URTI - Respiratory Infections 2024 PDF

Summary

This document provides an overview of various upper respiratory tract infections, including their causes, disease processes, diagnosis, treatment, and prevention. It covers topics such as the common cold, pharyngitis, scarlet fever, diphtheria, and more. The document also includes information on laboratory tools and treatment methods, as well as prevention strategies.

Full Transcript

 Intended Student Learning
outcomes
o By the end of the session and reviewing the associated
learning resources, the student should be able to:
o List the common etiologic microbial agents responsible
for upper respiratory tract infections
o Describe the disease process caused by bacterial and
viral pharyngeal, laryngeal, sinus and ear infections.
o Explain the pathogenic mechanisms associated with
pertussis and diphtheria.
o Outline the laboratory tools used for diagnosing URTI.
o Outline the treatment of URTI.
Common Cold (Rhinitis)
mild acute upper respiratory tract
infection characterized by mild
“coryzal” symptoms.
Aetiology:
Rhinovirus: 30 – 50%:
Belongs tp family
Picornaviridae.
Contains > 110 serotypes.
Other:
Coronaviruses.
RSV ,Parainfluenza virus.
Adenoviruses ,influenza.
 Common Cold (Rhinitis)
Transmission: air droplet or
direct contact with infected
secretion.
Treatment:
Clinically:
the incubation period is 12- Mild self-limiting disease.
72 hours No specific antiviral drugs.
Nasal congestion. Antibiotics are “NOT
Nasal discharge (Rhinorrea). INDICATED”
Sneezing.
Sore throat. Symptomatic relief:
low grade fever. (NSAID), antihistamine,
dried cough. decongestants.
Complication:
Otitis media.
sinusitis.
Asthmatic exacerbation
Streptococcus pyogenes:
Pharyngitis
Gram +ve chain forming cocci.
Catalase negative.
Invasive
M protein: Hair like structure,
attaches to the mucosal
epithelial cells and Resist
phagocytosis.
Invasion and Spreading factors;
Hyaluronidase and DNAse.
Streptococcus pyogenes:
Pharyngitis
Strep Throat:
5 years – 15 years.
Start with sore throat.
Acute Pharyngitis and acute
tonsillitis.
Fever and Cervical lymph nodes
enlargement
Complications:
Paratonsillar abscess (Quinsy).
Retropharyngeal abscess.
Post infection (Rheumatic fever).
Streptococcus pyogenes: Scarlet
fever
Scarlet fever:
Caused by Erythrogenic
toxin:
Super antigen.
Bacteriophage encoded.
Usually affects children.
Accompanied by pharyngitis.
Skin rash.
Red “Strawberry” tongue.
 Streptococcus pyogenes: Diagnosis
1. Specimen collection: Throat
swab.
2. Gram Staining: gram positive
cocci chain forming. (not very
helpful)
3. Culture on blood agar: shows
beta haemolytic colonies
sensitive to Bacitracin disk.
4. Serological test:
Group-A Lancefield grouping:
latex agglutination or
immunofluorescence.
ASO , anti-DNAase and anti-
hyaluronidase.
Streptococcus pyogenes:
Treatment
Antibiotic based:
Penicillin G. (the organism do not show resistance).
Amoxicillin.
Erythromycin , Azithromycin and clarithromycin as
alternative in patients with penicillin allergy.
Viral Pharyngitis:
Exudative pharyngitis.
Adenovirus 3,7and 14:
Pharyngeal conjunctival fever:
Occur as outbreaks in
“prisons” “military
recruits” and “schools”.

EBV: infectious
mononucleosis.

Primary HSV.
Viral Pharyngitis:

Herpangina:
acute febrile illness associated
with small vesicular or
ulcerative lesions on the
posterior oropharyngeal
structures (enanthem) caused
by Coxsackievirus A.
 Diphtheria
A life threatening localized infection of the
upper respiratory tract.
Corynebacterium diphtheriae
gram-positive rods “club Shaped” Arranged
in V- or L-shaped or Chinese letters,
showing Metachromatic granules.
Diphtheria toxin:
A-B polypeptide, Bacteriophage
encoded.
Inhibit protein synthesis, Results in
cell death
Diphtheria

transmitted by droplet spread.
Diphtheria is not common where
immunization is used.
It is found in developing countries as
sporadic or epidemic.
 Diphtheria
Pathology:
Locally:
Cell death due to shut of protein
synthesis by DT.
destruction of upper respiratory
epithelium (epithelial necrosis).
Induction of acute inflammatory
response.
Formation of
“Pseudomembrane”.
Diphtheria
Pathology:
Pseudomembrane:
Grayish, detachable Composed
of:
Fibrin.
Leukocytes.
cellular debris.
Found as:
Pharyngeal.
Nasal.
Tracheal.
Laryngeal.
Diphtheria
Clinical finding:
incubation period of 2 to 4 days.
pharyngitis and tonsillitis.
Pseudomembrane formation.
Cervical lymphadenitis and neck Oedema
(Bull Neck).

Complications:
Suffocation.
Toxemia:
Heart; myocarditis, arrhythmias and
CHF.
Cranial nerves: diplopia, dysphagia
and dysphonia.
 Diphtheria : Diagnosis
Specimen: throat swab.(risky).

Gram staining: not very helpful.

CultureTellurite blood agar: Black colonies:
reduction of K+ tellurite to tellurium (black
colonies).
Diphtheria : Diagnosis
Toxigenicty tests:
Elek’s test: toxin antitoxin
precipitation test.
ELISA
PCR.

Elek’s test
Diphtheria : Treatment
Notifiable disease.

Ensure Clear air way and
oxygenation (may use tracheostomy
tube).

Antitoxin: diphtheria toxin
Immunoglobulins.

Antibiotics: Penicllin G and
Erythromycin.
Diphtheria : prevention
Diptheria vaccine:
Toxoid.
Part of triple vaccine (DTaP).
2 months 4 months and 6 moths.
Booster dose at 1 year and 6 years
(every ten years).
Acute Epiglottitis
Haemophilus influenzae type B
Gram negative coccobacilli.
Capsule: is formed of Polyribosyl
Ribitol Phosphate (PRP).
The capsule is Important for
virulence(resistant to phagocytosis)
Attachment of respiratory epithelium
(pili and adhesins).
Invasion of the respiratory epithelium.
Endotoxin is toxic to the respiratory
cilia.
Acute epiglottitis:
Inflammation of the epiglottis and
surrounding tissues leading to
obstruction of the airway.
Mainly affect children.
Sudden onset of fever, sore throat,
hoarseness of voice and muffled cough.
child has air hunger, inspiratory stridor.
inflamed, swollen, “cherry-red
epiglottis”.
Haemophilus influenzae
Diagnosis:
Culture: providing the essential
growth factors (X+V)
Nutrient agar with supplemented
X+V discs:
Haemophilus influenzae only
grows around XV disc.

Other:
Capsule :
Quellung reaction and
immunofluorescence.
Haemophilus influenzae
Treatment:
Resistant to penicillin and ampicillin (β-lactamase production
and modification of PBP)
3rd generation cephalosporins (ceftriaxone and
cefotaxaeme).
Laryngeotracheobronchitis:
(CROUP).
Inflammation and oedema of
the subglottic, larynx and
trachea.
Subglottic obstruction.
Children (6mnths-3yrs). Clinical:
Aetiology: Hoarseness of voice.
Parainfluenzavirus 1,2. barking cough.
Other: Inspiratory Stridor.
Influenza. Dysphagia
Measles. (salivation).
Pencil sign:
RSV. subglottic narrowing
Adenovirus.
Pertussis (whooping cough)
Highly contagious, Strictly human disease
Transmission by aerosol droplet.
mainly occurs in children and infants.
Mortality is highest in patients 50 time/
day), end up by “whoop” and vomiting
Convalescent phase :
Frequency and severity of the cough
will subside. PERTUSSIS
Pertussis (whooping cough)
Diagnosis:
CBC: prominent leukocytosis with
lymphocytosis >70%.
Specimen: nasopharyngeal swab.
Gram stain:
gram negative coccobacilli.
Culture:
Bordet Gengou Medium:
Blood agar containing glycerol.
Colonies are described as “ Mercury droplet”
Pertussis (whooping cough)
Treatment:
Erythromycin and Clarithromycin.

Prevention:
Vaccine:
killed vaccine (combined DTP).
Pertussis a cellular vaccine (PT toxoid and Fha).
 Otitis Media
–Inflammation of the middle ear
–Common in infants and children (esp. < 3 yr)
Etiology: Signs and symptoms
Bacterial causes( 80%) –Otalgia
Strep. pneumoniae (35%) –Fever
Hem. influenzae (20–30%)
Moraxella catarrhalis (10– –Irritability, lethargy, anorexia, vomiting
15%) –Hearing loss
Strep. pyogenes (8–10%) Presence of fluid in the middle ear
Staph. aureus (1–2%)
–Tympanic membrane: discolored,
Viral causes 10-20%
bulging (Pus accumulation )
Treatment
–Amoxicillin
–Macrolides
(Azithromycin ,Clarithomycin)
–Second-line:Ceftriaxone
–Duration of therapy: 10 days
 Acute sinusitis
Inflammation of paranasal sinuses (e.g. Frontal, Ethmoid , and Maxillary Sphenoid )
Etiology:
BACTERIA 70% Treatment
S. Pneumoniae –Mild disease
H. influenzae Nasal or oral decongestants
Anaerobs Saline and steam inhalation
S. aureus –Moderate to severe disease (> 7 days)
S. pyogenes – Amoxicillin
M. catarrhalis
– Beta-lactamase stable cephalosporin,
Gram-negative bacteria
–Macrolides or quinolone or
Viruses 30 % doxycycline.
– Duration of therapy: 10-14 days
Signs and symptoms
–Sneezing, rhinorrhea, nasal congestion
and postnasal drip, aural fullness, facial
pressure and headache, sore throat,
cough , fever, and myalgia.
Aspergillus

Filamentous Ascomycetes.
shows broad segmented
hyphae dichotomous
branching
Forms Aspergillus head:
rarely seen in tissues
(ears and lungs)
Important species:
Aspergillus Flavus: Yellow-
green colonies
Aspergillus Fumigatus: blue -
green
Paranasal (sinus) Aspergillosis
Types:
Allergic
Aspergilloma
develop in patient with sinus obstruction
and chronic sinusitis.
Acute Invasive
rapidly progressive
mainly in immunocompromised
Chronic invasive
slowly progressive, granulomatous
disease
can be seen in normal healthy people
commonly in maxillary sinus
Treatment :
Surgical excision
Iitraconazole before and after surgery
Zygomycosis (mucormycosis)
Rhinocerebral mucormycosis.
Black fungus.
Rare, serious opportunistic infection
caused by Rhizopus
common cause of acute and rapidly
fatal, invasive fungal infection in
immunocompromised and diabetic
patients.
Treatment:
Amphotericin B
Posaconazole
Surgical debridement
Further reading
Warren Levinson, Review of Medical Microbiology and
Immunology, 17th Edition.
Jawetz Melnick & Adelbergs, Medical Microbiology, 28th
Edition.
Greenwood Medical Microbiology, 18th Edition.
Sherris Medical Microbiology, 7th Edition.

https://asm.org/
https://www.medscape.org/infectiousdiseases