Acute Otitis Media (AOM) Pharm 221 F2024 PDF

Summary

This document is a lecture on Acute Otitis Media (AOM) delivered as part of the PHARM 221 F2024 course, likely at a university. It covers the etiology, pathophysiology, risk factors, diagnosis, and management of AOM in children. It also includes information on complications and prevention strategies.

Full Transcript

Acute Otitis Media
PHARM 221 F2024

Brett Barrett
Learning Objectives
1. Describe the etiology, pathophysiology, and diagnosis
of acute otitis media (AOM).
2. Discuss the rationale for antimicrobial therapy in the
management of AOM.
3. Explain the impact of routine childhood vaccination
on AOM incidence and microbiology.
4. Recognize patients with AOM who might benefit
from anti‐infective therapy.
5. Identify DTPs in patients presenting with AOM and
design a patient‐focused careplan to address those.
Resources
Le Saux N, Robinson JL; Canadian Paediatric Society,
Infectious Diseases and Immunization Committee.
Management of acute otitis media in children six
months of age and older. Paediatr Child Health.
2016;21(1):39‐50. doi:10.1093/pch/21.1.39
Choosing Wisely Canada. Antibiotics for ear
infections in children: When you need them and
when you don’t. Available at:
https://choosingwiselycanada.org/pamphlet/childr
en‐ear‐infections/
Etiology and
Pathophysiology of AOM
 Recall: Anatomy of the Ear

Modified from http://printer‐friendly.adam.com/content.aspx?productId=117andpid=1andgid=007010andc_custid=758; accessed 10‐11‐19.
 Important
Definitions

Middle ear effusion
(MEE): fluid in
middle ear
Otalgia: pain in ear Fluid buildup
Otorrhea: due to
discharge from ear narrowing of
Eustachian
tube

Modified from http://printer‐friendly.adam.com/content.aspx?productId=117andpid=1andgid=007010andc_custid=758; accessed 10‐11‐19.
Clinical Syndromes due to MEE
Otitis media with effusion (OME)
MEE without evidence of infection/ inflammation
E.g., due to allergies, URTI, smoking
Muffled hearing, feeling of fullness
Can be chronic, can persist after resolution of AOM
Acute otitis media (AOM)
MEE with signs and/ or symptoms of middle ear
inflammation due to infection
Rapid onset with signs of illness
 Pathophysiology of AOM
Obstruction of Eustachian tube
Allergies or viral URTI cause congestion of respiratory mucosa

Accumulation of secretions in the middle ear
i.e., middle ear effusion

If bacteria or viruses are present, they multiply and cause
inflammation
Pathogens travel through Eustachian tube from upper respiratory tract

Following resolution of acute infection, middle ear effusion
can persist for weeks to months
 Risk Factors for AOM – I
Age
Highest incidence from 6 to 18 mos
Acquire viral infections more often
Immature anatomy and immune response
Recurrent AOM more likely if first episode before 6 mos

Modified from https://www.salinetherapy.com/wp‐content/uploads/2014/03/Eustachian‐tube.jpg; accessed 10‐11‐19.
Risk Factors for AOM – II

Modifiable Non‐modifiable
Bottle feeding Daycare
Breastfeeding for > 3 mos is Indigenous peoples
protective
Breastfeeding results in Season (fall/ winter)
decreased nasopharyngeal
bacterial colonization Family history of AOM
Position of infant when
feeding Orofacial abnormalities
Facial musculature
development
Immunological impairment
Immunological factors in
breastmilk
Pacifier use 80 to 90% get at least one episode by 3 yrs
Smoke/ pollution
Incidence decreases after 2 yrs, with another
peak around 5 to 6 yrs (why?)
 Clinical and Economic Impacts of AOM

Significant disease burden in < 5 yrs of age
1/3 of physician visits
Most frequent diagnosis
Most frequent reason for antimicrobial therapy

Significant economic impact1
Time lost from work and school
~40% of cases result in work absenteeism, with avg 16 hrs lost
High use of healthcare resources
Episode estimated to cost $321
80% of which borne by family
Negative impact of parental stress and family functioning

1Dube E et al. Can Fam Phys. 2011;57(1):60‐65.
Diagnosis of AOM
Systematic Approach to ID
Pharmacotherapy

IESA

Something they
Indicated Effective Safe
can Adhere to

Is there evidence of
infection?
If so, does it require
treatment?
AOM Symptoms

Rapid development (< 48 hrs, often overnight)
Otalgia (due to local inflammation)
Most common symptom
Best predictor of AOM
Decreased hearing, sense of fullness (due to MEE)
Balance problems occasionally
Fever (due to systemic inflammation)
Usually < 40
Only occurs in 1/3 to 2/3
 Difficult patient population to assess!

Young children and infants cannot articulate symptoms,
so presentation may be non‐specific (e.g., irritability/
excessive crying, apathy, disturbed or restless sleep,
poor feeding, ear rubbing or pulling).

Clinical dx must be confirmed with visualization of
tympanic membrane (TM).
 Pneumatic Otoscopy of TM
Normal Abnormal

Translucent Opaque
Pearl‐grey White, yellow,
Moves with or, if inflamed,
insufflation of pink/ red
air Decreased/
absent mobility

http://otoscopy.hawkelibrary.com/albums/album08/Inst_4.jpg; accessed 10‐11‐19.
https://pbs.twimg.com/media/CJMboIeWsAAjQgd.png; accessed 10‐11‐19.
Diagnosis of AOM requires:

1. Signs/ symptoms of middle ear inflammation
Bulging TM, erythema of TM, otalgia, OR fever

AND

2. Evidence of middle ear effusion
TM opacity, decreased/ absent TM mobility, OR otorrhea
Complications:
TM Rupture

Relieves pressure 
acute pain relief
Usually heals quickly
(hrs to days)
More likely to occur in
bacterial infection
 Complications
Mastoiditis
Pus fills air cells of
mastoid bone
Pain or swelling
Inflammation on CT

Other complications rare in
developed countries
Meningitis
Brain abscess

http://cdn.ent‐surgery.com.au/wp‐content/uploads/2014/07/mastoid.jpg; accessed 10‐11‐19.
http://image1.slideserve.com/2185186/acute‐mastoiditis‐n.jpg; accessed 10‐11‐19.
Systematic Approach to ID
Pharmacotherapy

IESA

Something they
Indicated Effective Safe
can Adhere to

Is there evidence of
infection?
If so, does it require
treatment?
AOM is frequently self‐limiting

Both viral and bacterial pathogens can cause AOM
S. pneumoniae, non‐typeable H. influenzae, M.
catarrhalis, rarely Group A Streptococcus
In most cases, both bacteria and viruses are present
Regardless of etiology, 80% of untreated children
experience symptom resolution within 3 days
Spontaneous resolution more likely with less virulent
bacteria (e.g., M. catarrhalis, H. influenzae)
Severe complications rare (e.g., 0.17% mastoiditis)
Venekamp RP, Sanders SL, Glasziou PP, Rovers MM. Antibiotics for acute otitis media in children. Cochrane Database Syst Rev.
2023;11(11):CD000219. Published 2023 Nov 15. doi:10.1002/14651858.CD000219.pub5
Management of AOM
Watchful Waiting/ Delayed Prescribing

Recommended for patients ≥ 6 mos who:
Have mild disease;
Have had symptoms less than 48 hrs; AND,
Do not have TM perforation or other complications
E.g., immunodeficiency, craniofacial abnormalities,
tympanostomy tubes, cochlear implants, etc.
Mild disease defined as:
Mild or moderately bulging tympanic membrane; AND,
Mildly ill (alert, fever < 39 responding to antipyretics,
mild otalgia)
Le Saux N, Robinson JL. Paediatr Child Health. 2016;21(1):39‐44.
Implementing Watchful Waiting
Caregiver education is essential for success
1. Rationale: decreased antimicrobial use
~ 60 to 70% do not fill Rx
2. Safety: not associated with increased pain, frequency
of TM perforation, or recurrence
3. Reasons to start therapy:
Symptoms do not improve within 24 to 48 hrs; OR
Development of severe symptoms at any time (i.e., fever ≥ 39
℃, severe otalgia, etc.)
If Rx is not filled immediately, ensure timely access
 ALL patients need good analgesia!
Caregivers tend to be cautious
Give only when absolutely necessary, dose
conservatively
Concerns re: adverse effects, lack of clear instructions
Essential component of careplan, regardless of
antimicrobial strategy
Pain often only cursorily mentioned in AOM visit
Strongly consider regularly scheduled administration for
first 24 to 48 hrs
Analgesic Options – I
Most have not been well studied in AOM
specifically
Topical lidocaine or benzocaine (Auralgan®)
Efficacy: reduces pain compared with placebo, duration
is short‐lived
Safety: should not be used in TM perforation or children
< 2 yrs
Adherence: requires frequent administration (q1 to 2 hrs
PRN)
Analgesic Options – II
Systemic acetaminophen or ibuprofen
Recall: safety and adherence in management of fever
Efficacy for pain: both more effective than placebo in
AOM (but no direct comparison between two)

Acetaminophen 10 to 15 mg/kg PO q4 to 6 hr
Ibuprofen 5 to 10 mg/kg PO q6 to 8 hr

Generally not recommended: narcotics, distraction,
external application of heat or cold, olive oil, herbal
extracts, homeopathy
Systematic Approach to ID
Pharmacotherapy

IESA

Something they
Indicated Effective Safe
can Adhere to

What pathogen(s) do we need to cover?
Is our antimicrobial therapy empiric or
targeted?
Is that antimicrobial EFFECTIVE/
LIKELY TO BE EFFECTIVE?
Empiric Therapy Targeted Therapy
Requires educated guess about what No need to “guess” what pathogen is
pathogens are likely present present, nor what it is susceptible to

1. What does the literature say are the
common pathogens for this
infection in my patient?
2. Has my patient been exposed to
anything I need to worry about?
3. Can I guess anything about what my
patient might be colonized with?
4. How much resistance is likely in my
patient?
5. Do I have to cover ALL of these
pathogens in my patient?
Is that antimicrobial LIKELY TO BE
EFFECTIVE? – I
1. What does the literature say are the common
pathogens for this infection in my patient?
S. pneumoniae, non‐typeable H. influenzae, M.
catarrhalis, rarely Group A Streptococcus
H. influenzae and M. catarrhalis more likely when concomitant
purulent conjunctivitis
Group A Streptococcus more likely when TM perforation and
otorrhea present
2. Has my patient been exposed to anything I need
to worry about?
Likely not relevant
Is that antimicrobial LIKELY TO BE
EFFECTIVE? – I
3. Can I guess anything about what my patient might be
colonized with?
Impact of immunization on circulating bacteria (i.e., herd
immunity) more important than individual patient’s
vaccination status

H. influenzae type B conjugated vaccine added in 1990’s
Hib does not cause AOM but rather bacterial meningitis
S. pneumoniae conjugated vaccines
7‐valent in 2000, 10‐valent in 2010, 13‐valent in 2011, 15‐
valent in 2022
S. pneumoniae causes AOM plus a variety of invasive illnesses
 Increased proportion of
non‐typeable H. influenzae
and non‐vaccine serotypes
of S. pneumoniae

https://www.canada.ca/en/public‐health/services/publications/vaccines‐immunization/national‐advisory‐committee‐immunization‐
recommendations‐public‐health‐programs‐use‐pneumococcal‐vaccines‐children‐including‐use‐15‐valent‐20‐valent‐conjugate‐vaccines.html;
accessed 03‐11‐24.
Is that antimicrobial LIKELY TO BE
EFFECTIVE? – II
4. How much resistance is likely in my patient?
Recall: patient‐specific risk factors for S. pneumoniae
resistance: recent antimicrobial use, daycare, < 2 yrs
Recall: ~ 50% of H. influenzae and 100% of M. catarrhalis
produce beta‐lactamase
5. Do I have to cover ALL of these pathogens in my
patient?
No! For most patients, focus on S. pneumoniae and non‐
beta‐lactamase‐producing H. influenzae
These are most common and, for S. pneumoniae, least
likely to resolve spontaneously
 All patients should receive therapy with good
activity against S. pneumoniae and non‐beta‐
lactamase‐producing H. influenzae

Tympanic membrane perforation and otorrhea?
Add GAS (if not already covered)
Concomitant purulent conjunctivitis?
Add beta‐lactamase‐producing H. influenzae and M.
catarrhalis
Failed amoxicillin?
Focus on beta‐lactamase‐producing pathogens
Amoxicillin
Preferred for most patients
Effective against most strains of S. pneumoniae, especially
when dosed appropriately, and ~ 50% of H. influenzae
Use high‐dose if risk factors for resistance
Penetrates area and has most evidence for use
Safe in most patients
Few serious toxicities, all ages/ pregnancy, low collateral
damage
Something patients can adhere to
Amoxicillin Dosing for S. pneumoniae

Regular: 40 mg/kg/day PO ÷ TID
High: 90 mg/kg/day PO ÷ BID
FYI only: ranges given for AOM

Regular: 500 mg po TID
High: 1000 mg po TID
FYI: AOM uncommon in teens/ adults
Amoxicillin‐Clavulanic Acid
1. Patients who present with purulent conjunctivitis
H. influenzae and M. catarrhalis more likely
If slow to resolve, culture conjunctival discharge (i.e., targeted
therapy)
2. Patients who fail amoxicillin (i.e., symptoms not
improved within 24 hrs and resolved within 3 days)
If given high‐dose amoxicillin initially, now concerned about
beta‐lactamase‐producing pathogens
If given regular‐dose amoxicillin initially, unclear whether
issue is beta‐lactamase‐producing pathogens or intermediate‐
penicillin‐resistant‐S. pneumoniae
3. Patients who have taken amoxicillin in past 30 days
More concerned about beta‐lactamase‐producing pathogens
as part of normal flora
 * Use 7:1 ratio to minimize diarrhea due to clavulanic acid;
recommended to limit clavulanic dose to < 10 mg/kg/day

Amox‐Clav Dosing for S. pneumoniae

Regular: 45 mg/kg/day* PO ÷ BID
to TID
High: above PLUS plain amoxicillin
45 mg/kg/day PO ÷ BID to TID

500 mg po TID or 875 mg po BID
 (e.g., side chains)

https://data‐spectrum‐md.s3.amazonaws.com/uploads/document/230/615/90ca2129‐bcb8‐4960‐9344‐5912cccee512.pdf; accessed 19‐10‐23.
Alternative Efficacy Safety Adherence

Cefuroxime Covers all pathogens, BID, poor palatability
inferior to amoxicillin for
Cefprozil S. pneumoniae BID, good palatability

Clarithromycin Covers all pathogens, with More collateral damage BID, poor palatability
moderate risk for S. May drive more resistance Once daily, good
Azithromycin pneumoniae and GAS in S. pneumoniae, more palatability, only requires
resistance collateral damage 3 to 5 days of therapy
Covers GAS and S.
pneumoniae, but not H. Greater risk for C. difficile
Clindamycin TID, poor palatability
influenzae or M. infection
catarrhalis
Covers all pathogens with
very little risk for Significant risk for C.
resistance difficile infection and
Once daily, only requires 3
Ceftriaxone collateral damage,
days of therapy, but IM/ IV
Reserved for amoxicillin‐ additional IV‐related
clavulanic acid treatment adverse effects
failure
Duration of Therapy
In children ≥ 2 years with uncomplicated disease
5 days is as effective as 10 days (with fewer side effects)

10 days required for
< 2 years
Perforated TM
Failure of initial therapy
Follow‐Up Monitoring
All should be offered analgesic and/ or antipyretics
Timeframe for evaluating effectiveness of these will be
shorter than for antimicrobial
Evaluating effectiveness of antimicrobial therapy
Symptoms/ need for symptomatic therapy should
improve within 24 hrs and resolve within 3 days
MEE +/‐ associated symptoms may persist for
months despite resolution of infection
Prevention
Handwashing
Limit pacifier use
Encourage breast feeding
Minimize time spent in daycare
Avoid exposure to second hand smoke
Vaccination (influenza, COVID‐19, pneumococcal)
Recurrent AOM (rAOM)
Recurrent AOM
≥ 3 distinct episodes within 6 mos or ≥ 4 in 12 mos
Usually resolves with age (i.e., 3 to 4 yrs)
More likely in those who experience first episode
before 6 mos or who have siblings with rAOM
Approaches to management:
1. Treat episodes as they occur
2. Tympanostomy tubes
3. Antimicrobial prophylaxis
 1. Treat episodes as they occur
Best for older kids, those with only modifiable risk
factors, where there’s less burden to family, and no
concern re: language development

2. Tympanostomy tubes
Allows drainage of middle ear fluid  decreased
pain of AOM episodes, may decrease frequency
(but limited evidence)
Inferior to antimicrobial prophylaxis in one trial
Small study, modest benefit, performed before PCV
http://www.kidshealth.org.nz/sites/kidshealth/files/images/Grommet_photo.jpg; accessed 11‐11‐19.
3. Antimicrobial prophylaxis
Significant decrease in episodes compared with
placebo (i.e., 20 to 50% fewer, NNT = 5)
Rates return to baseline after discontinuation
Must consider antibiotic harms
Most appropriate in younger kids with non‐modifiable
risk factors, who experience more severe episodes (incl.
repeated TM ruptures), and where there’s significant
impact on family or concerns re: developmental and
language delays
Antimicrobial Therapy for rAOM
Treatment x 10 days
No antimicrobial therapy in past 4 to 6 wks 
amoxicillin (high‐dose if risk factors)
Recent antimicrobial therapy or amoxicillin prophylaxis
 amoxicillin‐clavulanic acid

Tympanostomy tube otorrhea
Due to AOM or infection from contaminated water
Resolves spontaneously within 14 days in ~ 50%
If unwilling to wait: antibiotic +/‐ steroid otic drops x 5 to
7 days (if no systemic symptoms, immunocompromise)
 What questions do you have?
1. Describe the etiology, pathophysiology, and diagnosis
of acute otitis media (AOM).
2. Discuss the rationale for antimicrobial therapy in the
management of AOM.
3. Explain the impact of routine childhood vaccination
on AOM incidence and microbiology.
4. Recognize patients with AOM who might benefit
from anti‐infective therapy.
5. Identify DTPs in patients presenting with AOM and
design a patient‐focused careplan to address those.