Infection

Question 1

List the 5 categories of micro-organisms that cause infection.

Answer 1

Bacteria, virus, fungi, parasites, prions

Question 2

List 4 sterile sites.

Answer 2

Blood, CSF, lung, bladder

Question 3

List 4 non-sterile sites

Answer 3

skin, nasopharynx, urethra, gut

Question 4

list 4 methods for collection of bacteria

Answer 4

mid-stream urine, sputum, throat swab, wound swab, faeces, blood culture, CSF

Question 5

Describe tests used for diagnosis of bacterial infections.

Answer 5

gram staining and microscopy, culture (non-selective or selective)

Question 6

Name a type of non-selective media.

Answer 6

Blood agar (show yellow staph aureus) and chocolate agar (i.e enriched medias)

Question 7

Name a type of selective media.

Answer 7

MacConkey’s (grow gram negative and inhibit gram positive)

Question 8

Name a sensitive test for the diagnosis of bacterial infection.

Answer 8

Culture (microscopy is not sensitive)

Question 9

What is ZN stain/auramine used for?

Answer 9

Mycobacteria

Question 10

What are the 4 main methods used to identify a virus?

Answer 10

1. Molecular methods (e.g real-time PCR)
2. Antigen detection
3. Serology
4. Electron microscopy (rarely used now)

Question 11

What are the diagnostic principles in parasitology?

Answer 11

1. Microscopy (parasite, cysts or ova in faeces or blood films for malaria)
2. Serology sometimes useful e.g when parasite in deep tissue
3. Culture rarely possible

Question 12

What colour is a gram positive stain?

Answer 12

Purple

Question 13

What colour is a gram negative stain?

Answer 13

Pink

Question 14

What shape are cocci?

Answer 14

Spherical

Question 15

Which bacterial cell wall contains more peptidoglycan?

Answer 15

Gram positive bacteria

Question 16

Which bacterial cell wall contains lipopolysaccharides?

Answer 16

Gram negative bacteria

Question 17

What is the function of penicillin binding proteins?

Answer 17

Essential for cell wall synthesis by forming cross-links and also illicit a strong immune response.

Question 18

How many chromosomes does a typical bacterial cell have?

Answer 18

One single chromosome (no nucleus)

Plasmid = extra chromosomal entities, involved in gene transfer (conjugation).

Question 19

Describe the capsule.

Answer 19

A virulence factor which helps bacteria to survive the host environment by preventing phagocytosis and desiccation.

Question 20

What is the function of flagella and describe the 4 different types?

Answer 20

Motility of bacteria.

Monotrichous, Amphitrichous, Lophotricous, Peritrichous

Question 21

Describe a bacteriophage.

Answer 21

Virus that infects and replicates within a bacterium.

Question 22

When are spores formed?

Answer 22

When no nutrients are available and adverse environmental conditions exist (ensuring survival of bacterium through periods of stress)

Question 23

What is the genus and species of Staphylococcus aureus?

Answer 23

Staphylococcus = genus
Aureus = species

Question 24

Describe how bacteria replicate and create genetic variation.

Answer 24

Binary fission (asexual reproduction) - transformation, transduction and conjugation. Produces identical progeny.

Question 25

Name the three main groups of parasites.

Answer 25

1. Protozoa
2. Helminths
3. Arthropods

Question 26

Give an example of a protozoa.

Answer 26

Malaria (human and arthropod phases)

- mosquito - sporozoite - liver to mature - merozite - invade RBC - take up by mosquito

Question 27

Give two extra examples of protozoa.

Answer 27

1. Amoebae ( amoebic dysentery)

2. Flagellates

Question 28

Name the three main types of helminths and provide an example of each.

Answer 28

1. Nermatodes (round worms) e.g Ascaris Lumbricoides
2. Cestodes (tapeworms) e.g Echinococcus
3. Termatodes (flat worms) e.g schistosomiasis

Question 29

Give examples of Arthropods

Answer 29

1. Lice
2. Ticks
3. Mice

Question 30

Describe the common diseases caused by enteric parasites.

Answer 30

Helminth infections (Ascaris Lumbricoides, Echinococcus, Schistosomiasis)

Question 31

Describe the common blood-borne/vector-borne parasites.

Answer 31

Protozoa infections (Malaria, Chagas, Leishmanaiasis, Toxoplasmosis, Trypanosomiasis)

Question 32

Define parasite.

Answer 32

An organism that lives within another organism and gets food at the expense of the host. Simple organisms however, more complex than bacteria.

Question 33

Explain the structure of fungi.

Answer 33

1. Lacks chlorophyl
2. Forms spores
3. Cell wall contains polysaccharides (chitin or glycan)
4. Membrane contains ergosterol

Question 34

Describe the 3 major types of fungi.

Answer 34

1. Moulds - Zygomycetes e.g Aspergillus
2. Yeasts - Astromycetes e.g Candida
3. Mushrooms - Basidomycetes e.g Cryptococcus

Question 35

Name three fatal systemic diseases caused by fungi acting as opportunistic pathogens.

Answer 35

1. Candida (infect deep organs e.g after surgery or burns)
2. Aspergillus (infect deep organs and strongly angioinvasive e.g after chemo)
3. Cryptococcosis (pulmonary cryptococcosis or meningitis)

Question 36

Give examples of dermatophytic fungal infections (non-fatal)

Answer 36

E.g by microsporum, tricophytob causing athletes foot, thrush, pityriasis versicolour

Question 37

Describe host factors that contribute to pathogenicity of fungal infections.

Answer 37

1. Warm and moist micro-environments.
2. Broad-spectrum antibacterial agents
3. Immunosuppression by iatrogenic causes, disease processes OR a combination of both.

Question 38

Describe the diagnostic methods for detecting fungi.

Answer 38

1. Direct detection (histopathology, high-res CT)
2. Direct smear
3. Growth on selective media
4. Serology
5. Fungal antigen detection
6. PCR
7. Culture for normal sterile sites

Question 39

What is the route of administration for anti-fungal drugs?

Answer 39

IV, topical or oral (static or cidal)

Question 40

What is the function of Polyenes?

Answer 40

Anti-fungals - target membrane

Question 41

Give two example of a polyenes.

Answer 41

Amphotericin B and Nystatin

Question 42

What is the function of Azoles?

Answer 42

Anti-fungal - targets sterols

Question 43

Give an example of an azalea.

Answer 43

fluconazole, clotrimazole

Question 44

What is the function of Echinocandins?

Answer 44

Anti-fungal - targets cell wall e.g anidulafungin

Question 45

Name the 3 main anti-fungal agents.

Answer 45

Polyenes, Azoles, Echinocandins

Question 46

What is the function of Flucytosine?

Answer 46

Anti-fungal - targets DNA synthesis (used in combination with one of the three main anti-fungals)

Question 47

How are viruses classified?

Answer 47

According to: vision shape, presence/absence of envelope, genome structure, mode of replication

Question 48

Describe the characterisation of viruses.

Answer 48

Small, non-cellular, icosahedral, obligate intracellular pathogens, tissue tropism

Question 49

List 5 of the main viruses.

Answer 49

1. Hepatitis B and C - chronic infection, hepatocellular carcinoma, blood-borne, sexual or vertical transmission.
2. HIV - chronic infection, blood-borne, sexual or vertical transmission, causes lymphadenopathy
3. Measles - long-term immunity, airborne, respiratory conditions
4. HPV - transformation , cervical, anal and oesophageal cancers.
5. Herpes simplex - viral latency, oncogenic potential e.g Herpes simplex 8 causes Kaposi’s sarcoma, close-contact transmission.

Question 50

What does a virus use to reproduce?

Answer 50

Virion associated polymerase

Question 51

Describe the 4 steps of virus replication.

Answer 51

1. Entry
2. Replication
3. Latency
4. Shedding

Question 52

What can cause recombination and generation of a new strain?

Answer 52

Transmission of novel virus to humans or co-infection of humans and animal/bird strains in one organsim.

Question 53

What is the pro for having a virus that only replicates in humans?

Answer 53

Easier to eradicate

Question 54

Describe the 4 consequences of viral infection.

Answer 54

Clearance, Chronic Infection, latent infection, transformation

Question 55

Explain viral latency.

Answer 55

Following primary infection, some viruses lie dormant and full viral genome retained in host with expression restricted. Reactivation may occur (risk in immunocompromised)

Question 56

Describe how virus have oncogenic potential.

Answer 56

1. Increase cell proliferation
2. Prevent apoptosis
3. ROS mediated damage

Question 57

What cancer can EBV cause?

Answer 57

Burkitt’s lymphoma

Question 58

What cancer can Herpes 8 cause?

Answer 58

Kaposi’s sarcoma

Question 59

What cancer can HPV cause?

Answer 59

Cervical cancer

Question 60

What cancer can Hep B and C cause?

Answer 60

Hepatocellular carcinoma

Question 61

How do anti-virals function?

Answer 61

Virtuistic and not virucidal (stop viral replication)

Question 62

What are the indications for anti-virals?

Answer 62

Prophylaxis, pre-emptive therapy, overt disease, suppressive therapy

Question 63

How do you prevent viral infections?

Answer 63

immunisation, anti-natal screening, blood/tissue/organ screening, infection prevention and control procedures, prophylactic treatment post-exposure.

Question 64

Define pathogen.

Answer 64

An organism which CAUSES disease.

Question 65

Define commensal.

Answer 65

An organism which is part of the NORMAL FLORA.

Question 66

Describe features of viral pathogenesis.

Answer 66

Cell destruction e.g death of CD4 cells by HIV, virus-induced changes to cellular gene expression

Question 67

List the cells involved in the innate immune system.

Answer 67

Natural killer cells, macrophages and polymorphs (eosinophil, neutrophil, basophil)

Question 68

List the cells involved in acquired immunity.

Answer 68

Humoral (antibodies - mostly bacterial infections) or cell mediated (T cells - mostly viral infections), B lymphocytes differentiate to plasma cells.

Question 69

Define colonisation.

Answer 69

Bacteria grow on body sites without causing infection.

Question 70

Define latent.

Answer 70

The ability of pathogenic virus to lie dormant.

Question 71

Define asymptomatic disease.

Answer 71

Carrier of disease infection, no symptoms. Also known as ‘sub-clinical infection’.

Question 72

Define the features of clinical infection.

Answer 72

Inflammation, pain, pyrexia, tachycardia, riggers, high WBC count, high CRP.

Question 73

Define pathogenicity.

Answer 73

The CAPACITY of an organism to cause infection.

Question 74

Define infectivity.

Answer 74

Ability to become established.

Question 75

Define virulence.

Answer 75

Ability to cause harmful effects once established.

Question 76

Describe exotoxins and give an example.

Answer 76

Released extracellularly by micro-organisms e.g tetanus

Question 77

Describe enterotoxins and give an example.

Answer 77

Exotoxin which act on GI tract e.g cholera.

Question 78

Describe endotoxin.

Answer 78

Part of gram negative cell wall - lipopolysaccharide e.g Neisseria meningitides.

Question 79

Describe the sites of viral entry.

Answer 79

Skin, conjunctiva, respiratory tract, urogenital tract, alimentary tract, capillary, arthropod.

Question 80

Describe features of acute inflammation.

Answer 80

Localised to specific site, development of viraemia with widespread infection of tissue e.g influenza A, enterovirus.

Question 81

Define antigenic drift.

Answer 81

Minor changes over time to generate antigenic variants.

Question 82

Define antigenic shift.

Answer 82

Abrupt major changes, non-human hosts play a key role.

Question 83

Name the two main types of gram positive cocci and describe shape.

Answer 83

Staphylococci (clusters) & Streptococci (chains)

Question 84

Name the gram positive, anaerobic, spore-forming bacilli.

Answer 84

Clostridium species

Question 85

What test is used to distinguish between staphylococci?

Answer 85

Coagulase test (positive = staph aureus, negative = staph epidermis)

Question 86

What test is used to distinguish between streptococci?

Answer 86

Haemolysis (alpha/partial = strep pneumonia, GREEN and beta/complete = step progenies)

Question 87

Name two gram positive bacteria used in biological warfare.

Answer 87

Clostridium botulinum and bacillus anthrax.

Question 88

Name a gram negative cocci.

Answer 88

N.gonorrhoea and N.meningitidis

Question 89

Name the gram negative cocco-bacilli.

Answer 89

Haemophilus influenza.

Question 90

Name a curved gram negative bacilli

Answer 90

Campylobacter, vibrio and helicobacter species.

Question 91

What distinguishes gram negative aerobic bacilli?

Answer 91

Lactose fermenters (E.coli) or non-lactose fermenters (pseudomonas and salmonella spp)

Question 92

Name a gram negative anaerobic bacilli.

Answer 92

Bacteriodes (part of normal colonic flora, causes intra-abdominal abscess which needs draining)

Question 93

Give two examples of an acid and alcohol fast bacilli.

Answer 93

Mycobacterium Tuberculosis and Mycobacterium Leprae

Question 94

Give an example of a spirochaetes.

Answer 94

Treponema (syphillis), borrelia and leptospirosis.

Question 95

Give an example of miscellaneous.

Answer 95

Chlamydia

Question 96

Describe the principles of active immunisation.

Answer 96

Natural (exposure/infection) and artificial (vaccine - antigen stimulates response, with memory and specificity)

Question 97

Describe the principles of passive immunisation.

Answer 97

Natural (using neonatal Fc receptor) and artificial (snake/spider bites etc, hypogammaglobulinaemia infusion of gamma globulins to decrease infection, specificity but no memory)

Question 98

Name the three types of vaccines available.

Answer 98

1. Conventional (killed whole e.g polio or attenuated e.g BCG)
2. Subunit (purified Ag e.g HPV)
3. Toxoid (modified toxin e.g Tetanus)

Question 99

Define vaccination.

Answer 99

The administration of antigenic material to stimulate an individual’s immune response to develop adaptive immunity to a pathogen.

Question 100

Describe temporary contra-indications to vaccine.

Answer 100

Febrile illness and pregnancy

Question 101

Describe permanent contra-indications to vaccine.

Answer 101

Allergy and immunocompromised

Question 102

Describe herd immunity.

Answer 102

Decreased risk to unvaccinated individuals due to vaccination schedules where the majority of people are vaccinated and less likely to carry the infection.

Question 103

At what age does the childhood vaccination schedule begin?

Answer 103

2 months (DTP, polio, haemophilia influenza B, strep pneumonia and rotavirus)

Question 104

What are the non-routine vaccinations at birth?

Answer 104

BCG and Hep B.

Question 105

List 5 vaccines that may need to be given to travellers.

Answer 105

Hep A, typhoid cholera, yellow fever, Japanese encephalitis, rabies

Question 106

What can an ELISA be used for?

Answer 106

Measure antigen or antibody in serum.

Question 107

What type of organisms are resistant to phagocytosis?

Answer 107

Capsulated organisms e.g pneumococcus.

Question 108

Name an organism which is resistant to chlorination.

Answer 108

Cryptosporidium parvum (filtration needs to be carried out).

Question 109

What are the outcomes of colonisation and clinical infection determined by?

Answer 109

Host immune system and virulence factors.

Question 110

Does the differing ribosomes of mammalian and bacterial cells allow selective toxicity?

Answer 110

Yes.

Question 111

Do third generation cephalosporins (eg, ceftazidime) have better anti-staphylococcal activity than the earlier cephalosporins?

Answer 111

No. First generation do.

Question 112

Does piperacillin have an extended spectrum and active against Pseudomonas species?

Answer 112

Yes

Question 113

Do bacterial exotoxins act as virulence factors?

Answer 113

Yes

Question 114

What are microglial cells?

Answer 114

Specialised macrophages occurring in the brain.