Respiratory Disorders PDF

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This document details diagnostic methods for respiratory diseases, focusing on upper respiratory tract disorders.

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Respiratory Disorders
25
CH A P TE R

Michal Mazaki-Tovi

B. Laryngeal diseases
DIAGNOSTIC METHODS FOR
1. History usually includes slowly progressive
RESPIRATORY DISEASES
signs, such as change of voice and inspiratory
I. Upper respiratory tract stridor. Cyanosis and syncope may occur with
A. Nasal cavity diseases laryngeal obstruction
1. History 2. Physical examination
a. Sneezing and nasal discharge are the com- a. Auscultation can detect upper respiratory
mon clinical signs. Gagging, reversed sneez- inspiratory stridor
ing, or stertor may occur when the disease b. Palpation of the laryngeal area may detect
extends to the nasopharynx pain, or asymmetry
b. History should include the duration of clini- 3. Laryngoscopy and bronchoscopy
cal signs, the type and site of involvement a. Evaluate pharyngeal structures, soft palate,
of nasal discharge (unilateral or bilateral) and laryngeal movement with the patient
2. Physical examination under light anesthesia
a. Sedation or anesthesia is usually required b. Endoscopic biopsy, aspiration, or brush
b. Evaluate for asymmetry of the face, palate, cytology may be performed
or eyes, areas of pain, patency of the nasal 4. Diagnostic imaging
passages, and damaged teeth a. Laryngeal radiography may reveal
3. Laboratory testing elongated soft palate, fractures, or
a. Complete blood cell count (CBC), serum emphysema
biochemical profile, and coagulation tests b. Ultrasonography may demonstrate
are warranted when a systemic disease is laryngeal paralysis
suspected 5. Electromyography
b. Serologic tests may be used in the diagnosis a. Neuromuscular, immune-mediated, and
of mycotic rhinitis, but false-negative results hypothyroidism-related laryngeal disorders
are common may be associated with abnormal studies of
4. Imaging the laryngeal muscles
a. Skull radiography requires general anesthe- b. Histopathology may be helpful in the diag-
sia. Radiographic views include open-mouth nosis of masses or polyneuropathy
ventrodorsal, occlusal, rostral-caudal frontal C. Tracheal diseases
skyline, lateral, and oblique 1. History
b. Skull and nasal computed tomography (CT) a. Chronic, nonproductive, “honking” cough is
may be used to delineate the extent of a a typical sign
mass, bone lysis, and accumulation of fluids b. Inspiratory dyspnea may be present with
c. Magnetic resonance imaging (MRI) may be cervical tracheal collapse and expiratory
used for better definition of brain involvement dyspnea with intrathoracic collapse
5. Nasal flushing for cytology and biopsy 2. Physical examination
a. Aggressive nasal flushing is required to a. Tracheal palpation may produce cough and
yield sufficient tissue material detect sharp tracheal edges
b. Submit samples for cytology and b. Perform cardiac examination and aus-
histopathology cultate the entire respiratory tract to
6. Rhinoscopy differentiate the cough from other causes
a. Requires general anesthesia such as cardiac or lower respiratory
b. Allows visualization of mucosal lesions, disorders
masses, or foreign bodies 3. Radiography
c. Samples for histopathology, cytology, a. Both inspiratory and expiratory radio-
culture, and sensitivity can be obtained graphs may be required to demonstrate
with direct visualization collapsing trachea
7. Surgical biopsy may be obtained by b. Fluoroscopy allows dynamic evaluation of
exploratory rhinotomy the trachea
353
354 SECTION II SMALL ANIMAL

4. Transtracheal wash (see below) 2. Transtracheal wash is performed in larger
5. Tracheoscopy may be helpful to visualize tra- dogs. A through-the-needle catheter is inserted
cheal collapse, parasitic granulomas, foreign percutaneously under local anesthesia be-
bodies, or neoplasia tween the tracheal rings or through the crico-
II. Bronchopulmonary and pleural diseases thyroid membrane and then advanced into the
A. History lower airway
1. Typical signs include coughing, tachypnea, 3. Endotracheal wash is performed in cats and
dyspnea, and exercise intolerance small dogs. A catheter is inserted through a
2. Determine the duration of signs, the quality of sterile endotracheal tube and then advanced
the cough (productive or nonproductive), the into the lower airway
time of day of the cough (cardiac cough is 4. Bronchoalveolar lavage (BAL) may be
usually nocturnal), travel history (infectious performed during bronchoscopy and allows
diseases), and the presence of other signs retrieving airway fluid sample from the lower
(systemic disease) airways
B. Physical examination H. Lung biopsy
1. Observe the pattern of breathing: Slow, deep 1. Indicated when the cause of a diffuse lung
breathing with inspiratory difficulty may disease cannot be determined by less invasive
indicate obstructive upper airway disease; methods
short, shallow breathing may be associated 2. May be obtained by fine-needle aspiration,
with restrictive disease during bronchoscopy, using ultrasound or
2. Thoracic auscultation may reveal adventitious CT guidance, during thoracotomy (keyhole
sounds, such as crackles (small airway or biopsy), or during thoracosopy
parenchymal disease), rhonchi (airway I. Thoracocentesis is performed to obtain fluid for
disease or exudate), and wheezes (airway analysis for diagnosis of pleural effusion
obstruction)
3. Thoracic percussion may yield dull resonance
NASAL CAVITY AND SINUSES
(fluid or mass lesions within the pleural space
or lung) or increased resonance (air) I. Congenital diseases
C. Thoracic imaging A. Primary ciliary dyskinesia
1. Determine the type of pattern present 1. Uncoordinated and ineffective ciliary function
(interstitial, alveolar, bronchial, or vascular) resulting in rhinitis, bronchitis, bronchiectasis,
and distribution of the lesions (localized or and bronchopneumonia
diffuse; cranial or caudal; and ventral, dorsal, 2. When associated with situs inversus, the
or hilar) clinical syndrome is known as Kartagener
2. Thoracic ultrasound may be helpful for syndrome
detection of small amounts of fluid, con- 3. Clinical signs include nasal discharge and
solidated areas of lung and mediastinal coughing that begin at an early age
masses 4. Diagnosis
3. CT may detect smaller pulmonary and pleural a. Measuring the velocity of mucus clearance
lesions by using a drop of labeled macroaggregated
D. CBC and serum chemistry albumin
1. CBC findings may include leukocytosis b. Analysis of cilia by electron microscopy
(inflammation, infection), eosinophilia 5. Treatment is based on antibiotic therapy to
(parasitic or allergic disease), polycythemia treat secondary infections
(chronic hypoxemia), or nucleated red blood 6. Prognosis is guarded
cells (acute hypoxemia) B. Cleft palate (see Chapter 27)
2. Serum biochemistry findings may indicate the II. Rhinitis and sinusitis of infectious origin
presence of systemic disease A. Causes
E. Arterial blood gas (ABG) 1. Dogs: Parainfluenza, distemper, adenovirus-2,
1. An arterial blood sample is usually drawn from Bordetella bronchiseptica, Aspergillus flavum,
dorsal pedal artery or femoral artery Penicillium spp., Rhinosporidium seeberi
2. ABG analysis evaluates the animal’s ability to 2. Cats: Herpesvirus, calicivirus, Chlamydia psit-
oxygenate arterial blood. In the normal patient taci, Bordetella bronchiseptica, Cryptococcus
breathing room air, the partial pressure of neoformans
oxygen should be 95 mm Hg. Elevations in 3. Chronic rhinitis is often associated with
CO2 indicate ventilatory failure another predisposing problem such as
F. Bronchoscopy allows direct visualization of the immunosuppression, foreign body, or tumor
lower airway B. History
G. Airway wash 1. Acute viral rhinitis is usually self-limiting
1. Warm sterile saline is instilled in the lower unless immunosuppression is present
respiratory tract and then retrieved. Samples 2. Primary bacterial rhinitis occurs with Borde-
are submitted for cytology and culture and tella bronchiseptica infection. Other bacterial
sensitivity analyses nasal infections are usually secondary
 CHAPTER 25 Respiratory Disorders 355

3. Aspergillus flavus is a normal inhabitant of III. Nasal parasites
the nasal cavity, but it may invade respiratory A. Cuterebra, Eucoleus boehmi (nasal nematode),
epithelium in dogs with altered immunity or Pneumonyssus caninum (nasal mite)
mucosal injury B. Clinical signs include sneezing, nasal discharge,
C. Clinical signs and reversed sneezing
1. Typical signs include sneezing and nasal C. Diagnosis is typically accomplished by direct
discharge. Gagging or retching may occur due visualization. E. boehmi is diagnosed by mucosal
to postnasal drip biopsy or identification of the ova on a fecal
2. Reversed sneezing may occur with nasopha- examination
ryngeal involvement D. Treatment is by manual removal of large parasites
D. Diagnosis or by treatment with oral ivermectin.
1. Dogs IV. Allergic rhinitis
a. Serologic tests for aspergillosis and poly- A. Presumed to occur in dogs and cats
merase chain reaction (PCR) for Bartonella B. Immunoglobulin E based rhinitis has not been
b. Imaging includes open-mouth radiographs demonstrated yet
or CT of the nasal cavity V. Nasopharyngeal polyps
c. Rhinoscopy may reveal a foreign body, A. Inflammatory masses that arise from the epithe-
a mass lesion, turbinate destruction, lium of the nasopharynx. Commonly occur in cats
secretions B. Voice change is a common early sign. Gagging
d. Histologic examination of nasal tissue is may also occur
required for detection of hyphae of C. Otoscopic examination may reveal discharge and
Aspergillus. Culture may be positive in polypoid masses within the external ear canal.
normal dogs Oropharyngeal examination may demonstrate the
e. Bacterial culture of mucosal biopsies may polyp by retraction of the soft palate
be more indicative of infection. Culture D. Skull radiographs or CT may reveal increased
of nasal secretions may be positive in density of one of the bullae or cranial to the
normal dogs pharynx
2. Cats E. Treatment
a. Serologic tests for feline immunodefi- 1. Removal of the mass by traction
ciency virus, feline leukemia virus, and 2. Ventral bulla osteotomy is indicated for
Cryptococcus removal of the inflammatory tissue when the
b. Cytology from a nasal swab for detection of middle ear is involved
Cryptococcus VI. Foreign body
c. Tests for herpesvirus diagnosis A. Common in young dogs; grass awns and other
(immunofluorescence, PCR). plant material especially common
d. If empiric treatment fails, perform imaging, B. Signs include sneezing and nasal discharge
rhinoscopy, and biopsy C. Plants material is usually not visualized on
E. Treatment radiographs
1. Viral D. Rhinoscopy allows visualization and removal of
a. Supportive care and broad-spectrum antibi- the foreign body in most cases
otic treatment VII. Neoplasms of the nasal cavity and paranasal sinuses
b. Lysine may be tried if herpesvirus infection A. In dogs, carcinomas are most common, followed
is suspected by sarcomas. Transmissible venereal tumors are
2. Bacterial uncommon but should be considered in endemic
a. Doxycycline is effective against B. bronchi- areas. Plasma cell tumors, mast cell tumors, and
septica or Bartonella infections, and benign tumors occur rarely
clindamycin has some efficacy against B. In cats, nasal and paranasal lymphomas are
Mycoplasma most common, followed by adenocarcinoma and
b. Treat underlying disorder (e.g., foreign squamous cell carcinoma. Benign nasopharyngeal
body, tooth root abscess) inflammatory polyps are common
3. Fungal C. Malignant nasal tumors usually are locally
a. Aspergillus flavus and Penicillium spp. are invasive, with metastasis occurring late in the
most commonly treated with nasal tubes course of the disease
for intranasal administration of clotrimazole D. Clinical signs
or eniconazole. Oral therapy with ketocon- 1. Nasal tumors are more common in older
azole, itraconazole, or thiabendazole is animals. Dolichocephalic and large-breed dogs
generally less effective are predisposed. There is no sex predilection
b. Rhinosporidium granulomas can be treated 2. Common clinical signs include sneezing, nasal
by surgical extraction discharge, and epistaxis. Facial deformity
c. Cryptococcus neoformans infection is occurs most commonly with skeletal
treated with fluconazole, itraconazole, neoplasms. Seizures, blindness, and behavioral
ketoconazole, or amphotericin B (alone changes may result from invasion to the
or in combination with flucytosine) central nervous system
356 SECTION II SMALL ANIMAL

E. Diagnosis E. Oropharyngeal examination under light anesthesia
1. Radiography of the nasal cavity and paranasal confirms the diagnosis. The arytenoids cartilages
sinuses may demonstrate loss of trabecular are unable to abduct during inspiration. Laryngeal
pattern, increase in soft tissue density, and edema may be present
septal destruction. Thoracic radiographs may F. Treatment is by arytenoid lateralization
indicate the presence of distant metastasis IV. Laryngeal neoplasms
2. CT and MRI are useful for evaluating the extent A. Generally rare in dogs and cats. Malignant tumors
of the tumor are more common
3. Biopsy for histopathologic examination is re- B. Laryngeal tumors may be primary (e.g., squamous
quired for diagnosis and may be acquired by a cell carcinoma, lymphoma, chondrosarcoma) or
blind procedure, rhinoscopy, or rhinotomy metastatic (e.g., thyroid carcinoma)
F. Treatment C. The most common clinical sign is inspiratory
1. Radiation therapy has been shown to increase dyspnea
survival time in dogs and cats D. Diagnosis
2. Surgical cytoreduction in combination with radia- 1. Radiography may demonstrate laryngeal
tion is rarely indicated for malignant tumors. Sur- distortion
gery is the treatment of choice for nasal polyps 2. Laryngoscopic evaluation may reveal a mass
3. Chemotherapy is indicated for the treatment of 3. Diagnosis in confirmed by biopsy and
lymphoma and transmissible venereal tumor histopathology
E. Treatment
1. Surgical excision may be curative for benign
UPPER AIRWAY DISORDERS
tumors
I. Brachycephalic syndrome 2. Radiotherapy and chemotherapy may be
A. Consists of congenital disorders including beneficial for some tumors
stenotic nares, elongated soft palate, and tracheal V. Tracheal stenosis
hypoplasia (English bulldogs) and consequently, A. Usually results from traumatic tracheal injury
laryngeal saccules eversion (e.g., bite wounds, intubation)
B. Signs include characteristic stretor and snoring B. Signs include dyspnea and less commonly cough
and occasionally exercise intolerance C. Thoracic radiographs demonstrate focal reduc-
C. On physical examination stenotic nares may be tion of the tracheal lumen diameter
evident D. Tracheoscopy is useful for assessing the location
D. Oropharyngeal examination may reveal soft and severity of the stenosis
palate overlapping on the epiglottis. Everted la- E. Treatment is by removal of the stenotic segment
ryngeal saccules may be seen as oval mucosal by tracheal resection and anastamosis
masses lateral to vocal folds VI. Tracheal collapse
E. Treatment A. Causes
1. Nasal wedge resection 1. In dogs, abnormalities in chondrogenesis
2. Staphylectomy (congenital, inherited, or related to dietary
3. Laryngeal sacculectomy deficiencies) result in decreased turgidity of
II. Laryngeal collapse the tracheal ring. Collapse may be found at
A. Most commonly results from brachycephalic rest or may be dynamic, with cervical collapse
syndrome found on inspiration and intrathoracic collapse
B. Signs include stretor or stridor, dyspnea, and oc- on expiration. Collapse of smaller airways may
casionally exercise intolerance be also present
C. Oropharyngeal examination reveals apposition or 2. In cats, obstructive upper airway masses may
overlap of the arytenoids cartilages cause tracheal collapse
D. Treatment B. Pathophysiology
1. Treat predisposing factors (brachycephalic 1. The trachea usually collapses in a dorsoventral
syndrome) orientation, causing trauma to the epithelial
2. If signs persist permanent tracheostomy may surface, mucus production, and perpetuation of
be necessary cough
III. Laryngeal paralysis 2. Reduction in airway radius increases resis-
A. Diagnosed primarily in old, large-breed dogs tance to airflow and additional airway injury
B. Interrupted innervation of the larynx results in C. Clinical Signs
failure of the arytenoids cartilages to abduct 1. Small-breed dogs are typically affected with
during inspiration tracheal collapse
C. Congenital in some breeds (e.g., the Bouvier des 2. History
Flandres). Might be associated with hypothyroid- a. Long-term history of chronic, intermittent
ism or polyneuropathies. Many cases are idiopathic honking cough
D. Clinical signs include stridor, voice change, and b. May be associated with gagging, retching,
intermittent dyspnea, exacerbated by exercise, or syncope
stress, or high environmental temperature. c. May exacerbate due to stress, heat, humid-
Hyperthermia may occur ity, weight gain, and endotracheal intubation
 CHAPTER 25 Respiratory Disorders 357

3. Physical examination B. Signs may include dyspnea and cough
a. Gentle tracheal palpation may induce C. Thoracic radiography or CT may demonstrate
cough. Sharp edges of the trachea may be foreign bodies or soft tissue density within the
palpated at the collapsed area tracheal lumen or extraluminal masses
b. High-pitched inspiratory sounds are heard D. Treatment
over a narrowed cervical trachea 1. Foreign body can often be removed with an
c. An end-expiratory snap may be heard over endoscope
the thorax with intrathoracic collapse 2. Tracheal resection and anastamosis is required
D. Diagnosis for tracheal neoplasia removal
1. Radiography
a. Inspiratory and expiratory views are
BRONCHOPULMONARY DISEASES
recommended to evaluate for cervical or
intrathoracic collapse. False-negative and I. Infectious tracheobronchitis (ITB) (see Chapter 18,
false-positive are common Infectious Diseases)
b. Fluoroscopy with induction of cough may II. Canine chronic bronchitis
be useful A. Causes and pathophysiology
2. Bronchoscopy can confirm the presence of 1. Cause is unknown. Immunologic stimulation,
collapse, identify passive or dynamic collapse, chronic mucosal irritation from air pollution,
and determine the extent and grade of the or chronic aspiration of gastrointestinal (GI)
disease content may cause chronic inflammation
3. Airway sampling should be obtained by 2. Neutrophilic infiltration of the airway induces
tracheal wash or tracheobronchoscopy for epithelial injury, mucus accumulation, and
cytology and culture (including Mycoplasma airway obstruction
spp.) to identify conditions that may worsen B. History and clinical signs
the signs 1. Middle-aged to older dogs, often overweight.
E. Treatment Small- and large-breeds are affected
1. General: Weight reduction is beneficial in 2. Presence of chronic cough, which may be
most cases. Limit exposure to environmental described as dry hacking or moist
stressors. A harness should be used in place 3. The dog is typically not systemically ill
of a collar 4. On physical examination, slow, deep respira-
2. Antitussives: Opiates (e.g., hydrocodone, tory pattern is typical. Prolonged expiration
butorphanol) are most effective with an expiratory push may be apparent in
3. Bronchodilators: May be beneficial when severe cases. Expiratory wheezes and coarse
there is evidence of concurrent small airway crackles may be evident on auscultation.
disease Respiratory sinus arrhythmia is usually
4. Antiinflammatory drugs: A short course of present in dogs with chronic bronchitis
prednisone may be required when tracheal and may be helpful to rule out congestive
inflammation is present heart failure (CHF) as the primary cause for
5. Antibiotics: Bacterial infection is uncommon. the cough
When suspected, doxycycline and enrofloxacin C. Diagnosis
are good first choices pending culture results 1. The diagnosis is based on the history, clinical
6. Surgical stabilization has been successful in findings, thoracic radiographs, and airway
reducing clinical signs in dogs with severe sampling to rule out other pulmonary causes
tracheal collapse that failed to respond to of cough
medical management. Serious complications 2. Generalized peribronchial infiltrates, character-
occur occasionally ized by “doughnuts” or “tram lines,” are typical
F. Prognosis: Irreversible disease. The goals of findings. Normal thoracic radiographs are com-
treatment are to minimize clinical signs mon and do not rule out bronchitis (Figure 25-1)
VII. Other causes of tracheal obstruction 3. Bronchoscopy is useful in the diagnosis and
A. Causes typically shows airway hyperemia and a
1. Intraluminal foreign bodies rarely cause roughened appearance to the mucosa. In-
complete obstruction creased mucus in the airways is present in
2. Extraluminal compression of the trachea may most cases. In some long-standing cases,
be caused by compression from extraluminal nodular proliferations of the mucosa are
masses such as thyroid carcinoma, hilar apparent
lymphadenopathy, mediastinal masses, or 4. Airway sampling should be obtained through
atrial enlargement endotracheal or transtracheal wash or with
3. Primary tracheal neoplasia is uncommon in bronchoscopy for cytology evaluation and
dogs and cats culture
a. Dogs: Osteosarcoma, chondrosarcoma, leio- 5. Typical findings on cytologic evaluation in-
myoma, mast cell tumor, adenocarcinoma, clude increased percentage of nondegenerative
and squamous cell carcinoma neutrophils and Curschmann’s spirals (airway
b. Cats: Lymphoma and adenocarcinoma mucus)
358 SECTION II SMALL ANIMAL

III. Bronchiectasis
A. Cause and pathophysiology
1. Irreversible dilation of the airways typically
accompanied by suppuration
2. Possible causes include chronic inflammation
(e.g., bronchitis, foreign body), smoke inhala-
tion, and primary ciliary dyskinesia
3. Dilated airways lack normal mucociliary clear-
ance and trap secretions distally
B. Clinical signs
1. Dogs are primarily affected. Rarely occurs in
cats
2. History usually includes chronic productive
cough, failure to respond to standard therapy,
and sometimes hemoptysis
3. Physical examination may reveal fever and ab-
normal lung sounds, such as crackles and in-
Figure 25-1 Lateral thoracic radiograph of a middle-aged dog with
creased bronchial sounds. Normal lung sounds
chronic cough attributable to bronchitis. A striking bronchial pattern well may be absent with lung consolidation
seen overlying the heart is present as a result of thickened bronchial C. Diagnosis
walls. (From Thrall DE. Textbook of Veterinary Diagnostic Radiology, 5th ed. 1. CBC may indicate inflammation
St Louis, 2007, Saunders.) 2. Thoracic radiography may show airway dila-
tion and lung consolidation but is not sensitive
3. CT may demonstrate increased airway space
6. Airway samples should be submitted to aerobic with thickened airway wall and is more sensitive
culture and Mycoplasma culture. The presence 4. Bronchoscopy can be very useful for the diag-
of oral contaminants on cytology (e.g., squa- nosis and may show the dilated airway, red-
mous cells or Simonsiella bacteria) makes a pos- dening of the mucosa, and accumulation of
itive culture result of questionable importance mucus or pus
D. Treatment 5. Cytologic evaluation of BAL fluids typically
1. General treatment includes weight reduction shows increased number of neutrophils and
for overweight dogs, environmental control sometimes intracellular bacteria. Both aerobic
(e.g., smoke, dust, heat) when possible, and and anaerobic cultures should be obtained
airway humidification (steam inhalation or 6. Electron microscopy on biopsies of tracheal ep-
nebulization) ithelium is used to diagnose ciliary dyskinesia
2. Antiinflammatory drugs are required to D. Treatment
decrease airway inflammation. Prednisone is 1. General therapy with nebulization, chest coup-
usually given at a dose of 0.5 to 1.0 mg/kg age, and postural drainage may assist in the
every 12 hours for 5 to 7 days, and then the removal of secretions from the airways
dose is tailored according to the response. 2. Antibiotic treatment should be based on cul-
Infection should be ruled out before predni- ture and sensitivity results. Long-term treat-
sone is administered ment may be required
3. Bronchodilators may be helpful in reducing 3. Lung lobectomy should be considered in cases
clinical signs through reduction of work of of focal bronchiectasis
breathing and stimulation of mucociliary clear- E. Prognosis: There is continued increased risk for
ance. -agonists (e.g., terbutaline, albuterol) infection in most cases
are more effective compared with theophylline. IV. Feline bronchial disease
The dose of theophylline should be reduced if A. Cause and pathophysiology
administered with enrofloxacin because enro- 1. An inflammatory process within the airways
floxacin inhibits its metabolism results in mucosal edema, increased bronchial
4. Antitussives should be used to suppress cough mucus, and reversible bronchoconstriction
if no infection is present and most of the 2. The cause is not identified in most cases.
inflammation and secretions are resolved Associations with Mycoplasma, Aelurostrongylus
5. Antibiotics are warranted when secondary in- abstrusus, and Dirofilaria immitis have been
fection has been documented. Doxycycline is a proposed in some affected cats
good first choice pending culture results. How- 3. Cats with bronchial disease are thought to
ever, infection is not a common component of have hyper-responsive airways
the disease B. Clinical signs
E. Prognosis 1. There is no gender or age predilection.
1. This is a chronic disease Siamese cats may be more sensitive
2. Goals of therapy are to control the degree of 2. A cat may present with a long-term history of
inflammation and clinical signs and early diag- coughing, gagging, and lethargy or with an acute
nosis and treatment of secondary infections episode of respiratory distress and cyanosis
 CHAPTER 25 Respiratory Disorders 359

3. On physical examination, prolonged expiration 2. Exposure to a variety of insults can initiate a
and decreased thoracic compliance may be chronic progressive inflammatory process,
evident in some cats. Thoracic auscultation which may lead to diffusion impairment, lung
may reveal wheezes or crackles. Open-mouthed fibrosis, and eventually end-stage restrictive
breathing and cyanosis occur in an acute lung disease
episode B. Clinical signs
C. Diagnosis 1. Small-breed dogs, especially West Highland
1. CBC may reveal eosinophilia in some cats. white terriers may be at increased risk
Fecal examination to detect parasitic infection 2. History typically includes shortness of breath
and heartworm testing are indicated in and exercise intolerance. Episodes of syncope
endemic areas may occur
2. Typical thoracic radiographic findings include 3. Physical examination may reveal tachypnea
an interstitial peribronchial pattern with and sometimes cyanosis. Typical findings on
“doughnuts” and “tram lines.” Additional auscultation are diffuse inspiratory crackles.
findings may include lung hyperinflation, Split-second heart sound may be evident when
patchy alveolar pattern, or lung consolidation. pulmonary hypertension develops
Normal radiographs do not rule out the C. Diagnosis
diagnosis 1. Thoracic radiographs usually show diffuse in-
3. Bronchoscopy can reveal mucus accumulation terstitial pattern but may be normal
or plugging and nodular irregularities 2. BAL cytology shows increased percentage
4. Cytologic evaluation of airway fluids obtained of neutrophils but no mucus. Cultures are
by endotracheal washing or bronchoscopy can negative
include eosinophilic, neutrophilic, or mixed in- 3. Pathology of lung tissue shows interstitial
flammatory responses. (Normal cats may have fibrosis in cats and increased collagen in West
as much as 25% eosinophils on cytology) Highland white terriers, with no inflammation
5. Culture of airway fluids is warranted when D. Treatment
there is evidence of infection on cytology. 1. Decrease exposure to possible triggers and
Cultures of many healthy cats are positive for control weight
Mycoplasma spp. 2. Prednisone at antiinflammatory to
6. Pulmonary function tests indicate higher immunosuppressive doses may result in
airway resistance improvement
D. Treatment 3. A trial therapy with bronchodilators may be
1. Emergency therapy considered
a. Minimize stress E. Prognosis is guarded
b. Administer a bronchodilator (e.g., terbuta- VI. Bronchopneumonia of infectious origin
line, albuterol) subcutaneously or through A. Causes
an inhaler 1. Pulmonary infections are common. Most cases
c. If there is no immediate improvement, are of bacterial origin
administer short-acting parenteral 2. Infection is typically by inhalation. The hema-
corticosteroids togenous route is less common
2. Chronic management 3. Predisposition for bacterial pneumonia is
a. Antiinflammatory drugs are the mainstay of present in many cases, including ITB, chronic
therapy. A high dose of prednisolone is bronchitis, aspiration of oral or GI content
given for several days and then tapered from vomiting or laryngeal paralysis, immuno-
according to the clinical response. Alterna- suppression, foreign body
tively, long-acting steroid injections or B. Clinical signs
inhaled steroids may be used. Treatment 1. Typical signs include tachypnea, respiratory
may be discontinued in 50% of the cats distress, productive cough, and fever.
b. Oral bronchodilators (e.g., terbutaline, the- Mucopurulent nasal discharge may be
ophylline) may help to control clinical signs present
and decrease the dosage of corticosteroids 2. Auscultation reveals increased bronchial
required sounds and crackles
c. Control of environmental triggers (e.g., C. Diagnosis
smoke, dust) may be beneficial in some 1. Typical findings of bacterial bronchopneumo-
cases nia on thoracic radiographs include alveolar
d. -blocker drugs can cause bronchoconstric- pattern with air bronchogram in a cranioven-
tion and should be avoided tral distribution. Dorsocaudal pulmonary infil-
E. Prognosis: The disease can be chronic with either trates are more likely to be caused by atypical
persistent signs or recurrent episodes microorganisms (mycoplasmas, fungal
V. Interstitial lung disease infections, mycobacteria) or hematogenous
A. Causes and pathophysiology pneumonia
1. The cause is unknown and probably multifac- 2. CBC may reveal leukocytosis with a left shift or
torial. Genetic factors may play a role neutropenia
360 SECTION II SMALL ANIMAL

3. Cytology of airway lavage demonstrates in- 2. Cytologic examination of BAL commonly
creased numbers of degenerative neutrophils, reveals eosinophilic inflammation. Fungal
often with intracellular bacteria. Culture is elements may be found with mycotic infections
typically positive 3. Definitive diagnosis of noninfectious forms
D. Treatment requires lung histopathology
1. Antibiotic treatment should be based on D. Treatment
culture and sensitivity results 1. Treat pulmonary mycosis or heartworm infec-
2. Bronchodilator therapy (e.g., theophylline) tion when diagnosed
may be beneficial 2. The noninfectious forms require immunosup-
3. Supportive therapy includes intravenous (IV) pressive therapy, including prednisone or a
fluids, airway humidification, and coupage combination of cytotoxic drugs
VII. Pulmonary infiltrates with eosinophils E. Prognosis is guarded
A. Causes and pathophysiology IX. Noncardiogenic pulmonary edema
1. Lungworms, heartworms, larval migration, A. Causes and pathophysiology
fungal infections and hypereosinophilic syn- 1. High-pressure edema is caused by overexpan-
drome may be associated with accumulation sion of plasma volume or decreased oncotic
of eosinophils in the lungs. Many cases are pressure that leads to fluid accumulation in
idiopathic the lung
2. Eosinophils activation cause epithelial injury, 2. Permeability edema is caused by damage to
leading to increased mucus and increased the alveolocapillary membrane that allows
resistance to airflow protein-rich fluid to flood the alveoli (e.g.,
B. Clinical signs aspiration pneumonia, smoke inhalation,
1. History usually includes exercise intolerance, sepsis, and anaphylaxis)
cough, and sometimes hemoptysis B. Clinical signs
2. Thoracic auscultation may reveal increased 1. History includes signs of tachypnea,
bronchial sounds and diffuse coarse crackles respiratory distress, and cyanosis
C. Diagnosis 2. Thoracic auscultation reveals fine crackles
1. CBC may show leukocytosis with eosinophilia C. Diagnosis
and basophilia 1. Thoracic radiographs show patchy interstitial
2. Tests for heartworm, lungworm, and parasitic and alveolar pattern in the periphery and
infections should be performed caudodorsal lung lobes
3. Thoracic radiographs typically show a mixed D. Treatment
infiltrative pattern 1. Treat the primary disease
4. Bronchoscopy reveals hyperemic airways, 2. There is no specific therapy. Supportive
with mucus. Polypoid proliferations on the treatment may include: Oxygen therapy,
epithelium and bronchiectasis may be seen sedation, and mechanical ventilation. IV fluids
5. Cytology of airway fluid reveals increased and diuretics should be used with caution
percentage of eosinophils X. Pulmonary thromboembolism
D. Treatment A. Underlying causes include heartworm disease,
1. Removal of possible allergens and empiric pulmonary neoplasia, septicemia, amyloidosis,
anthelmintic treatment are warranted hyperadrenocorticism, and immune-mediated
2. Immunosuppression glucocorticoid therapy is hemolysis
required in most cases B. Clinical signs include dyspnea and right-sided
VIII. Granulomatous pulmonary diseases heart failure
A. Causes C. Radiographic findings include blunted pulmonary
1. Commonly associated with systemic fungal arteries and hypovascularity of the affected lung.
infections in endemic regions However, abnormalities may be absent
2. Noninfectious forms include eosinophilic pul- D. Treatment is based on resolving the underlying
monary granulomatosis, which is associated cause
with heartworm infection and pulmonary lym- XI. Lung contusion
phomatoid granulomatosis, which is probably A. Hemorrhage into the pulmonary parenchyma,
a neoplastic condition most often caused by blunt thoracic trauma
B. Clinical signs B. Clinical signs include acute dyspnea and possibly
1. Any age or breed may be affected shock from blood loss
2. History includes chronic respiratory distress, C. Diagnosis
cough, and systemic signs 1. Auscultation may reveal crackles over a
3. Thoracic auscultation reveals wheezes and contused area or decreased lung sounds
coarse crackles suggestive of lung consolidation or pleural
C. Diagnosis effusion
1. CBC typically shows leukocytosis. Hyperglobu- 2. Thoracic radiographs typically reveal irregular
linemia may be present. Thoracic radiographs patches of mixed interstitial-alveolar densities.
reveal nodular pattern with hilar lymphade- Radiographic changes may be delayed for up
nopathy to 24 hours
 CHAPTER 25 Respiratory Disorders 361

D. Treatment C. Clinical signs
1. Transfusion of whole blood as indicated 1. Occur in older animals. Larger dogs may be
2. Administer oxygen if needed at increased risk. There is no sex or breed
3. Bronchodilators may improve ventilation predilection
4. Frequent repositioning of a recumbent animal 2. The most common clinical sign is chronic
to prevent atelectasis cough. Dyspnea and weight loss may also oc-
5. Positive-pressure assisted ventilation may be cur. No signs may be apparent in some cases
necessary in severe cases D. Diagnosis
XII. Lungworms 1. Thoracic radiography usually reveals a mass
A. Causes lesion. Evaluation of three views (ventrodorsal,
1. Aelurostrongylus abstrusus is a nematode that right lateral, and left lateral) is recommended.
requires a snail as intermediate host and in- Up to 11% of pulmonary neoplasms might not
fects cats when they eat transport hosts be detected in survey radiographs. CT or MRI
(birds, small mammals, reptiles) may be useful to detect occult masses
2. Paragonimus kellicotti infects dogs and cats 2. Cytologic evaluation of sample obtained by
by their ingestion of an intermediate host percutaneous transthoracic fine-needle aspira-
(crayfish, aquatic snail) or by a transport host tion or airway lavage may detect neoplastic
(e.g., raccoon) cells in some cases
3. Capillaria aerophilia infects dogs and cats by a 3. Lung biopsy obtained by bronchoscopy, thora-
direct life cycle coscopy, or thoracotomy is usually required to
4. Crenosoma vulpis infrequently infects dogs confirm the diagnosis
5. Oslerus osleri forms granulomas near the tra- E. Treatment
cheal bifurcation. Filaroides milksi is a bron- 1. Surgical excision of solitary masses is the
chopulmonary parasite, and Filaroides hirthi is treatment of choice
a lung parasite. These nematodes infect dogs 2. Adjunctive chemotherapy may improve
by direct transmission survival in some cases
B. Clinical signs
1. Signs are apparent most often in young
DISORDERS OF THE THORACIC CAVITY
animals that are heavily infested
2. Cough is the most common sign I. Thoracic wall trauma
C. Diagnosis A. May be due to blunt or penetrating injuries
1. CBC may reveal eosinophilia B. Pain may lead to hypoventilation because the
2. Thoracic radiography findings may include in- animal is unwilling to breathe
terstitial to granulomatous patterns. Air-filled C. A flail segment may be present when multiple
cystic structures may appear with Paragonimus segmental rib fractures produce a free segment of
infection thoracic wall, which moves inward during inspira-
3. Fecal flotation can identify ova (Capillaria, Par- tion and outward during expiration
agonimus) or larva (Aelurostrongylus, Osleri, 1. Flail chest segments can initially be stabilized by
Filaroides). Baermann technique may be positioning the animal with the flail side down
required 2. Surgical stabilization may be required
4. Typical cytology findings of airway lavage in- D. Subcutaneous emphysema can occur with blunt
clude eosinophilic infiltrate. Parasitic ova or or penetrating trauma. The condition is usually
larva may be demonstrated self-limiting; treatment should be directed at the
D. Treatment underlying cause
1. Fenbendazole is the safest antiparasitic drug II. Pneumothorax
2. Adjunctive treatment with prednisolone may A. Cause
be beneficial in cases of severe eosinophilic 1. Traumatic pneumothorax is more common.
pulmonary reaction Blunt trauma may cause pulmonary or bron-
E. Prognosis is generally good unless severe granu- chial rupture and closed pneumothorax. Pene-
lomatous disease has developed trating trauma through the thoracic wall
XIII. Other respiratory parasites causes an open pneumothorax
A. Dirofilaria immitis is found in the pulmonary 2. Spontaneous pneumothorax is caused by
arteries, causing secondary pulmonary injury rupture of pulmonary blebs or bullae and is
(see Chapter 12, Cardiovascular Disorders) considered primary when there is no evidence
B. Toxoplasma gondii may cause pneumonia of underlying pulmonary disease. Secondary
(see Chapter 18, Infectious Diseases) spontaneous pneumothorax is more common
XIV. Pulmonary neoplasms and may occur with pulmonary abscesses,
A. Carcinomas (bronchial, bronchoalveolar, or alveo- emphysema, neoplasia, pneumonia, or
lar) are the most common primary lung tumors parasites
in dogs. Metastatic rate at the time of diagnosis B. Clinical signs
is high 1. Primary spontaneous pneumothorax
B. Metastatic pulmonary neoplasms are more occurs most frequently in large, deep-
common chested dogs
362 SECTION II SMALL ANIMAL

2. History of a traumatic event may be present C. Diagnosis
with traumatic pneumothorax. History 1. Physical examination
of previous respiratory signs may be a. Thoracic auscultation reveals muffled heart
present with secondary spontaneous and lung sounds ventrally
pneumothorax b. On percussion, the thorax sounds dull and
3. The animal presents with acute dyspnea, and hyporesonant
shallow rapid respiration. Cyanosis may be 2. Thoracic radiography usually confirms pleural
evident effusion. Signs include separation of the lung
C. Diagnosis lobes from the parietal pleura and sternum and
1. Auscultation may reveal decreased heart and obscuring of the cardiac and diaphragmatic
lung sounds. On percussion, the thoracic shadows
cavity is hyperresonant 3. Thoracocentesis provides pleural fluids for
2. Thoracic radiograph findings may include ele- analysis and therapeutic drainage. The fluid
vation of the heart off the sternum, collapse may be classified as transudate, modified
of the lung lobes and retraction from the transudate, nonseptic exudate, septic exudate,
chest wall, and a radiolucent area of free air chylous effusion, or hemorrhage
(Figure 25-2) 4. Laboratory evaluation may provide useful
D. Treatment information on the underlying cause
1. Open chest wounds should be covered 5. Ultrasonography of the thorax may confirm
immediately the presence of pleural fluids and help in the
2. Thoracocentesis should be performed to diagnosis of some of the primary causes
stabilize a dyspneic animal (e.g., mediastinal mass, diaphragmatic hernia,
3. Thoracostomy tube may be required if air cardiac disease)
accumulates rapidly D. Pyothorax
4. Once the animal is stable, an underlying cause 1. Causes
for spontaneous pneumothorax should be a. Accumulation of purulent exudate within
considered the pleural space as a result of intrapleural
III. Pleural effusion bacterial infection (septic pleuritis) or,
A. An abnormal accumulation of fluid within the rarely, mycotic infection
pleural space. It occurs when fluid formation is b. Mixed bacterial infections are most common,
increased (e.g., increased capillary hydrostatic but entire anaerobic bacterial and fungal
pressure), fluid absorption is decreased (e.g., infections may also occur
decreased colloidal osmotic pressure), or pleural c. The source of infection in not identified in
capillary permeability is increased (e.g., pleural most cases. Possible sources include pene-
inflammation) trating chest wounds, perforations of medi-
B. Clinical signs astinal structures (i.e., esophagus, trachea,
1. Dyspnea and exercise intolerance are the most bronchi), migrating foreign bodies (e.g.,
common signs grass awns), direct extension from the lung
2. The animal may prefer sitting or standing with in bacterial pneumonia, and hematogenic
extended head and abducted elbows spread from distant infection
2. Clinical signs may include fever, depression,
and anorexia, in addition to dyspnea
3. Diagnosis
a. Hematologic findings typically include neu-
trophilia with left shift and neutrophilic tox-
icity. Neutropenia with a degenerative left
shift may occur in severe cases
b. Thoracic radiography findings are typical of
pleural effusion
c. Pleural fluid analysis reveals an opaque
fluid with protein concentration greater
than 4.5 g/dL and nuclear cell count
greater than 50,000/ L (mostly degenerated
neutrophils). Cytologic examination of the
fluid reveals intracellular bacteria. Culture
for aerobic and anaerobic bacteria should
be performed
4. Treatment
a. Antibiotic treatment is based on culture and
Figure 25-2 Lateral radiograph of a dog with pneumothorax. Note sensitivity results and should last for at
the apparent elevation of the heart from the sternum. (From Ettinger SJ, least 6 weeks
Feldman EC, editors. Textbook of Veterinary Internal Medicine, 6th ed. b. Place thoracic tube to allow intermittent
St Louis, 2005, Saunders.) drainage and lavage of the pleural cavity
 CHAPTER 25 Respiratory Disorders 363

5. Complications include pleural adhesion and 4. Treatment
pulmonary abscess formation and require a. Treat hypovolemic shock with IV fluids or
thoracotomy to break the adhesions and blood transfusion
remove diseased tissue b. Perform thoracentesis to relieve respiratory
E. Chylothorax distress
1. Causes c. Consider exploratory thoracotomy for
a. Accumulation of chyle in the pleural space animals that fail to stabilize
b. The cause is unknown in most cases. Possi- G. Feline infectious peritonitis (see Chapter 18,
ble causes include lymphangiectasia of in- Infectious Diseases)
trathoracic lymphatics, traumatic rupture of H. Congestive heart failure (CHF) (see Chapter 12,
the thoracic duct, intrathoracic neoplasia, Cardiovascular Disorders)
cardiac disease, diaphragmatic hernia, I. Lung-lobe torsion
lung lobe torsion, and vena caval 1. The mechanism is unknown. Lung-lobe torsion
thromboembolism may be the cause or the result of the pleural
c. Some breeds (Afghan hound, Shiba Inu, effusion
Siamese and Himalayan cats) are predis- 2. Clinical signs are typical of pleural effusion
posed to idiopathic chylothorax 3. Diagnosis
2. Clinical signs often include coughing in a. Thoracic radiography after thoracocentesis
addition to typical signs of pleural effusion reveals a consolidated lung lobe
3. Diagnosis b. Pleural fluid analysis may vary
a. Chylous effusion is characterized by higher c. Ultrasonography may be helpful to identify
triglyceride and lower or equal cholesterol lung-lobe torsion
concentrations compared with the serum. d. Confirmation of the diagnosis requires
Pleural fluid cholesterol-to-triglyceride ratio thoracotomy in many cases
is less than 1 4. Treatment is by lung lobectomy
b. Cytologic examination of pleural fluids J. Thymic branchial cysts
reveals mostly small lymphocytes 1. Multicystic masses in the cranial mediastinum.
c. An underlying cause should be considered Develop from vestiges of the fetal branchial
4. Medical treatment arch system. Usually cause pleural effusion
a. Treat any underlying cause. Traumatic 2. Pleural fluid may be modified transudate or
thoracic duct rupture is treated by periodic nonseptic exudates
pleural drainage and rest 3. Treatment is by surgical resection
b. A fat-restricted diet supplemented with K. Diaphragmatic hernia
medium-chain triglycerides that has been 1. May be complicated by pleural effusion, which
recommended in the past is not effective is usually a modified transudate, but may be
clinically blood or chyle in some cases
c. Administration of rutin may be beneficial, 2. See soft tissue surgery section for further dis-
but clinical results are inconsistent cussion
5. Surgical treatment is indicated if no underlying L. Pancreatitis-associated effusion
medically treatable cause is found 1. Mild transient pleural effusion may occur with
a. Ligation of the thoracic duct at the level of acute pancreatitis
the diaphragm. Partial pericardectomy may 2. The pathogenesis is not fully understood
improve the success rate of the procedure 3. Usually self-limiting
b. Pleuroperitoneal shunting may be per- M. Pulmonary thromboembolism
formed in refractory cases 1. Pleural effusion may occur whenever pulmonary
c. Pleurodesis (using tetracycline or sterile thromboembolism is extensive enough to pro-
talc) may be palliative in some cases duce infarction and ischemic necrosis of the lung
6. Complications include development of chronic 2. The effusion is usually a modified transudate
fibrosing pleuritis. Surgical decortication or nonseptic exudate
(removal of the layer of fibrin and fibrotic 3. Treatment involves managing the underlying
reaction covering the visceral pleura) is cause and drainage of the pleural effusion
indicated to avoid excessive pleural fibrosis N. Intrathoracic neoplasia
F. Hemothorax 1. Neoplastic pleural effusion is caused by hemolym-
1. Accumulation of blood within the pleural phatic obstruction. Common causes include medi-
space may be caused by thoracic trauma, astinal lymphoma and thymoma, primary and met-
ruptured thoracic neoplasia, disorders of astatic pulmonary neoplasia, and mesothelioma
hemostasis, or lung lobe torsion 2. Diagnosis
2. Clinical signs include shock due to blood loss a. Thoracic radiography and ultrasonography
and dyspnea due to pleural effusion may reveal a mass in addition to pleural fluids
3. Diagnosis b. The fluid may be classified as modified
a. Thoracic auscultation and percussion are transudate, nonseptic exudates, or chyle
typical for pleural effusion 3. Treatment involves drainage of the pleural ef-
b. Thoracentesis yields nonclotting blood fusion and treating the underlying neoplasia