Noscomial Infections

Question 1

How are hospital infections acquired?

Answer 1

Exogenous source
Cross infection
Endogenous source

Question 2

What are exogenous sources?

Answer 2

E.g. other patients, medical staff, from hospital environment: food, air, dust, water, catheters, instruments and equipment

Question 3

What are endogenous sources?

Answer 3

I.e. another site within the patient
Increased incidence when patients are elderly, immunocompromised, have undergone surgery or other invasive techniques such as catheterisation

Question 4

How many individuals suffer a health care associated infection and where are most people usually situated in the hospital that are most vulnerable?

Answer 4

About 10% of patients suffer health care associated infections (rates between 6.9-25%)
More infection in intensive care units (high dependency units)

Question 5

What are some examples o nosocomial (hospital-aquired) bacterial infections?

Answer 5

Staphylococcus aureus
Clostridium difficle
Enterococcus faecalis
Pseudomonas aeruginosa
Staphylococcus epidermidis
Klebsiella pneumonia 
Norovirus- winter vomiting virus

Question 6

In what ways could hospital infections be prevented?

Answer 6

By simple hygiene precautions; disinfection, especially hand-washing by staff; isolation of patients; use of sterile equipment; appropriate use of antibiotics

Question 7

Roughly how many nosocomial infections are preventable?

Answer 7

15-30%

Question 8

What are the risk factors in obtaining a nosocomial infection?

Answer 8

Age 
Length of stay in hospital 
Immunocompromised status 
MRSA (added problem, anti-biotic resistance)
C. difficile- surpass gastric acidity

Question 9

What is the cost of hospital acquired infection?

Answer 9

Increased length hospital stay
Increased number of admissions
Increased cost of drugs required to treat infections
Increased cost associated with surveillance and implementation of control measures
Infection control teams

Question 10

What are the common infections seen within a hospital?

Answer 10

MRSA- Methicillin (Meticillin- drug to control) Resistant Staphylococcus aureus
Staphylococcus aureus

Question 11

What is Staphylococcus aureus?

Answer 11

Gram positive coccus
Grow in grape-like clusters
Golden colonies
Non-fastidious, facultative anerobe
Survives drying, salt-tolerant

Question 12

What are the main ways Staphylococcus aureus is found and is spread by?

Answer 12

Commonly found in nose and on the skin of healthy humans

Spread by contact and airborne routes

Question 13

What are some examples of diseases acquired in a hospital?

Answer 13

Food borne disease- caused by enterotoxin
Skin infections- pimples, boils, impetigo, scalded-skin
syndrome
Post-operative wound infections- catheter associated infection
Septicaemia- endocartisis (heart damage)
Osteomyelitis (bone infection)
Pneumonia

Question 14

What are some of the toxins present in s. aureus infections?

Answer 14

Enterotoxins (vomiting, diarrhoea)
Toxic shock syndrome toxin (TSST)
‘Superantigens’, trigger cytokine release, cause ‘shock’

Question 15

What are some of the cell-destroying enzymes and toxins present in s.aureus infections?

Answer 15

Alpha toxin
Leukocidin
Exfoliate toxin (scalded skin syndrome)
Panton-Valentine leukocidin

Question 16

What are virulence factors?

Answer 16

Molecules produced by bacteria, fungi etc. that add to their effectiveness allowing them to colonise a host

Question 17

How do anti-chemotaxis allow the staphylococcus to enter the host?

Answer 17

Chemotaxis inhibitory protein of staphylococci (CHIPS)

Extracellular adhesion protein (Eap)

Question 18

How do anti-opsonic and anti-phagocytic allow staphylococcus to enter the host?

Answer 18

Staphylococcal complement inhibitor (SCIN)
Protein A (binds antibody wrong way round)
Capsule (formation of biofilms, adherence to plastic, hard to remove and treat)
Staphylokinase
Fibrinogen- binding proteins
Haemolysins and Leukocidins

Question 19

What virulence factors does Staphylococcus have?

Answer 19

Anti-chemitaxis
Anti-opsonic and anti-phagocytic
Iron-uptake systems
Degradative enzymes
Toxins
Adherence

Question 20

How do degradative enzymes allow staphylococcus to enter the host?

Answer 20

DNAse
Lipases
Proteases
Hyaluronidase

Question 21

How do toxins allow staphylococcus to enter the host?

Answer 21

Exfoliative toxins
(scalded skin syndrome, leuocidin, alpha toxins)
Superantigens
(toxic shock toxins and enterotoxins)

Question 22

How does adherence allow staphylococcus to enter the host?

Answer 22

Fibronectin-binding protein
Other ECM binding proteins
MSCRAMMS- microbial surface components recognising adhesive matrix proteins- bind host proteins, may aid adherence to host tissues and serum-coated plastic

Question 23

What is the resistant strain of staphylococcus and when did it emerge?

Answer 23

Methicilin-resistance staphylococcus aureus (MRSA) emerged 30 years ago

Question 24

What gene gives staphylococcus resistant?

Answer 24

mecA gene

Question 25

What does this mecA gene do?

Answer 25

Encodes mutant penicillin-binding protein (PBP2a) with lower affinity for beta-lactam antibiotics
Replaces the ‘normal’ penicillin binding proteins (enzymes involved in the peptidoglycan synthesis) to which penicillin normally targets

Question 26

How is staphylococcus prevented?

Answer 26

Vancomycin

Question 27

What is Clostridium difficile?

Answer 27

Gram positive rod

Strict anaerobe, spore-forming

Question 28

Where is C. difficile found?

Answer 28

In gut of:
<1% of people outside hospitals
5-10% of hospital patients

Question 29

What are the range of symptoms from C. difficile?

Answer 29

Mild, self-limiting diarrhoea
Severe diarrhoea and abdominal pain
Life-threatening pseudomembranous colitis
• Extensive flammation and necrosis of the colonic mucosa

Question 30

What are the steps that result in death from C. difficile?

Answer 30

Normal colon
Reduction in major genera of anaerobes
C. difficile grows to high numbers
Production of exotoxins A and B
Diarrhoea
Ulceration of colon
Death

Question 31

What are the symptoms due to?

Answer 31

Toxin A (enterotoxin) cause hypersecretion of fluid (diarrhoea)
Toxin B (cytotoxin) damage and destroy cells
A negative and B positive cause clinical disease
Both glucosyltransferases- affect actin cytoskeleton
Damage powerful chemoatractant for neutrophils

Question 32

What has ribotype 027 done?

Answer 32

Increased severity, mortality and relapses of C. difficile

Question 33

What are the treatments of C. difficile?

Answer 33

Discontinuation of the implicated antibiotic

Specific therapy with metronidazole or vancomycin

Question 34

Why do relapses often occur in c. difficile?

Answer 34

Can’t restore flora in time, treated by more antibiotics but now trying faecal transplantation

Question 35

What vaccines are there for C. difficile?

Answer 35

Several currently in clinical trials

Question 36

What are the problems with vaccines for C. difficile?

Answer 36

Problem elderly population to which they are targeted
Impact on impact of the toxin within the gut
Do not reduce colonisation

Question 37

What control measures should be put in place once someone has been identified to have C. difficile?

Answer 37

Patient should be isolated
Avoid cross-infection of others patients by use of disposables, hand washing (not with alcohol based gels- spores resistant)
Use of chlorine-based disinfection- “deep cleaning”

Question 38

Overall have cases of hospital acquired infection reduced?

Answer 38

Yes