows volume
restriction not airway limitation
Bronchiectasis Large volume of purulent sputum
Commonly associated with bacterial
infection
Chest x-ray shows bronchial dilation
Tuberculosis Onset all ages
Chest x-ray shows infiltrate
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Microbiological confirmation
 Assessment
 DX: Spirometry is required to make the diagnosis; the
presence of a post-bronchodilator FEV1/FVC < 0.70
confirms the presence of persistent airflow limitation.
 According to Modified British Medical Research
Council (mMRC) :
 mMRC Grade 0:Only get breathlessness with
extraneous exercise
 mMRC Grade 1: I get short of breath when hurrying
the level
 mMRC Grade 2:I walk slower than people of the
same age the level b/se of breathlessness
 mMRC Grade 3: I stop for breath after walking 100m
 mMRC Grade 4:I am too breathlessness to leave the
house

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COPD includes
I. Bronchitis

II. Emphysema

11/20/2024 160
 Bronchitis
 Bronchitis is a condition in which the bronchial tubes become
inflamed.

 Acute (short term) and chronic (ongoing).

 Infections or lung irritants cause acute bronchitis.

 Chronic bronchitis is an ongoing, serious condition.

 It occurs if the lining of the bronchial tubes is constantly irritated
and inflamed, causing a long-term cough with mucus.

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 Chronic bronchitis

Presence of recurrent or chronic productive cough for a
minimum of 3 months for 2 consecutive years.
It is defined as the presence of cough and sputum production for
at least 3 months.

Risk factors
▪ Bronchial irritants (e.g. cigarette smoke, exposure to pollution)
▪ Genetic predisposition (alpha-1 antitrypsin deficiency)
▪ Respiratory infections

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 Chronic Bronchitis:
Pathophysiology
Chronic inflammation

Hypertrophy & hyperplasia of bronchial glands that secrete
mucus

Increase number of goblet cells

Cilia are destroyed

Bronchial smooth muscle hyper reactivity

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Chronic Bronchitis: Pathophysiology

Narrowing of airway

⚫ airflow resistance

⚫ work of breathing

Hypoventilation & CO2 retention ➔ hypoxemia &
hypercapnea

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Chronic Bronchitis: Pathophysiology

Bronchial walls thickened, bronchial lumen
narrowed, and mucus may plug in the airway

Alveoli become damaged and fibrosed,

Altered function of the alveolar macrophages.

The patient becomes more susceptible to
respiratory infection.

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 Chronic Bronchitis:
Pathophysiology

11/20/2024 166
 Chronic Bronchitis:
Pathophysiology

Mucus plug
Normal lumen

11/20/2024 167
Signs and symptom

Acute Chronic
 sore throat,
 fatigue (tiredness),  coughing,
 fever, body aches,
 stuffy or runny nose,  wheezing, and
 vomiting, and
 chest discomfort.
 Diarrhea
 persistent cough  The coughing may
 cough may produce produce large amounts of
clear mucus mucus. This type of cough
 shortness of breath
often is called a smoker's
cough.

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 Diagnosis

 History - medical history
 Whether you've recently had a cold or the flu
 Whether you smoke or spend time around others who
smoke
 Whether you've been exposed to dust, fumes, vapors,
or air pollution –
 Mucus -to see whether you have a bacterial infection
 chest x ray
 lung function tests,
 CBC
 ABG analysis

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 MEDICAL MANAGEMENT
⧫ Improve ventilation
Broncho dilators like beta2agonists (albuterol)
,anticholinergics(ipratropium bromide-
atrovent).
Methylxanthines(theophylline,aminophylline)

Corticosteroids

Oxygen administration

⧫ Remove bronchial secretion
⧫ Promote exercises
⧫ Control complications
⧫ Improve general health
11/20/2024 170
 Surgical management
 BULLECTOMY
Bullae are enlarged airspaces that do not contribute to
ventilation but occupy space in the
 Lung volume reduction surgery: It involves the removal
of a portion of the diseased lung parenchyma.
 Lung transplantation

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 Emphysema
❖ Is a pathologic term that describes an abnormal
distention of the airspaces beyond the terminal
bronchioles and destruction of the walls of the
alveoli.
❖ Is defined as enlargement of the air spaces distal to
the terminal bronchioles, with destruction of their
walls of the alveoli due to the action of the
proteinases..
❖ As the alveoli are destroyed the alveolar surface area
in contact with the capillaries decreases causing
formation of dead spaces
11/20/2024 172
 Types
 The part of the acinus affected determines the
subtype. It can be subdivided pathologically into:
 Centrilobular (Proximal Acinar)-
⧫The respiratory bronchiole (proximal and
central part of the acinus) is expanded.
⧫The distal acinus or alveoli are unchanged.
⧫Occurs more commonly in the upper lobes
⧫is the most common type and is commonly
associated with smoking. It can also be seen
in coal workers pneumoconiosis.
⧫
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Classification

Panacinar-
❑ Is most commonly seen with alpha one antitrypsin deficiency.

❑ The entire respiratory acinus from respiratory bronchiole to alveoli, is
expanded.

❑ Occurs more commonly in the lower lobes, especially
basal segments, and anterior margins of the
lungs.
1. Paraseptal (Distal acinar) -may occur alone or
in association with above and the usual association
is spontaneous pneumothorax in a young adult.

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 174
 Emphysema….

11/20/2024 175
 Emphysema….

Clinical
✓Wheezing
manifestation
✓Chronic fatigue
Early stages
✓Difficult in sleeping
✓ Barell chest ✓Hypoxia
✓ Central cyanosis ✓Polycythemia

✓ Finger clubbing ✓Cough & sputum production

✓ Dyspnea
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 Clubbing of the Fingers as a Result of
Chronic Hypoxia

11/20/2024 177
 Emphysema….
Later stages
▪ Hypercapnea

▪ Purse-lip breathing

▪ Use of accessory muscles to breathe

▪ Underweight

No appetite & increase breathing workload

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 Emphysema…..

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Emphysema
Use accessory muscle Pursed lips breathing

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Assessment and Diagnostic Findings

History (smoking, occupational exposure)
Physical exam
PFT
Spirometry -to find out airflow obstruction.
ABG analysis
CT scan of the lung.
Screening of alpha antitrypsin deficiency
X-ray radiography may aid in the diagnosis.
CBC
Sputum analysis

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 Medical Management
Risk Reduction (smoking cessation)
Pharmacologic Therapy
❖ Bronchodilators
Beta2-Adrenergic Agonist Agents:- salbutamol, albuterol
Anticholinergic Agents:-Ipratropium bromide
Methylxanthines:- aminophylline ,theophylline
❖ Corticosteroids
❖ Other Medications(alpha1-antitrypsin augmentation
therapy, antibiotic agents, mucolytic agents, antitussive
agents, vasodilators, and narcotics.
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 Medical Management …….
 Oxygen Therapy
 Surgical Management
 Lung Volume Reduction Surgery
 Pulmonary Rehabilitation
 Patient Education
 Breathing Exercises
 Activity Pacing
 Self-Care Activities
 Nutritional therapy
 Coping Measures
11/20/2024 183
 Nursing Management

 Assessing the Patient

 Achieving Airway Clearance
 Improving Breathing Patterns

 Improving Activity Tolerance

 Monitoring and Managing Potential Complications
(respiratory insufficiency and failure)

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Comparison of emphysema and chronic bronchitis
Emphysema Chronic bronchitis
Pink Puffers Blue Bloaters
Thin Appearance Airway Flow Problem
Increased CO2 retention Color is Dusky to Cyanotic
Minimal Cyanosis Recurrent Productive Cough
Purse Lip Breathing Hypoxia
Dyspnea Hypercapnia
Hyper-resonance on Chest Respiratory Acidosis
Percussion
Orthopneic High Hemoglobin
Barrel Chest Increased Respiratory Rate
Exertional Dyspnea( Early) Dyspnea on Exertion(late)
Prolonged Expiratory Time Digital clubbing
Speaks in short jerky Cardiac enlargement
sentences
Anxious Bilateral lower extremity
edema
 B E

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 Asthma
Asthma is a chronic inflammatory disorder of the airways that
is characterized:
Clinically by recurrent episodes of wheezing, breathlessness,
chest tightness, and cough, particularly at night/early
morning.
Physiologically by widespread, reversible narrowing of the
bronchial airways and a marked increase in bronchial
responsiveness to direct or indirect stimuli and with chronic
airway inflammation
 Is a heterogeneous disease, usually characterized by chronic
airway inflammation
11/20/2024 187
  The chronic inflammation is associated with airway
hyper‐responsiveness that leads to recurrent
episodes of wheezing , breathlessness, chest
tightness and coughing particularly at night or early
morning.
 These episodes are usually associated with
widespread,
but variable airflow obstruction within the lung that
is often reversible either spontaneously or with
11/20/2024
treatment 188
  Is a chronic inflammatory disease of the airways that
causes:-
Airway hyperresponsiveness
Mucosal edema
Mucus production

11/20/2024 189
 Asthma classification
❖ Asthma is divided into two main categories,
intrinsic and
extrinsic. Intrinsic asthma is due to
hypersensitivity of the airways independent of
antibodies.
❖ These sensitivities can include chemicals,
exercise, complement activation, cold air,
infection, and emotional stress.
❖ Extrinsic asthma is due to increased levels of
IgE in the plasma.

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Classification----

1. Atopic /extrinsic /allergic ( 70%)
 Due to increased levels of IgE in the plasma in
responses to environmental antigens.
 Genetically transmitted
 Childhood onset

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Classification----

2. Non-atopic/ intrinsic /non-allergic( 30%)
Intrinsic asthma is due to hypersensitivity of the
airways
independent of antibodies
Triggered by non immune stimuli.
Patients have negative skin test to common
inhalant allergens and normal serum
concentrations of ige.
Asthma may be triggered by aspirin, pulmonary
infections, cold, exercise, psychological stress or
inhaled irritants..
11/20/2024 192
11/20/2024 193
 Pathophysiology

❖ Chronic inflammation

❖ Airway

Hyperresponsiveness

11/20/2024 194
Pathophysiology of Asthma
Non-modifiable Factors: Modifiable Factors:
Gender >Environmental Allergens
Family History >Emotional factors/Stress
>GERD

Triggers airway
inflammation

Release of mast cells, eosinophils, histamine,
macrophages, and activated T lymphocytes

Increased Goblet cells
Acute Bronchoconstriction mucus production

Narrowing of the airway
passages
Cough
Difficulty Of Breathing
↓ Oxygenation Wheezing

chest Tightness Chest
11/20/2024 195
 ETIOLOGY
Allergy is the strongest predisposing factor for
asthma.
Common allergens can be
❖ Seasonal (grass, tree, and weed pollens)
or
❖ Perennial (e.g., mold, dust, roaches,
animal dander).

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 ETIOLOGY
❖ Common triggers for asthma symptoms and exacerbations
❖ Airway irritants (e.g., air pollutants, cold, heat, weather
changes, strong odors or perfumes, smoke)
❖ Exercise, stress or emotional upset
❖ Rhino sinusitis with postnasal drip
❖ Medications

❖ Viral respiratory tract infections
❖ Gastroesophageal reflux.

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Clinical Manifestations
The three most common symptoms of asthma are
Cough
Dyspnea
Wheezing
As the exacerbation progresses
Diaphoresis
Tachycardia
Hypoxemia and central cyanosis (a late sign of poor
oxygenation)

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 Status Asthmaticus
❖ The severe and prolonged asthma
exacerbation with intensive progressive
respiratory failure, hypoxemia, hypercapnia,
respiratory acidosis, increased blood viscosity
and the most important sign is blockade of
bronchial b2-receptors.

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 Status Asthmaticus
Stages:
1st - refractory response to b2-agonists
(relaxation of the smooth muscles)
2nd - “silent” lung because of severe bronchial
obstruction and collapse of small and
intermediate bronchi;
3rd stage – the hypercapnic coma.
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Asthma….
Assessment and Diagnostic Findings
Hx

Physical examination

Chest X-ray

Sputum increase viscosity

CBC- eosinophills

Lung Function Tests

Arterial blood gas analysis and pulse oximetry
11/20/2024 201
Pharmacological Treatment
 A stepwise approach is recommended as follows
1. Inhaled salbutamol prn (when necessary)
2. Inhaled salbutamol prn plus low-dose inhaled
beclometasone, starting with 100ug twice daily for adults
3. Add low-dose oral theophylline to Step 3 treatment
(assuming long-acting beta agonists and leukotriene
antagonists are not available)
4. Add oral prednisolone, but in the lowest dose possible to
control symptoms (nearly always less than 10mg daily)

11/20/2024 202
 REFER
The patient should be referred in the following
conditions:
 When asthma is poorly controlled

 When the diagnosis of asthma is uncertain

 When regular oral prednisolone is required to
maintain control
 5. FOLLOW UP

 Patient and family education should be provided

 Advise the patient to carry the device always

 Emphasize the need for adherence to drugs.

 Advice regarding dealing with triggers


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 Asthma cont’d…
Medical management

There are two general classes of asthma medications:

Quick-relief medications for immediate treatment of
asthma symptoms and exacerbations.
Long acting medications to achieve and maintain control
of persistent asthma.

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 Asthma cont’d…
According to DACA:
Initial treatment

✓ Salbutamol (metered dose inhaler MDI).

Alternatives

✓ Aminophylline, 5mg/kg by slow I.V. push over 5
minutes. OR

✓ Adrenaline, 0.5ml sc.
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 Asthma cont’d…
Maintenance therapy for chronic asthma in adults:
❖ Requires prolonged use of anti-inflammatory drugs
mainly in the form of steroid inhalers
Intermittent asthma:
▪ Salbutamol, inhaler 200 microgram/puff,1-2 puffs
to be taken as needed but not more than 3-4 times a
day
Alternative
▪ Ephedrine + Theophylline
11/20/2024 206
 Asthma cont’d…
Persistent mild asthma
✓ Salbutamol, inhaler, 200 micro gram/puff 1-2 puffs to be
taken, as needed but not more than 3-4 times/day
PLUS
✓ Beclomethasone, oral inhalation 1000mcg QD for two
weeks
Alternative
✓ Ephedrine + Theophylline (11mg + 120mg), P.O. two to three
times a day PLUS
✓ Beclomethasone oral inhalation 1000mcg QD for two weeks.
11/20/2024 207
 Asthma cont’d…
Persistent moderate asthma
Salbutamol, inhalation 200microgram/puff 1-2
puffs as needed PRN not more than 3-4 times a
day.
PLUS
Beclomethasone, 2000mcg, oral inhalation QD for
two weeks and reduce to 1000 mcg if symptoms
improve.
11/20/2024 208
 ACUTE EXACERBATION OF
ASTHMA
 The following patients have a high risk of future
exacerbations and may have a poor asthma
outcome.
 Risks for exacerbation
 Uncontrolled asthma symptoms
 One or more severe exacerbation in previous year
 Start of the patient’s usual ‘flare-up’ season
 Exposures: tobacco smoke; indoor or outdoor air
pollution; indoor allergens
 Major psychological or socio-economic problems
for child or family Poor adherence with controller
medication, or incorrect inhaler technique

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 Management of Asthma
exacerbation
 Prednisolone 30–40mg for five days for adults and 1mg per
kg for three days for children, or longer, if necessary, until

they have recovered;

 Salbutamol in high doses by metered dose inhaler and

spacer (e.g. four puffs every 20 minutes for one hour) or by
nebulizer;

 Oxygen , if available, if O2 saturation levels are below 90%)

11/20/2024 210
 Asthma cont’d…

Severe persistent asthma
✓ Salbutamol, inhalation , 200 micro gram/puff 1-2
puffs not more than 3-4 times a day
PLUS
✓ Beclomethasone, 2000 mcg, oral inhalation daily

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 Asthma….
Nursing management
❖ Assessing patients respiratory status

❖ The purpose and action of each medication Triggers to
avoid, and how to do so

❖ Proper inhalation technique

11/20/2024 212
 Asthma….

Complications

Status asthmaticus

Respiratory failure

Pneumonia

Atelectasis

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 Bronchiectasis
Is a chronic, irreversible dilation of the
bronchi and bronchioles.

Bronchiectasis is a chronic respiratory disease
characterized by a syndrome of productive
cough and recurrent respiratory infections due
to permanent dilatation of the bronchi.

Bronchiectasis represents the final common
pathway of different disorders, some of which
may require specific treatment.

11/20/2024 214
Cont …d

Bronchiectasis may be caused :-
Airway obstruction
Diffuse airway injury
Pulmonary infections and obstruction
of the bronchus or complications of
long-term pulmonary infections

11/20/2024 215
Cont …d

Genetic disorders such as cystic
fibrosis
Abnormal host defense (eg,
ciliary dyskinesia or humoral
immunodeficiency)
Idiopathic causes

11/20/2024 216
11/20/2024 217
Etiology

❖ Congenital causes (e.g. Mounier-Kuhn
syndrome)
❖ COPD, and smoking
❖ Cystic fibrosis
❖ Mucociliary dysfunction (e.g. primary ciliary
dyskinesia)
❖ Primary or secondary immune deficiency
❖ Pulmonary fibrosis and pneumoconiosis

11/20/2024 218
Etiology

❖ Post obstruction (e.g. with a foreign body)
❖ Post infection (e.g. TB, recurrent
pneumonia)
❖ Recurrent small volume aspiration
❖ Allergic bronchopulmonary aspergillosis
❖ Systemic inflammatory diseases (eg.
rheumatoid arthritis, sarcoidosis)

11/20/2024 219
Features suggest Bronchiectasis

❖ Diagnosis of asthma that is unresponsive
to usual management
❖ Digital clubbing (this is rare in COPD and
asthma)
❖ Lack of a significant smoking history (less
than an average of 20 cigarettes per day
for 10 years) in a person with suspected
COPD
❖ History of recurrent and/or severe
pneumonia including tuberculosis

11/20/2024 220
Features suggest Bronchiectasis

❖ Presence of ‘unusual organisms’ in
sputum (e.g. Aspergillus,
atypical/nontuberculous
mycobacterium, Pseudomonas
aeruginosa, Escherichia coli, Klebsiella
pneumoniae)
❖ Childhood associated with significant
environmental and social disadvantage

11/20/2024 221
 Clinical Manifestations

Chief complaints are:
Chronic cough,
Purulent sputum(Copious and
purulent and pools in
the dilated airways).
Dyspnea and
Sometimes haemoptysis
Clubbing of the fingers also is common because of
respiratory insufficiency.
Wheezes and crackles
11/20/2024
Repeated episodes of pulmonary infection 222
 Diagnostic tests
❖ History
❖ Sputum culture
❖ The chest CT is the golden standard
diagnostic tool for Bronchiectasis with
the typical presentation of bronchial
diameter larger than nearby pulmonary
artery without normal bronchial tapering.

11/20/2024 223
Medical management

Antibiotics may be used intermittently or for
prolonged periods.
Bronchodilators improve airway obstruction.
Mucolytic agents help thin secretions
Chest physiotherapy helps mobilize secretions
Oxygen is used if hypoxemia is present

11/20/2024 224
Nursing management

Encourage to stop smoking & other factors that
increase the production of mucus
Teaching the patient and family
How to perform postural drainage
Assess patients’ nutritional status/appetite

Teach the patient about early signs of
respiratory infection and the progression of
the disorder.

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