CMS150 Week 2 Sore Throat (Moodle Version) PDF

Summary

This document is a lecture for a clinical medicine course, CMS150, given at the Canadian College of Naturopathic Medicine in January 2023, covering a case study about sore throat.

Full Transcript

CMS150 CLINICAL MEDICINE
WEEK 2
JANUARY 2023
LEARNING OUTCOMES
1. Differentiate between chronic and acute pharyngitis
2. Differentiate between infectious and non-infectious causes of pharyngitis
3. Follow a systematic approach to the diagnosis of acute pharyngitis
4. Identify alarm symptoms associated with acute pharyngitis
5. Identify alarm symptoms associated with cough
6. Apply the modified Centor score to patient cases
7. Know the relative frequencies of the causes of acute pharyngitis and how they vary based on patients’
epidemiological characteristics
8. Differentiate between clinical findings in common cold (upper respiratory tract infection) and influenza
9. Apply a clinical decision rule to the diagnosis of influenza
10. Apply the threshold model of decision-making to a case of acute cough with pharyngitis
11. Identify signs and symptoms that suggest acute otitis media
12. Differentiate between otitis externa and otitis media
13. Differentiate between conductive and sensorineural hearing loss based on clinical findings
WEEK 2: THE CASE OF ALEX BEST
Returns one year later
15-year-old adolescent
CC: recent onset SORE THROAT

SORE THROAT = PHARYNGITIS
Inflammation of the pharynx
DURATION OF SORE THROAT
Acute pharyngitis – less than 2 weeks duration
Chronic pharyngitis – more than 2 weeks duration

IN OUR CASE, RECENT ONSET
We have another case of acute
pharyngitis
GENERAL APPROACH TO ACUTE
PHARYNGITIS
Rule out serious diagnoses and red flags/alarm symptoms
that prompt emergent/urgent management
Most cases of acute pharyngitis are due to infectious cause
– determine the specific infectious cause (i.e., viral or
bacterial)
Identify acute sore throat caused by group A beta-
hemolytic streptococcal (GABHS) pharyngitis
Antibiotic treatment may be indicated
- Rhinovirus - Persistent cough
- Coronavirus - Upper airway cough syndrome
- Adenovirus (postnasal drip)
- Herpes simplex virus - Gastroesophageal reflux
(HSV) Causes of
Pharyngitis disease
- Influenza A and B - Acute thyroiditis
- Parainfluenza virus - Neoplasm
- Epstein-Barr virus - Allergies
- Cytomegalovirus Non- - Smoking
- Human herpesvirus Infectious infectious
(HHV) 6 Causes Causes - Group A beta-hemolytic
- HIV streptococci (GABHS)
- Fusobacterium necrophorum
- Group C beta-hemolytic
Viral Bacterial streptococci
- Neisseria gonorrhoeae
- Corynebacterium diphtheriae
- Mycoplasma pneumoniae
- Chlamydophila pneumoniae
WHAT’S DIFFERENT THIS TIME?
Associated symptoms:
Productive cough
Sneezing, runny nose
Ear fullness
Slight fatigue, muscle aches, headache
WHAT’S DIFFERENT THIS TIME?
Physical exam findings:
Posterior oropharynx mildly inflamed and erythematous; no
exudate present
Posterior cervical nodes are enlarged and tender to palpation
Nasal turbinates are red and swollen
Left ear: cloudy, bulging TM with displaced cone of light
Hearing tests of left ear: unable to repeat words whispered,
sound lateralizes to left; BC>AC
HOW DO WE PROCEED?
First, rule out alarm symptoms and signs as we did last week

NONE ARE SEEN HERE
 Symptoms Serious Diagnoses Potential Complications
Sore throat, dysphagia, or Acute epiglottitis or Airway obstruction; sepsis;
odynophagia with any of the supraglottitis spread to parapharyngeal or
following: Peritonsillar abscess retropharyngeal spaces, with
ALARM Drooling Parapharyngeal space infection subsequent spread to pleura,
SYMPTOMS Respiratory distress Retropharyngeal space mediastinum, carotid sheath, or
A S S O C I AT E D Inability to open mouth fully infection jugular vein
WITH SORE (trismus) Submandibular space infection
T H R O AT Muffled voice (Ludwig's angina)
Stiff neck Superficial jugular
Erythema of neck thrombophlebitis (Lemierre
syndrome).
History of recent foreign body Retropharyngeal abscess Airway obstruction; sepsis;
impaction or oropharyngeal spread to mediastinum, pleural
procedure (trauma) space, or pericardium
Fever, rash, diffuse adenopathy, Primary HIV infection Transmission of disease
sore throat
Recent cocaine smoking Mucosal burn injury to pharynx Respiratory obstruction
and larynx
Weight loss, fevers, night sweats Lymphoma, head and neck Advanced malignancy
cancers
Source: The Patient History, 2e
 ALARM
SYMPTOMS
ASSOCIATED
WITH COUGH
HOW DO WE PROCEED?
Most acute pharyngitis is infectious
Viral > bacterial
But we must determine the probability of streptococcal
pharyngitis

HOW DO WE DO THIS?
Apply the modified Centor (McIsaac)
score
APPLYING THE SCORE TO ALEX BEST

Online calculator
available via
https://www.mdcalc.c
om/calc/104/centor-
score-modified-
mcisaac-strep-
pharyngitis
IF NOT STREP THROAT, WHAT
COULD THIS BE?
Class Infection Frequency1 Clinical Syndrome
Viruses Rhinovirus 20% Common cold
Coronavirus 5% Common cold
Adenovirus 5% Acute respiratory disease
Herpes Simplex Virus (HSV) 1 and 2 4% Stomatitis, pharyngitis
Influenza A and B 2% Influenza
Parainfluenza virus 2% Common cold, croup
Epstein-Barr virus (EBV) < 1% Infectious mononucleosis
Cytomegalovirus (CMV) < 1% Infectious mononucleosis
HIV < 1% Primary HIV infection
Bacteria Group A beta-hemolytic streptococci 15–30% Pharyngitis, tonsillitis
Fusobacterium necrophorum 10% Pharyngitis, peritonsillar abscess,
Lemierre syndrome (rare)
Group C beta-hemolytic streptococci 5% Pharyngitis, tonsillitis
Neisseria gonorrhoeae < 1% Pharyngitis
Corynebacterium diphtheriae < 1% Diphtheria
Mycoplasma pneumoniae < 1% Pneumonia, bronchitis
Chlamydophila pneumoniae Unknown Pneumonia, bronchitis
Table 30-1.Frequency and clinical syndrome for infectious causes of sore throat.
1Estimated percentage of cases in all ages, prevalence estimates are sensitive to the population studied.

Source: Symptom to Diagnosis: An Evidence-Based Guide, 4e
WHAT TYPE OF INFECTION COULD IT BE?

Source: Canadian Family Physician Jul 2011, 57 (7) 791-794
VIRAL PHARYNGITIS
Most pharyngitis cases are viral in origin
Associated symptoms that are more likely to present with viral illness: cough, nasal
congestion, conjunctivitis, hoarseness, diarrhea, oropharyngeal lesions (ulcers or
vesicles)

Viruses that are most likely to cause pharyngitis in children (aged 5-15):
Common cold (50%) – caused by rhinovirus, coronavirus, adenovirus, parainfluenza
virus, respiratory syncytial virus
Influenza (5%) – caused by Influenza virus (type A and B) most commonly
Mononucleosis (5%) – caused by Epstein-Barr Virus (EBV), cytomegalovirus (CMV)

Viral causes of pharyngitis do not require antibiotic therapy unless there is a
secondary bacterial infection
COMMON COLD VS. INFLUENZA
Common
cold is a
viral
infection of
the upper
respiratory
tract
 Rhinitis
Upper
(infection of the nose) Respiratory
Tract

Lower
Respiratory
Tract
COMMON COLD
Viral infection of upper respiratory tract with inflammation
Peaks in winter months
Symptoms usually worst 2-3 days then resolve in 7-10 days
Cough may last 2-3 weeks

Can by caused by many viruses
Rhinoviruses are the most common cause
Grows optimally at temperatures near 32.8°C – the temperature inside the
human nose
Other viruses: coronavirus, adenovirus, parainfluenza virus, respiratory
syncytial virus
COMMON COLD
Clinical Presentation
Nasal congestion, rhinorrhea, sneezing
Sore throat, cough
Slight body aches
Mild headache
Afebrile or low-grade fever
Malaise
May have conjunctivitis, sinus symptoms
Chest exam is normal – no signs of lower respiratory tract infection
COMMON COLD
Complications
Asthma/COPD exacerbation
Secondary infection
Acute otitis media
Acute sinusitis
Other infections – pneumonia, streptococcal pharyngitis, croup,
bronchiolitis, bronchitis
COMMON COLD
Treatment/Management
Self-limiting. No antibiotics unless secondary bacterial infection.
Analgesics/antipyretics
Ensure hydration
Steam inhalation
Soothing, warm fluids
Lozenges
Saline nasal rinse
Other supportive therapies (see
https://www.aafp.org/afp/2019/0901/p281.html)
COMMON COLD
For children 1 year old. Cool-mist humidifiers may help with breathing, and
saline nasal drops and bulb suctioning can help with nasal
congestion.
Amdur, Rachel L., and Jeffrey A. Linder. "Upper Respiratory Symptoms, Including Earache,
Sinus Symptoms, and Sore Throat." Harrison's Principles of Internal Medicine, 21e Eds. Joseph
Loscalzo, et al. McGraw Hill, 2022, https://accessmedicine-mhmedical-
Prevention com.ccnm.idm.oclc.org/content.aspx?bookid=3095&sectionid=262791875.

Avoid sick contacts
Respiratory etiquette – cough/sneeze into tissues
Proper hygiene – hand washing
BACK TO THE CASE OF ALEX BEST:
Returns one year later
15-year-old adolescent
CC: recent onset SORE THROAT
Do we see any other symptoms and signs
of viral URTI?
YES!
Associated symptoms:
Productive cough
Sneezing, runny nose
Slight fatigue, muscle aches, headache
Physical exam findings:
Posterior oropharynx mildly inflamed and erythematous; no
exudate present
Posterior cervical nodes are enlarged and tender to palpation
Nasal turbinates are red and swollen

This presentation is consistent with the
common cold
WHAT ABOUT INFLUENZA?
INFLUENZA
Infection by Influenza A or B
Peaks in winter months
Symptoms appear 1-4 days after exposure to virus
Contagious period: 1 day before symptoms to 5 days after symptom onset

Clinical Presentation:
Acute onset
Fever
Cough
Myalgia
Other common symptoms: headache, chills, fatigue, loss of appetite, sore
throat, nasal congestion, rhinnorhea, diarrhea, nausea, vomiting
Incze M, Grady D, Gupta A. I Have a Cold—What Do I Need to Know? JAMA
Intern Med. 2018;178(9):1288. doi:10.1001/jamainternmed.2018.2621
 Symptom Allergy URI Influenza
Itchy, watery eyes common rare; conjunctivitis may occur soreness behind eyes,
with adenovirus sometimes conjunctivitis

Nasal discharge common common common
Nasal congestion common common sometimes
Sneezing very common very common sometimes
Sore throat sometimes (postnasal drip) very common sometimes

Cough sometimes common, mild to moderate, common, dry cough, can be
hacking cough severe

Headache uncommon rare common
Fever never rare in adults, possible in very common, 37.8-38.9°C
children (100-102°F) or higher (in young
children), lasting 3-4 days; may
have chills

Malaise sometimes sometimes very common
Fatigue, weakness sometimes sometimes very common, can last for
weeks, extreme exhaustion
early in course

Myalgias never slight very common, often severe

Duration weeks 3-14 days 7 days, followed by additional
days of cough and fatigue
 Likelihood Ratio for Influenza

Clinical Finding Positive Negative
Rigors 7.2 0.9
Sweating 2.9 0.6
Being confined to bed 2.5 0.5

Inability to cope with 2.3 0.4
daily activities
Fever (subjective) 1.7 0.5
Absence of systemic 1.5 0.4
symptoms
Headache 1.3 0.6
Cough 1.3 0.4
Myalgia 1.3 0.6
Nasal congestion 1.2 0.7
Chills 1.1 0.7
Sore throat 1.1 0.9
Sputum 1.1 0.9

Data from Ebell et al.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3022049/
 INFLUENZA CLINICAL DECISION RULE
Fever plus cough 2 points
Myalgias 2 points
Duration < 48 hours 1 point
Chills or sweats 1 point

Total Points Risk of Influenza
Ebell MH, Afonso AM, Gonzales
R, Stein J, Genton B, Senn N.
Development and validation of a 0 to 2 points 8%
clinical decision rule for the
diagnosis of influenza. J Am
Board Fam Med. 2012 Jan-
3 points 30%
Feb;25(1):55-62. doi:
10.3122/jabfm.2012.01.110161.
PubMed PMID: 22218625.
4 to 6 points 59%
 APPLYING THE SCORE TO ALEX BEST
Fever plus cough 2 points Cough without fever
Myalgias 2 points Slight muscle aches
Duration < 48 hours 1 point None of
these
Chills or sweats 1 point apply

Total Points Risk of Influenza
Ebell MH, Afonso AM, Gonzales
R, Stein J, Genton B, Senn N.
Development and validation of a 0 to 2 points 8%
clinical decision rule for the
diagnosis of influenza. J Am
Board Fam Med. 2012 Jan-
3 points 30%
Feb;25(1):55-62. doi:
10.3122/jabfm.2012.01.110161.
PubMed PMID: 22218625.
4 to 6 points 59%
Threshold Model for Diagnosis of Influenza

Risk of influenza is low for Alex Best
We are below the test threshold
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3022049/
IF IT WAS THE FLU…WHAT YOU SHOULD DO
Watch for complications Pneumonia – watch for signs of LRTI
Most common complication? (tachypnea or tachycardia along with fever,
signs of consolidation on chest exam)

Watch for susceptible populations
Which would include? Young children, elderly > 65 yoa, people residing in
long term care facilities, diabetes or heart/lung
conditions, weakened immune systems

And then, rest and fluids!
If high fever, also watch for signs of dehydration
BACK TO THE CASE OF ALEX BEST:
WHAT ABOUT THESE FINDINGS?
Ear fullness
Left ear: cloudy, bulging TM with displaced cone of
light
Hearing tests of left ear: unable to repeat words
whispered, sound lateralizes to left; BC>AC

What could this be?
INTERPRETING THE FINDINGS
Whisper test is a screening test for hearing loss
Alex is unable to repeat the words whispered to the
left ear
Left ear is the affected ear
Now we determine what type of hearing
loss this might be
TYPES OF HEARING LOSS
Conductive Hearing Loss
Hearing loss due to dysfunction in one or more parts of auditory
pathway from the external ear to the middle ear
For example, can result from dysfunction of external ear canal,
tympanic membrane, and/or ossicles
Sensorineural Hearing Loss
Hearing loss due to dysfunction in one or more parts of the auditory
pathway between the inner ear and auditory cortex
For example, can result from dysfunction of cochlea, auditory nerve,
and/or auditory processing pathway in the central nervous system
The ear can be divided into three parts:
the outer, middle and inner ear. The
outer ear comprises the auricle (or
pinna) and the ear canal. The tympanic
membrane (eardrum), a thin cone-
shaped membrane, separates the outer
ear from the middle ear. The middle ear
comprises the middle ear cavity and
the ossicles (the malleus, incus and
stapes), which are attached to the
tympanic membrane. The oval window
connects the middle ear with the inner
ear, which includes the semicircular
ducts and the cochlea. The middle ear
cavity is connected to the nasopharynx
by the Eustachian tube.
Figure 1 Anatomy of the human ear

Schilder, A. G. M. et al. (2016) Otitis media
Nat. Rev. Dis. Primers doi:10.1038/nrdp.2016.63
WEBER AND RINNE TEST FINDINGS

Weber Test
Hearing Loss Rinne Test Findings
Findings
Midline (no Air conduction >
None
lateralization) Bone conduction
Conductive Hearing Lateralization to Bone conduction >
Loss affected ear Air conduction
Sensorineural Lateralization to Air conduction >
hearing loss unaffected ear Bone conduction
BACK TO THE CASE OF ALEX BEST:
Ear fullness
Hearing tests of left ear: unable to repeat
words whispered, sound lateralizes to left;
BC>AC
Suggests left sided conductive
hearing loss
What could this be?
ALEX IS A SWIMMER
COULD THIS BE SWIMMER’S EAR?
OTITIS EXTERNA
aka “swimmer’s ear”
Inflammation or infection of the external ear canal
Most commonly a bacterial infection – Pseudomonas species or
Staphylococcus aureus
Can be a fungal infection (39°C (102.2°F)
Amdur, Rachel L., and Jeffrey A. Linder. "Upper Respiratory Symptoms, Including Earache, Sinus Symptoms, and Sore Throat." Harrison's Principles of Internal
Medicine, 21e Eds. Joseph Loscalzo, et al. McGraw Hill, 2022, https://accessmedicine-mhmedical-
com.ccnm.idm.oclc.org/content.aspx?bookid=3095&sectionid=262791875.
ANTIBIOTICS FOR AOM
Benefits are modest and offset by adverse effects
Do not result in early resolution of pain but decrease pain by day 2
to 3 (NNT = 20)
Side effects of antibiotic therapy: vomiting, diarrhea, rash (NNH =
14)
Severe complications like mastoiditis are rare (NNT = 5000)

Amoxicillin is the antibiotic therapy of choice
10-day duration for children