M- Pharyngitis

Question 1

What is the most common cause of URI infections?

What is the most common URI?

Answer 1

Viruses are the most common causes of URI with the common cold (rhinovirus in adults and parainfluenza/coronaviruses in kids) being the most prevalent

Question 2

What are the potential causes of pharyngitis?

Answer 2

Children under 3 and adults -- viruses
Older children (5-15)- GABHS, viruses, mycoplasma pneumonia,

Question 3

How can you distinguish between virally caused and bacterially caused pharyngitis?

Answer 3

Microbiological tests for GABHS infections.

You cannot tell from clinical grounds alone

Question 4

What are the 6 main viruses that can cause pharyngitis?

Answer 4

1. rhinovirus (children <3 and adults)
2. influenza A,B C ( all ages)
3. Enteroviruses (older children)
4. EBV (older children/young adults)

Question 5

What are the 3 main bacterial causes of pharyngitis?

Answer 5

1. Strep pyogenes (GABHS)
2. Mycoplasma pneumonia
3. Corynebacterium diptheria

Question 6

Describe the aerophilicity, mobility, spore forming capability, capsulation and gram stain properties of Corynebacterium diptheriae.

Answer 6

1. aerobic
2. non-motile
3. non-spore forming
4. non-capsulated
5. gram + bacteria with clubbed ends

Question 7

What are the special media used to grow C. diptheriae?

Answer 7

1. Loeffler’s medium- enriched coagulated serum

2. Potassium tellurite - colonies look grey/black

Question 8

Where does diphtheria reside?
What is the mode of transmission?
Who is most likely to get pharyngitis from diphtheria?

Answer 8

1. cohabitates mucus membrane with saprophytic diptheriods (normal flora)
2. transmitted by spread of nasopharyngeal secretions or contact with infected skin exudate and fomites
3. elderly, urban poor, immigrants (unimmunized, dwindling immunity)

Question 9

What are the 3 primary determinants of pathogenesis of diptheriae?

Answer 9

1. state of immunity
2. site of infection
3. virulence/toxigenicity of the organism

Question 10

What are the local and systemic effects of C. diphteriae infection?

Answer 10

Local:

1. pseudomembrane- leathery membrane that covers the tonsils and can extend to involve the pharynx/larynx and bronchi
2. bull neck- extensive pseudomembrane, cervical adenopathy, upper airway obstruction

Systemic:

1. myocarditis
2. neuropathies

Question 11

Describe the toxin of C. diptheriae.

Answer 11

1. lysogenic bacteriophage encoded- “tox” gene
2. A-B toxin - B fragment binds to cell surface receptor (pro heparin binding EGF) and the A fragment inhibits protein synthesis by enzymatically transferring ADP-ribose from NAD to EF2

Question 12

Why can you not remove the pseudomembrane associated with local C. diptheriae infection?

Answer 12

It can cause swelling, bleeding and aspiration

Question 13

What determines the severity of myocarditis and neuropathy associated with C. diphtheria infection?

Answer 13

The amount of toxin absorbed **not necessarily the number of bacteria present

Question 14

How are C. diphtheria infections treated?

How are they prevented?

Answer 14

Treatment:
1. anti-toxin - antibody to toxin from horses injected with inactivated diphtheria toxin used for treatment in conjunction with antibiotics
Prevention:
DTaP vaccine- diphtheria toxoid, tetanus toxoid, acellular pertussis components

Question 15

What are the characteristics of streptococci?
Gram staining 
spores?
catalase?
motility?
oxygen usage?

Answer 15

Gram + cocci in pairs or chains
non-spore forming
catalase - 
non-motile 
facultative anaerobes or microaerophiles

Question 16

What are the 3 growth patterns of streptococci on sheep agar plates? What is the major organism of each group?

Answer 16

1. B-hemolytic- complete clearing indicating lysis of RBCs. S. pyogenes, s. agalactiae, s. bovis,
2. alpha hemolytic - partial clearing indicating imcomplete lysis of RBCs and greenish discoloration. s. pneumoniae, s. viridans
3. gamma hemolytic- no observable lysis of RBCs. Enterococcus

Question 17

After you have identified a hemolysis pattern, how can streptococci strains be further categorized?
Which strains are most pathogenic in humans?

Answer 17

By their group specific carbohydrates using Lancefield classification.
It is meant to differentiate b-hemolytic strains, but there are some a/non-hemolytic strains that can be classified with this method.
Serogroups A-H, K-V
Humans are affected by A-D and G

Question 18

What is the hemolysis pattern of S. bovis?

Answer 18

It is an alpha hemolytic strep that is group D on the lancefield scale

Question 19

How are GABHS differentiated from other B-hemolytic strep?

Answer 19

Based on sensitivity to bacitracin.
A disk impregnated with bacitracin is placed on a lawn of bacteria and incubated.
If there is a clearing around the disk, the bacteria is sensitive to bacitracin and is GABHS

Question 20

What is the major virulence factor of GABHS that allows it to be further subdivided?
What are the 3 throat strains?

Answer 20

M proteins are major virulence factors that have a variable region in the exposed amino terminus (over 100 serotypes)
The throat strains are usually M1, M6, M12

Question 21

What are the 2 ways we are able to classify GABHS by their M proteins?

Answer 21

1. humoral immunity - type specific antibodies against certain M proteins
2. If non-typeable, CDC can generate DNA sequences of the gene encoding the M protein

Question 22

What are the 3 major modes of transmission for GABHS?

Answer 22

1. Air- respiratory droplets (NOT fomites)
2. Food prepared by someone with an open lesion
3. Hands (as proven by Semmelweis)

Question 23

What are the 2 major portals of entry into the human body?

Answer 23

1. throat- oropharynx, URT

2. skin

Question 24

Since no known reservoirs of GABHS exist in nature, _____________ in humans is required for persistence of the organism.

Answer 24

an asymptomatic carrier state

Question 25

What are the 3 ways GABHS adhere to host tissue?

Answer 25

1. M-proteins - bind epithelia and skin keratinocytes
2. ECM binding proteins - bind fibronectin, fibrinogen, collagen
3. Hyaluronate capsule- binds CD44

Question 26

What are the 4 ways GABHS avoids host immune response?

Answer 26

1. M-protein- antiphagocytic, binds complement regulatory factors
2. Hyaluronate capsule -antiphagocytic
3. Ig-binding proteins - binds FcR
4. C5a peptidase- cleaves complement CFa chemotaxin to prevent neutrophil recruitment

Question 27

What are the 5 ways GABHS can invade and spread to other tissue?

Answer 27

1. SpeB (strep pyrogenic exotoxin B) Protease- degrades host tissue
2. Streptolysins- exotoxins that cause hemolysis (S and O are b-hemolytic)
3. DNAse
4. Streptokinase- degrade clots by activating plasminogen
5. hyaluronidase- degrade hyaluronic acid

Question 28

What are the 2 major ways GABHS cause toxicity?

Answer 28

1. Superantigens- activate T cells in the absence of MHC releasing a lot of cytokines
2. Streptococcal pyrogenic exotoxins (Spe’s)- lead to scarlet fever and strep toxic shock

Question 29

How does the host gain immunity to GABHS?

Answer 29

1. Humoral immune response (Ab against strep M-proteins, streptolysin O and DNAse)
2. Opsonophagocytosis by neutrophils/PMNs

Question 30

What are the 3 ways Streptococcal diseases are diagnosed? What are pros and cons of each?

Answer 30

1. Culture:
\+ = aerobic growth, G+ cocci, B-hemolysis, bacitracin sensitivity
- = takes 1 to 2 days
2. Serology
\+ = antistreptolysin O, anti-DNAse
- = takes a few days 
3. Antigen Detection
\+ = rapid diagnosis for strep throat
- = if it is negative, you have to do a culture or serology

Question 31

What are the symptoms associated with ACUTE GABHS disease?

Answer 31

1. Suppurative (pus-forming) - pharyngitis, skin/soft tissue infection, occasionally deeper tissue involvement
2. Toxin-mediated - scarlet fever, Strep TSS

Question 32

What are the delayed sequelae of GABHS disease?

Answer 32

Throat infections can lead to:

1. Rheumatic Fever
2. APSGN

Skin infections can lead to:
1. APSGN

Question 33

GABHS is responsible for the majority of bacteria pharyngitis in what age group? What season?
How does transmission occur?

Answer 33

Children 5-15 in the fall when they return to school and are crowded together
Transmission occurs by:
1. respiratory droplets
2. asymptomatic carriers
3. hand to hand contact

Question 34

What is the incubation period for GABHS?
What are the initial symptoms?
What is the appearance of the oropharynx on physical exam?
When does it usually resolve?

Answer 34

2-4 days after which they get:

1. fever
2. sore throat with malaise
3. headache
4. nausea/vomiting in small children

Pharynx is red, edematous, and has petechiae
Tonsils are enlarged and studded with white exudate/plaques
Submandibular lymph nodes are swollen and tender

Symptoms resolve in 3-4 days

Question 35

How do you differentiate viral pharyngitis from GABHS pharyngitis?

Why does it even matter?

Answer 35

They will present similarly, except viral will have clear runny nose, conjunctivitis and hoarseness.

Run rapid strep test and culture for definitive diagnosis.

You want to treat bacterial strep because you want to avoid the sequelae (APSGN, rheumatic fever) but you would ideally not treat viral because you want to limit antibiotic use to minimize bacterial resistance

Question 36

What are the 4 drugs used to treat bacterial strep?

When is each justified?

Answer 36

1. IV penicillin - if severe with local sequelae
2. Benzathine pen G - IM injection
3. Oral pen or amoxicillin for 10 days
4. macrolides or cephalosporin if pen allergic

Question 37

What are the 2 major local complications of GABHS infection?

Answer 37

1. Peritonsillar sepsis and abscess leading to respiratory compromise
2. Cervical adenitis- draining cervical lymph nodes get infected and suppurate to form large abscesses

Question 38

What is the cause of scarlet fever? Is it the sequelae of a throat infection or skin infection?

Answer 38

Scarlet fever is caused by the release of Spe’s (encoded in bacteriophages and predominantly superantigens) from GABHS.
Symptoms come primarily from pharyngeal disease, but can occur with skin infections too.

Question 39

What are the clinical manifestations of Scarlet fever?

Answer 39

1. diffuse sandpaper rash on upper chest, neck, trunk and extremities (NOT palms, soles, face)
2. Pastia’s lines- red lines behind knees, elbows, neck
3. Circumoral pallor- pale around the mouth
4. Strawberry tongue (white with red papillae)
5. raspberry tongue (beefy red tongue)
6. desquamation (peeling skin on hands/feet)

Question 40

What 3 features do all cases of ARF have in common?

Answer 40

1. preceding GABHS infection
2. incubation 7-21 days
3. no GABHS in damaged tissue

Question 41

What are 3 unique features of rheumatogenic GABHS?

Answer 41

1. distinct M serotypes (M6, M14)
2. lack of opacity factor
3. heavily encapsulated

Question 42

What are the 2 major theories for the pathogenesis of ARF?

Which is the currently held belief?

Answer 42

1. Toxins like Spe, streptolysin O directly cause injury
2. Molecular mimicry- Ab formed against M proteins of strep cross react with cardiac and other tissue **currently held belief

Question 43

What are the major manifestations of Jones criteria?

Answer 43

1. Joints (migratory polyarthritis)
2. Carditis (pan- heart enlargement, insufficiency)
3. Nodules (subcutaneous)
4. Erythema marginatum (trunk/proximal extremities, no pain)
5. Chorea

Question 44

What are the 3 clinical minor manifestations of rheumatic fever?
What are the 4 laboratory “minor manifestations”?

Answer 44

Clinical:
1. fever
2. arthralgia
3. previous rheumatic fever
Lab:
1. acute phase reactions 
2. elevated ESR
3. C-reactive proteins 
4. prolonged P-R interval

Question 45

Using Jones criteria, what must be present to indicate a high probability of presence of rheumatic fever IF previous strep infection is confirmed (cannot rely on prior symptomatic pharyngitis! need serology like ASO titer)?

Answer 45

1. 2 major criteria

2. 1 major criteria and 2 minor

Question 46

Which is more sensitive when testing for ARF, culture or serology?

Answer 46

serology (increased ASO titer)

Question 47

What age group is most affected by ARF?

Answer 47

5-15 (it is VERY rare under the age of 2)

Question 48

ARF is preceded clinically by __________________ clinical syndrome but not __________.

Answer 48

pharyngitis but not pyoderma (skin infection)

Question 49

Describe the risk of repeat attacks of ARF.
What decreases risk?
What increases risk?

Answer 49

They can have repeat attacks, but the risk decreases with time after the first attack,
Risk also has an inverse relationship with age .

Risk is higher in patients with carditis and in patients with high ASO following streptococcal infection

Question 50

What is the outcome of ARF?

Answer 50

75% of acute attacks subside within 6 wks

If they had carditis- valve damage is common and they are at an increased risk of infective endocarditis

Question 51

What is treatment for ARF?

Answer 51

1. penicillin can prevent development of symptoms and can reduce duration of symptoms
2. aspirin can help with inflammatory lesions

Question 52

How can initial attacks of ARF be prevented?

How long should therapy be given?

Answer 52

Give penicillin within the first 9 days of symptoms of pharyngitis to reduce the risk that it advances to rheumatic fever.
Give treatment for 10 days

Question 53

How can recurrent attacks of ARF be prevented?
What are the benefits to each strategy?
How long is therapy given?

Answer 53

1. daily oral pen V- easier, no hypersensitivity but less effective
2. monthly benzathine penicillin IM - more effective but hypersensitivity reaction

Chemoprophylaxis should be given for 5 years or until the age of 25

Question 54

What is the clinical presentation of someone with APSGN?

Answer 54

5-15 year old with previous GABHS skin infection OR pharyngitis.
Present with:
mild proteinuria and microscopic hematuria to acute renal failure with volume overload and hypertension, edema, encephaly, death.

Urinalysis : proteinuria, RBCs, red cell casts

Question 55

What are the two main theories for APSGN?

Answer 55

1. immune complexes (Ab + strep Ag) form and deposit in the subepithelium of the glomerulus and activate complement
2. streptokinase-like enzyme activates plasminogen to make plasmin to promote complement deposition and glomerular hypercellularity

Question 56

What serological tests are studied for APSGN?

Which is more sensitive?

Answer 56

1. elevated ASO in most patients
2. antiDNAse B is a more sensitive indicator of prior strep skin infections than ASO
3. serum complement is decreased in acute phase (because it is being deposited in the kidney)

Question 57

What is treatment and usual outcome for someone with APSGN?

Answer 57

Treatment:

1. drugs to decrease fluid retention/hypertension
2. penicillin to eradicate strep

Outcome:

1. usually resolves w/o residual damage
2. in adults CAN progress to chronic renal disease but the chance is low

Question 58

What is the prevention strategy for APSGN?

Answer 58

Benzathine penicillin IM reduces frequency of streptococcal pyoderma (skin infection) in children and can minimize the spread.