Sore Throat, Cough, and Stridor PDF

Summary

This presentation discusses sore throat, cough, and stridor in children. It covers various causes, symptoms, and management strategies. Useful for medical professionals, possibly during a presentation or training session.

Full Transcript

Sorethroat,cough,and
stridor

Dr. Salah Abdulkareem Ibrahim
M.B.Ch.B. F.K.B.M.S.
College of medicine/University of Dohuk
[email protected]
What is a sore throat?
It is a pain at the back of your throat.
A sore throat is usually a symptom of an
infective process. It refers to a painful
problem of the child, usually in the pharynx
and often begins as a swallowing complaint.
A sore throat can occur in all age groups
Sometimes caused by an allergy.
 WHAT ARE THE COMMON
CAUSES OF SORE THROAT?:
Viral pharyngitis: Viruses that cause sore throat
include the common cold virus, other upper
respiratory tract viruses, adenovirus
Streptococcal Pharyngitis: caused by the
bacteria group A streptococci. It is most common
in children over three years old and begins with
a fever, a red, swollen throat and tonsils that can
have a white coating of pus, swollen glands,
decreased appetite
 Less common:
Infectious Mononucleosis: a common illness usually
caused by the Epstein-Barr virus (EBV). It typically
infects teenagers and young adults, but also occurs in
younger children, who have a much milder illness that is
often not recognized as mono. Symptoms of mono
consist of a high fever, sore throat, swollen tonsils with
pus on them, fatigue, an enlarged spleen, and swollen
glands that may be tender.
Herpangina: usually caused by the Coxsackie virus,
causing painful blisters in the back of the child’s throat.
Gingivostomatitis: caused by a herpes virus, which can
also cause blisters in the mouth.
 Other less common but severe infections often progressing to
pharyngeal swelling, or abscess formation, even approaching
surgical emergencies:
Epiglotitis
Retropharyngeal abscesses
Lateral Pharyngeal abscesses
Peritonsillar abscesses
 These conditions are usually associated with high fever, drooling, severe
pain and difficult breathing. Urgent evaluation and treatment is required:
Epiglotitis
Tracheitis
 TAKING THE HISTORY – COMPLAINTS
AND DURATION (symptoms):
How long has the sore throat been present?
Rapid or slower onset? Are there associated
colds or coughs? Is there discoloured sputum?
Has there been ear ache or runny nose? Has
there been a fever? Has anyone else in the
family had sore throat recently? Is the
immunization schedule up to date? Are there
known allergies? Are there other illness factors –
fatigue, medications, immunosuppression
 EXAMINATION FINDINGS
WHAT TO LOOK FOR (signs)
examine for fever, fast pulse, difficult painful
breathing and swallowing - swollen, tender
cervical lymph nodes - oral mucosal ulcers,
blisters - swollen purulent tonsils, evidence of
foreign body? fishbone? - red, painful pharynx -
nasal stuffiness, ear drums - stridor, drooling,
wheezing - oral health, dental exam - complete
chest examination necessary
 CLINICAL FINDINGS:
Bacterial Viral
Fever > 39.5 ºC absent or
present
WBC < 5 or > 15 5 – 15
Discharge, Pus (thick, clear or light
nasal or throat dark yellow, yellow, runny
orange or
colour)
Seasonal – +
Petechiae + –
Gram stain / Blood, viral swab
culture sputum,
 Investigations

Throat swab is NOT routinely recommended for sore throat, with the
exception of the high-risk group
Consider other investigations if:
Suspected suppurative complications: relevant imaging
Hepatosplenomegaly: FBE, monospot, +/- EBV serology
Streptococcal serology has no role in diagnosis of GAS pharyngitis
 LABORATORY – GRAM STAIN AND CULTURE:
Bacterial (~ 30% of cases) Viral (~ 40% of cases)

Common GABHS ,Staphylococcus RhinovirusAdenovirusPar
aureus(Moraxella)Branhamella catar ainfluenza
rhalisBacteroides fragilis virusCoxsackie virus
Bacteroides oralis Coronavirus
Bacteroides melaninogenicus Echovirus
Fusobacterium species Herpes simplex virus
Peptostreptococcus species Epstein-Barr virus
Haemophilus influenzae ~~~(mononucleosis)
Cytomegalovirus
Uncomm Group C streptococciGroup G
streptococciNeiseria
on gonorrhoeaeChlamydia trachomatis
Mycoplasma pneumoniae
Rare Corynebacterium diphtheriae

Extremel Corynebacterium hemolyticum
y rare
No pathogen isolated: ~ 30% of cases
Principle of Management

Symptomatic relief
Antibiotic choice dependent on culture,
sensitivity and any drug allergies in the
child
Urgent or emergency care depending on
degree of respiratory symptoms
 Red flags

Unwell/toxic appearance
Respiratory distress
Stridor
Trismus
Drooling
(muffled voice associated with pharyngeal/peritonsillar
pathology)
Torticollis
Neck stiffness/fullnes
cough
 Background
Cough is a common indication of
respiratory illness and is one of the more
common symptoms of children seeking
medical attention. Not only does it cause
discomfort for the child, cough also elicits
stress and sleepless nights for their
parents.
 Physiology/ Mechanics of
coughing
Three phases:
1. Inspiratory phase: air inhalation lengthens the expiratory
muscles (favorable length-tension relationship).
2. Compressive phase: contraction of expiratory muscles
against a closed glottis leads to an increase in intrathoracic
pressure.
3. Expiratory phase: opening of the glottis results in high
expiratory flow and audible coughs. During this phase, the
airway undergoes dynamic compression and the expulsion
of air facilitates airway debris and secretions clearance.
 Cough pathway
Each cough is elicited by the stimulation of the cough
reflex arc. Cough receptors, which are afferent endings
of the vagus nerve (cranial nerve X), are scattered in the
airway mucosa and submucosa. Some of these
receptors are mechanosensitive and some are
chemosensitive. Mechanoreceptors are sensitive to
touch or displacement and are located mainly in the
proximal airway such as larynx and trachea.
Chemoreceptors are sensitive to acid, heat, and
capsaicin derivatives through the activation of type 1
vanilloid receptor (TRPV1) and are located mainly in the
distal airways.
 Cough pathway/cont.
Via the vagus nerve, impulses from the cough
receptors are propagated to the cough center in
the medulla and nucleus tractus solitaris.
Efferent impulses are generated from the cough
centre and are propagated via the spinal motor
(to expiratory muscles), phrenic (to the
diaphragm), and vagus (to the larynx, trachea,
and bronchi) nerves to the expiratory organs to
produce cough
 Classifications of Cough
is usually classified based on its duration, quality
or etiology. They are helpful indicators to guide
your differential diagnosis.
Duration: acute (< 2 weeks), subacute (2-4
weeks), chronic (> 4 weeks)
Quality: moist/wet/productive vs. dry
Etiology: specific (attributable to an underlying
problem) or non-specific (absence of identifiable
problem)
 Questions to Ask
Ask about the age/duration of onset (congenital
cause).
Nature of cough; How long has the child been
coughing for? Acute/ subacute?
Chronic paroxysmal cough?
Chronic productive (wet-moist) cough?
Barking/brassy sounding?
Staccato sounding?
Honking (Goose-like) sounding? Whooping
sound? What time of the day is the cough worst?
What type of exposure triggers the cough?
 Questions to Ask
What relieves the cough? Has the child been on medication
before (ex. Bronchodilators)? Did this help with the present
episode? Is there any shortness of breath ? Is there
increased work of breathing? Is there associated vomiting
(post-tussive emesis)? Is there hemoptysis? Is there
evidence of fevers, failure to thrive or weight loss? Is the child
passively or actively exposed to smoke from tobacco,
marijuana, cocaine, or wood-burning stove? Ask about a
history of choking (suspect foreign objects in airway). What
pets or animals did the child have contact with? Ask about
prenatal and neonatal history. Is there a family history of
atopy (eczema, allergies, asthma), cystic fibrosis, and/or
primary ciliary dyskinesia?
Differential Diagnosis
Duration Common Etiologies
Acute cough less than 2 wk Classical recognizable cough: o Laryngotracheobronchitis
– barking cough ,Staccato – Chlamydia (infant) , Paroxymal
– pertussis and para-pertussis ,Psychogenic – honking
cough Acute upper / lower respiratory tract infection (ARI)
Foreign body aspiration Asthma Inhalation injury (acute
exposure to smoke or volatile substances) Embolism
hemorrhage (rare)

Subacute cough (2-4 weeks) Post viral cough Acute bronchitis
Chronic cough (> 4 weeks) Non specific cough: Post viral. Increased cough receptor
sensitivity , Asthma , Gastroesophageal reflux. Upper
airway problems ,Functional disorders Subacute bronchitis
Bronchiectasis or recurrent pneumonia: Cystic fibrosis
Ciliary dyskinesia , Immunodeficiency ,Congenital lung
lesions Aspiration Chronic infections:Tuberculosis Non-
tuberculous mycobacteria Interstitial lung disease (i.e.
Rheumatic diseases)
 Physical Examination
During the physical examination, you should pay
attention to the following signs: ABC! Vital signs,
including O2 saturation. Growth parameters – signs of
poor growth and/or failure to thrive. Assess work of
breathing. If patient able, listen to their cough. Inspect
chest wall for signs of hyperinflation and deformities.
General inspection for stigmata of chronic disease.
Examine for nasal polyps and other nasal passage
obstruction. Auscultate: is air entry symmetric? Are
there adventitious sounds? Describe its location and
quality (crackles, crepitations, wheeze) Auscultate for
heart sounds. Examine for edema, cyanosis, clubbing of
fingers/toes, and skin lesions
 Investigations
Chest X-ray Chest radiograph can provide you with
additional information, such as infiltrations/
consolidations, hyperinflation, peribronchial thickening,
hyperinflation, atelectasis and chronic lung changes.
Pulmonary Function Test Can help delineate
obstructive vs. restrictive lung disease Required in the
diagnosis of asthma (child must be >6y and cooperative)
Bronchoscopy Useful if suspicion for foreign body is
high.
Mantoux Testing (Tuberculin Skin Test) To screen for
tuberculosis infection.
treatment
stridor
 In General
Stridor is derived from the latin word stridulus, meaning a harsh,
shrill sound.
Stridor is described as a high-pitched, monophonic sound derived
from the upper airways (compared to the polyphonic sound heard
in the lower airway in wheezing).
Stridor is a common presentation in pediatric patients and requires
prompt evaluation. The first priority in the evaluation of a child with
stridor is to determine if there is respiratory compromise.
The age of onset, patient history, tonal quality, and relation to the
timing of the respiratory cycle is critical to the workup of a patient
with stridor.
Stridor can be inspiratory, expiratory, or biphasic; this may aid in
determining the anatomic location of the airway obstruction.
Inspiratory stridor is more likely to be caused by extrathorasic
obstruction to air flow while expiratory stridor is more likely to
occur with intrathorasic pathology.
 Pathophysiology:
1. Stridor is caused by restriction of airflow through the upper
airways.
2. The decrease in the area of the airway leads to a proportional
increase in velocity due to the Venturi Effect (this same effect can be
seen when a thumb is placed over the end of a garden hose). The
increase in velocity creates a low-pressure vacuum, exacerbating
airway collapse (Bernoulli Principle).
3. This ultimately leads to increased airway resistance, increase
effort of breathing, and the clinical finding of stridor.
4. Due to the smaller diameter of the pediatric airway compared
to that of adults, even minor changes can lead to a marked reduction in
overall airway calibre.
5. 1mm of edema in the average adult airway leaves 81% of the
cross-sectional area patent, while the same 1mm of edema in a
pediatric patient results in only 44% patency.
 Etiology:

a.Congenital anomalies:
i.Laryngeal:
ii.Tracheal:
iii.Bronchial:
b.Traumatic
c.Infectious
Age of Onset:
Age of onset is a key factor in developing a differential diagnosis
for stridor in pediatric patients. Congenital abnormalities of the
upper airway typically present in the first few weeks to months of
life and are the most common causes of stridor (87%).
a. Common causes of stridor at birth include:
vocal cord paralysis, choanal atresia, laryngeal web, or
vascular ring.
b. Common causes of stridor during the first few weeks of life
include:
laryngomalacia, tracheomalacia, and subglottic stenosis
c. Common causes of stridor from 1-4 years of age:
croup, epiglottitis, foreign body aspiration
– Stridor occurring in toddlers is most likely due to foreign body
aspiration.
– Infectious causes can occur in children of all ages.
 Acuity of Onset:

Acute onset of stridor in toddlers should raise the suspicion
for a foreign body aspiration.
In some children, stridor will not appear for time due to
reactive inflammation of the airway, so a remote history of
aspiration should be evaluated in the patient's history.
The onset of stridor along with fever, chills, and toxic
appearance should allude to an infectious cause of
epiglottitis or tracheitis.
Chronic stridor may represent an indolent structural
process such as laryngomalacia, laryngeal web, or
laryngotracheal stenosis.
 Past Medical History:

Evaluation should include aspects of a patient's prenatal and
perinatal history and should include:
a. Prematurity, birth weight, mode of delivery,
intubation/ventilation, infections, allergies, congenital
syndromes.
i. A history of intubation should focus on:
– Number of intubations, duration of intubation, size of
ETT
a. This will give an idea about potential trauma to the
airway.
b. A history of intubation is associated with
laryngotracheal stenosis or vocal cord paralysis.
b. A history of atopy may indicate angioedema
c. A viral prodrome with fevers suggests an infectious etiology.
Physical Exam:
Vital signs are crucial in identifying patients with
impending respiratory collapse.
- Continuous pulse oximetry and close observation.
Observation of respiratory effort
Auscultation helps to determine the possible location of
the airway obstruction. Timing of stridor with a respiratory
cycle, as well as its tonal quality, is helpful in elucidating
the location of the airway narrowing.
a.Classically, inspiratory stridor indicates epiglottic
pathology while expiratory stridor alludes to intrathorasic
obstruction.
b.Biphasic stridor is indicative of a "fixed" obstruction,
typically located in the larynx or cricoid cartilage.
A weak cry or hoarseness can allude to glottic etiologies
 Precipitating Factors:
Parents are often astute in noticing what factors
aggravate or decrease their child's stridor.

Worsening with agitation: Laryngomalacia or
subglottic hemangioma.
Worsening while supine: laryngomalacia,
tracheomalacia, macroglossia, or micrognathia.
Worsening with feeding: laryngomalacia, TE
fistula, vascular malformation.
 Diagnostic Testing:

Imaging:
a. AP and lateral radiographs of the neck may be useful in
assessing for size of the epiglottis, retropharyngeal profile, and
defining general tracheal anatomy.
b. AP and lateral radiographs of the chest may identify radio-
opaque foreign bodies.
c. Inspiratory and expiratory films may be useful in
demonstrating air-trapping due to airway obstruction.
i. A positive exam will reveal hyperlucency of the obstructed
lobe during expiration compared to inhalation due to air-
trapping.
ii. May also see a shift of the mediastinum to the side
opposite the obstruction.
Diagnostic Testing/cont.
Flexible Fiberoptic Laryngoscopy:
a. Often, direct visualization of the airway is necessary to
confirm a suspected diagnosis.
b. Flexible laryngoscopy and flexible bronchoscopy is helpful
in identifying the exact anatomic location of the
obstruction.
Direct bronchoscopy under general anesthesia allows for
intervention such as removal of foreign bodies or tissue
biopsy.

Labs:
a. A CBC is helpful if a patient presents with an infectious
picture.
b. Arterial blood gasses may be indicated if a patient present
with significant respiratory distress. This allows for an
assessment of potential hypoxia and hypercarbia.
treatment