Microbiology - Medically important microbes

Question 1

Outline the classification scheme for gram positive cocci

Answer 1

Gram positive rods

Gram positive cocci:

• Catalase positive GPC in clusters - Staphylococcus sp.
• Catalase negative GPC in chains - Streptococci and Enterococcus

Question 2

S. aureus

List types of infections

Answer 2

Infections:

• Skin/ soft tissue
• Abscesses
• Native or prosthetic joint septic arthritis
• Osteomyelitis
• Pneumonia
• Infective endocarditis
• Endovascular infection
• Surgical site infection

Toxin-mediated:

• Food poisoning by staphylococcal enterotoxin
• Toxic shock syndrome
• Scalded skin syndrome

Question 3

4 subtypes of S. aureus with varying antibiotics resistance

List the antibiotics resistance

Answer 3

MSSA: Sensitive to most B-lactams

HA- MRSA: Resistant to B-lactams and others e.g. clindamycin

CA- MRSA (may carry PVL toxin for necrotizing infection): Resistant to B-lactams, less resistant to non-B-lactams e.g. clindamycin

VISA/ VRSA: Immediate or full resistance to glycopeptides

Question 4

Antibiotics of choice for MSSA, MRSA, VRSA

Answer 4

MSSA: Cloxacillin

HA- MRSA: Vancomycin, Linezolid, Daptomycin, Ceftaroline

CA-MRSA: Vancomycin, Linezolid, Daptomycin, Ceftaroline + any susceptible antibiotics

VISA/VRSA: Linezolid, Daptomycin, Ceftaroline

Question 5

Function of coagulase test for gram positive cocci?

Answer 5

Catalase positive GPC in clusters:

• Coagulase positive = S. aureus
• Coagulase negative = Staphylococci spp.

Question 6

Coagulase negative staphylococcus

• Nature source of bacteria
• Infections
• Collection method

Answer 6

Natural skin commensals, benign

Exceptions:

• Genuine infection of prosthesis
• S. saprophyticus = UTI
• S. lugdunensis = Virulent
• S. epidermidis = prosthesis/ catheter-related infection

Collection:
Take at least two sets of blood culture if GPC in clusters
Single blood culture isolate may be contamination due to improper blood taking technique

Question 7

Alpha hemolytic streptococci

Types of infection caused by Strep. pneumoniae

Answer 7

Streptococcus pneumoniae

Pneumonia 
Meningitis 
Otitis media 
Sinusitis 
Septicaemia

Question 8

List 5 medically important alpha-hemolytic streptococci

List infections these cause

Answer 8

1. Streptococcus pneumoniae: pneumonia, meningitis, otitis media, sinusitis, speticaemia
2. Viridans streptococci- infective endocarditis, dental carries, oral infections
3. Streptococcus anginosus/ S. milleri - Abscess formation in abdominal, pelvic cavities
4. Streptococcus bovis - bacteremia, IE, GI malignancies (CRC)
5. Streptococcus suis - meningitis, bacteremia

Question 9

Which alpha-hemolytic streptococcus is related to colorectal cancer and IE

Answer 9

Strep. bovis

Major biotype in HK is type 2, associated with cholangitis
Biotype 1 is associated with IE and CRC

Question 10

Beta-hemolytic streptococci

S. pyogenes infections

Answer 10

S. pyogenes (GAS in Lancefield grouping)

• Local skin Infections: impetigo, cellulitis, necrotizing fasciitis
• Respiratory: pneumonia, pharyngitis
• Systemic infections: Toxic shock syndrome, Scarlet fever, lymphadenitis
• Post-infectious syndrome: PSGN, acute rheumatic fever

Question 11

Outline scheme for differentiating Catalase negative GPC/ Streptococci spp.

Answer 11

First: Alpha/ Gamma hemolysis or Beta hemolysis pattern

Alpha/ Gamma group:

• Optochin susceptible and bile soluble, PYR +ve and VP -ve = Streptococcus pneumoniae
• Optochin resistant and bile Insoluble = Viridans streptococci, Strep. bovis and Enterococci

Beta groups:
- Lancefield grouping, Bacitracin susceptibility, Biochemical reactions
GAS = Strep. pyogenes
GBS (Bacitracin resistant, CAMP _ve, Hippurate hydrolysis +ve) = Strep. agalactiae
GCS or GGS = Strep. dysgalactiae
Streptococcus anginosus group/ Strep. milleri

Question 12

Virulent mechanisms of group A strep.

Answer 12

Invasion and spread through tissue via Streptokinase, Hyaluronidase

Systemic toxin: Streptolysin O, superantigen and other Streptococcal pyrogenic exotoxins

Anti-phagocytosis and adhere to epithelial cells/ mucosa : M protein, capsule

Question 13

Scarlet fever

• Presentation

Answer 13

Rash:

• Facial flushing with peri-oral pallor
• Diffuse, centrifugally spreading rash over face and upper chest
• Blanchable

Strawberry tongue

Eosinophilia

Preceding pharyngitis or any GAS infection

Question 14

Diagnostic criteria of Streptococcal toxic shock syndrome

Treatment options

Answer 14

Lab: Isolation of Group A Streptococcus

Clinical: 
- Hypotension 
- Multiorgan involvement with at least 2 of 
Renal impairment 
Coagulopathy 
Liver involvement 
ARDS 
Generalized, erythematous macular rash 
Soft tissue necrosis

Tx: Penicillin + Clindamycin or linezolid

Question 15

Diagnostic criteria for acute rheumatic fever

Answer 15

Jone's criteria 
Major: 
- Carditis 
- Arthritis 
- Sydenham's chorea 
- Subcutaneous nodules 
- Erythema marginatum 

Minor:

• Fever
• Arthralgia
• High ESR or CRP
• Long PR interval

Supportive:

• High Anti-streptolysin O titer (ASO)
• Positive throat culture for GAS

Dx: 2 major or 1 major + 2 minor

Question 16

Treatment of acute rheumatic fever

Answer 16

Penicillin x 10 days
Anti-inflammatory: Aspirin, Corticosteroids
Surgery for mitral valve involvement

Question 17

S. agalactiae infections

Biochemical tests

Answer 17

S. agalactiae (GBS in Lancefield grouping)&raquo_space;> Raw fish!
Major infections: Meningitis, Pneumonia, Sepsis, Skin, Septic arthritis, Osteomyelitis, Female genital tract infections

• Neonatal sepsis, meningitis, peripartum infections , pneumonia
• Pregnant women: UTI, genital tract infection, placenta infection, post-partum sepsis
• Elderly/ immunocompromised: skin infection, septic arthritis, osteomyelitis, pneumonia, endocarditis, meningitis, sepsis

Bacitracin resistant
CAMP positive
Hippurate hydrolysis positive

Question 18

S. dysgalactiae Infections

Biochemical tests

Answer 18

Infections: Very similar to S. agalactiae
Same as S. agalactiae: Meningitis, Pneumonia, Sepsis, Skin infection, Septic arthritis, Osteomyelitis
Add-on: Pharyngitis, PSGN, Endocarditis
No pregnancy/ female genital infections

Lancefield group C/G
Bacitracin resistant
PYR -ve
VP -ve

Question 19

S. anginosus/ S. milleri

Infections
Biochemical tests

Answer 19

Abscess formation
- Dental, brain, liver, pelvic, lung, empyema
Endocarditis
Bacteremia in neutropenic patients - ARDS, Toxic shock

Bacitracin resistant
PYR -ve 
VP +ve
Alpha/ Gamma hemolysis 
Lancefield non-groupable 

(Caramel smell)

Question 20

Viridans streptococci

Source of bacteria
Types of infections

Answer 20

Common oral flora

Infections:
Dental carries
Infective Endocarditis

Bacteremia in neutropenic patients
Meningitis
Pneuomonia

Question 21

Enterococci

Examples
Lancefield grouping and special biochemical tests, growth environment
Types of infections

Answer 21

Example: E. faecium and E. faecalis

Lancefield group D
Grows in 6.5% NaCl and 40% bile salt (similar to gut environment)
PYR +ve, Hydrolyzes bile esculin

Normal gut flora, causes mainly opportunistic infections

-Catheter-associated UTI, Line sepsis
-Endocarditis
- Component of polymicrobial intra-abdominal/ biliary infections

Question 22

Outline the classification scheme for gram positive rods

Answer 22

Aerobic GPR: BCLNM

• Bacillus
• Corynebacterium
• Listeria monocytogenes
• Norcardia, Rhodococcus
• Mycobacteria: MTB complex and non-tuberculosis mycobacteria

Anaerobic GPR:

• Spore forming: Clostridium spp.
• Non-spore forming

Question 23

Bacillus spp.

List examples and types of infection
Source of bacteria

Answer 23

Widely distributed in environment

B. anthracis = anthrax
B. cereus = Food poisoning (rice products)

Bacillus in blood culture is most likely contamination

Question 24

Listeria monocytogenes

Source of bacteria
Types of infections
Antibiotic resistance
Tx

Answer 24

Source: Milk, Chicken and poultry products

Infections:

• Neonatal meningitis and pregnancy infections
• CNS infections in elderly/ immunocompromised
• Resistant to cephalosporins, sensitive to ampicillin

Tx: Ampicillin, (ceftriaxone)

Question 25

Corynebacterium

Example
Type of infection
Presentation
Source of bacteria

Answer 25

Respiratory and cutaneous diphtheria infection

Sore throat with grey pseudo-membrane in oropharynx
Cervical lymphadenopathy, toxin-mediated cardiac and neurological complications

Source: Skin, oral mucosal commensals, mostly cause opportunistic infections

Question 26

Nocardia and Rhodococcus

• Type of infection
• Biochemical test

Answer 26

Infection: Opportunistic infection, chronic in immunocompromised pt.

Test: Weakly/ Modified acid-fast

Nocardia: Pulmonary abscess, CNS abscess and cutaneous nocardiosis
(Lung and brain abscess > think Nocardia)

Rhodococcus: Pneumonia, lymphadenopathy, wound infections
(Zoonotic)

Question 27

List anaerobic gram positive rods and related infections

Answer 27

Spore-forming; Clostridium spp.

• C. perfringens: gas gangrene, food poisoning, biliary sepsis
• C. tetani: tetanus
• C. botulinum: Botulism
• C. difficile: Pseudomembranous colitis, Antibiotics associated diarrhea

Non-spore forming: Actinomyces

• GI and genital tract colonizer
• Pelvic (IUCD use), abdominal, cervicofacial actinomycosis
• Infection across tissue planes, invasive

Question 28

Outline classification scheme for Gram negative bacteria

Answer 28

Gram negative rods
- Anaerobes: oral flora - Fusobacterium; Gut flora - bacteroides
- Aerobes/ facultative anaerobes: Enterobacteriaceae, Vibrionaceae, Non-fermenters
- Other Aerobes: e.g. H.influenzae, Legionella pneumophilia, Campylobacter, H. pylori, HACEK group, brucella

Gram negative cocci
- Neisseria
- Moraxella catarrhalis

Question 29

Enterobacterales

List examples under this group

Answer 29

Think inflammatory gastroenteritis:
E. coli
Klebsiella
Proteus
Enterobacter
Citrobacter
Morganella
Serratia
Salmonella
Shigella
Yersinia
~~~

Question 30

Enterobacterales

Types of infections

Answer 30

UTI
Inflammatory Diarrhoea syndromes: E.coli, Non-typhoidal salmonella, shigella
Specific syndromes: Bacillary dysentry (Shigella), Typhoid fever (Salmonella typhi/ paratyphi)

Question 31

Enterobacterales

Antibiotics resistant subtypes

Answer 31

ESBL-producers = resistant to B-lactams except carbapenems, so use carbepenems!

CPE (Carbapenemase-producing Enterobacteriaceae) = Resistant to carbapenems

Question 32

Vibrionaceae

Examples and related infections
Biochemical tests

Answer 32

Vibrio:

• V. cholerae: Cholera epidemics (O1, O139); Watery diarrhea (Non-O1, Non-O139)
• V. vulnificus: Necrotizing fasciitis
• V. parahaemolyticus: Food poisoning

Aeromonas
Plesiomonas

Tests: Glucose fermenters, oxidase positive

Question 33

List non-fermenters and related infections

Answer 33

Most are environmental

- Pseudomonas aeruginosa
- Acinetobacter baumannii
- Stenotrophomonas maltophilia
- Burkholderia cepacia complex

Nosocomial infections: pneumonia, wound infections, prosthesis-related

Chronic infection e.g. P. aeruginosa, Burkholderia spp. in cystic fibrosis pt.

Burkholderia pseudomallei = cause of severe community-acquired pneumonia and bacteremia

Question 34

Anaerobic gram negative rods

Source of bacteria
Type of infection
2 examples

Answer 34

Normal flora in oral cavity and GIT
Causes polymicrobial infections and abscess

• Fusobacterium spp.: Lemierre’s disease (IJV thrombophlebitis; - high fever with acute neck pain), Brain abscess
• Bacteroides fragilis: GI colonizer, complicated intra-abdominal infections

Question 35

Gram negative cocci

Examples and related infections

Answer 35

Question 36

List bacteria that are unculturable/ unstainable by gram smear

Answer 36

1. Spirochaetes:
   - Treponema pallidum (Syphilis)
   - Borrelia recurrentis (recurring fever)
   - Borrelia burgdorferi (Lyme disease)
   - Leptospira (Leptospirosis)
2. Mycoplasma and Ureaplasma
3. Chlamydia and Chlamydophilia (STD)
4. Coxiella burnetii (Q fever)
5. Bartonella quintana (Trench fever) and B. henselae (Cat-scratch disease)
6. Rickettsia spp. and Orientia tsutsugamushi: Typhus, spotted mountain fever

Question 37

Fungi

Classification and examples

Answer 37

Yeast - unicellular

• Candida
• Cryptococcus
• Trichophyton
• Malassezia

Mould - Pro-mycelial

• Dermatophytes
• Aspergillus
• Zygomycetes
• Fusarium

Dimorphic fungi

Pneumocystis jiroveci

Question 38

Candida spp

Type of infection
Examples according to sensitivity to Azoles

Answer 38

Mucosal candidiasis, Thrush, systemic infection in immunocompromised and ICU pt.

Azole sensitive:

• C. albicans
• C. parapsilosis

Azole resistant:

• C. krusei
• C. glabrata
• C. auris

Question 39

Types of infection caused by crytococcus, trichosporon, malassezia

Answer 39

All yeasts cause opportunistic infections in immunocompromised

Cryptococcus: opportunistic meningitis, opportunistic pneumonia, systemic infections in immunocompromised

Trichosporon spp: piedra, systemic infection in immunocompromised

Malassezia: pityriasis versicolor, systemic infection

Question 40

Moulds

List examples and types of infection

Answer 40

Dermatophytes: Tinea pedis, Tinea cruris, Tinea corporis, Onychomycosis

• Trichophyton spp.
• Microsporum spp.
• Epidermophyton floccosum

Severe systemic infections in immunocompromised:
Aspergillus:
- A. fumigatus
- A. falvus
- A. niger
Zygomycetes: Rhizopus spp. Mucor
Fusarium: F. solani, F. oxysporum

Question 41

Examples of dimorphic fungi

Answer 41

Sporothrix schenckii

Blastomyces dermatitidis

Histoplasma capsulatum

Penicillium marneffei

Question 42

Examples of fungal disease according to skin layers

Answer 42

Superficial mycoses: Tinea, Onychomycosis (thrush), Cutaneous candidiasis, Pityriasis verisolor

Subcutaneous mycoses: mycetoma (gardener)

Deep mycoses

Question 43

3 classes of parasites and examples

Answer 43

Question 44

List viruses with high propensity to cause lower respiratory tract illness

Answer 44

Decreasing propensity to cause LRTI

Rhinovirus/ Enterovirus
Coronavirus
Parainfluenza (CROUP or bronchoiolitis)

Question 45

List viruses that cause URTI

Answer 45

Bocavirus 
Adenovirus 
Influenza A,B (URTI or bronchiolitis)
Enterovirus D68
Rhinovirus

Question 46

Viruses that cause hepatitis

Answer 46

Hepatitis A virus, HBV, HCV, HDV, HEV

cytomegalovirus (immunocompromised), primary EBV (also causes infectious mononucleosis),
primary HHV-6 (human herpesvirus), adenovirus,
enterovirus

Question 47

Viruses that cause gastroenteritis

Answer 47

Rotavirus (children, vaccine-preventable), Norovirus (any age group), Sapovirus, Adenovirus, Astrovirus

Others:
Hepatitis A virus, CMV, Coronavirus, HIV, Influenza, Torovirus, Aichi virus, Picobirnavirus, Bocavirus

Question 48

Viruses that cause meningoencephalitis/ encephalopathy

Answer 48

Herpes simplex virus (HSV) and Other herpesviruses: Primary EBV, Primary CMV, Primary HHV-6

Varicella zoster virus (VZV)

Exanthematous disease viruses: Measles (but mainly cough, rash), rubella, parvovirus B19

 Japanese encephalitis (JE), Animal contact: Rabies, Herpes B, LCMV, Hendra, Nipah

 Enterovirus

 Influenza-associated encephalopathy: Influenza, adenoviruses

Question 49

First-line investigation for viral meningoencephalitis

Answer 49

 Brain scans (CT/MRI)
 Lumbar puncture
 PCR for specific viral pathogens
 Antibodies against specific viral pathogens
 Electroencephalogram

Question 50

Viruses that cause myocarditis

Answer 50

 Adenovirus
 Enterovirus
 HSV/ VZV
 Cytomegalovirus
 Influenza

Question 51

4 viral rashes

Answer 51

Chickenpox:
 Varicella zoster virus: reactivation as herpes zoester/ shingles

Measles

Rubella

Enterovirus

Parvovirus B19: ‘slapped cheek rash’, ‘fifth disease’

HHV-6: Roseola infantum

Question 52

Arboviruses

Examples and related infections

Answer 52

 Japanese encephalitis (JE): meningoencephalitis

 Dengue (登革熱): hemorrhagic fever if severe

 Zika (Zika infection during pregnancy - microcephaly)

 West Nile virus: meningoencephalitis

 Yellow Fever virus

Question 53

Major cancers associated with viral infections

Answer 53

Nasopharyngeal carcinoma, lymphoma: Epstein-Barr virus (EBV)

Hepatocellular carcinoma: Hepatitis B virus (HBV), HCV

Cervical cancer, anal cancer, oropharyngeal cancer: 
Human papillomavirus (HPV), high-risk genotypes (16, 18)

Question 54

Transmissible spongiform encephalopathies

Pathogenesis
Causative pathogen
Types

Answer 54

proteinaceous infectious particle (no DNA or RNA):
 Autocatalytic conversion of normal prion protein to abnormally folded prion protein: Chain reaction: PrPC&raquo_space; PrPSc
 Accumulation of abnormal prion protein causes spongiform changes and vacuolation in the
brain (looks like cheese)&raquo_space; fatal, no effective treatment

Types of TSE:
- Sporadic CJD (sCJD)
- Variant CJD (vCJD):Transmission of BSE (bovine spongiform encephalopathy) agent from cows to
humans (consumption of beef)
- Iatrogenic CJD (iCJD): prion exposure due to surgical procedures and blood transfusion
(vCJD)
- Genetic CJD (gCJD)