Micro Lec 2

Question 1

List 3 host defence mechanisms

Answer 1

Stomach acid pH 4
Bile salts
Mucosal defences

Question 2

How does stomach acid pH act as a defence mechanism

Answer 2

It destroys 99.9% of ingested Enterobacteriaceae within 30 minutes

Patients with achlorhydria or taking antacids are vulnerable

Question 3

How do bile salts act as a defence mechanism

Answer 3

They disrupt some bacterial cell surfaces, but enteric organisms are adapted to survive

Question 4

How do mucosal defences act as a defence mechanism

Answer 4

IgA
Phagocytes
Digestive enzymes

Question 5

How does gut motility act as a host defence mechanism

Answer 5

Peristalsis impedes attachments. Helps to clear pathogens. Diarrhoea especially.

Question 6

how does commensal flora act as a host defence mechanism

Answer 6

Confers colonisation
Competition
Enterobacteriaceae produce bacteriocin
Changes to local pH
Production of H2S and fatty acids

Question 7

Outline the features of commensal flora

Answer 7

10^6 organisms/ml small intestine fluid
Largely gram positive
10^11 organisms/g of faeces in the large intestine
Largely anaerobes
Highly competitive environment

Question 8

What is gastrointestinal infection (gastroenteritis) characterised by

Answer 8

diarrhoea and/or vomiting, they often resolve over a few days and are self-limiting

Question 9

Infections are extremely common in developing countries, outline the features of this infection

Answer 9

Can be more severe - e.g. malnutrition
Poor sanitation and access to clean water is a factor
Limited access to basic therapies - oral hydration therapy
5-6 million die each year

Question 10

What is the large colon

Answer 10

the most abundant region of gut bacteria

Question 11

What is acute gastroenteritis (or bacterial food poisoning)

Answer 11

The ingestion of food contaminated by bacteria or bacterial toxins

Question 12

Outline the features of acute gastroenteritis

Answer 12

Bacteria have multiplied to reach infective dose before ingestion
Multiplication of bacteria within the gut (salmonella and shigella)
Ingestion of pre-formed bacterial toxin contaminated food (bacillus cereus)

Question 13

How do outbreaks of gastroenteritis occur

Answer 13

Via ingestion of contaminated food or water, recreational contact with contaminated water or direct contact with animals

Question 14

List the 4 common pathogens that cause food borne illness in the UK

Answer 14

E. coli
Campylobacter species; C. jejuni and C. coli
Salmonella enterica
Clostridium perfringens

Question 15

List some rare bacterial pathogens causing food borne illness

Answer 15

Yersinia, Vibrio, Aeromonas and Piesiomonas species

Question 16

List two non typical food borne illnesses

Answer 16

Shigella species
Vibrio cholerae

Question 17

What bacterial pathogen is acquired following antibiotic therapy

Answer 17

Clostridium difficile

Question 18

How are gastrointestinal infections typically diagnosed

Answer 18

by analysis of faecal specimen

Question 19

What containment level are faecal specimens in the recovery of pathogens handled at

Answer 19

containment level 2 except if S. Typhi, S. Paratyphi A, B or C, Shiga toxin-producing E. coli 0157 or Shigella dysenteriae are suspected - Level 3

Question 20

If processing is delayed, why must samples be refrigerated

Answer 20

because shigella is susceptible to pH changes and may not survive delayed processing

Question 21

What 3 things should be noted if appears in stool samples

Answer 21

blood, mucus or parasites

Question 22

What microscopy should be carried out on stool samples

Answer 22

gram stain of stool sample is of no value, immunofluorescence stain, e.g. cyrtosporidium. Parasite investigation - ova, cysts and parasites (OCP). Inoculate the plate directly or after dilution up to 1:4

Question 23

Stool should be cultured using selective/differential media, what are some examples of these

Answer 23

Charcoal cefoperazone desoxycholate agar (CCDA) for Campylobacter
Xylose lysine desoxycholate agar (XLD) for Salmonella and Shigella
Cefixime , tellurite, sorbitol MacConkey agar (CT-SMAC) for STEC
Thiosulphate, citrate, bile sucrose agar (TCBS) for Vibrio

Question 24

What are some examples of enrichment broths that can be used when recovering pathogens from stool

Answer 24

Selenite cysteine or Rappaport Vassiliadis broth for Salmonella
Alkaline peptone water for Vibrio

Question 25

Describe diarrhoea

Answer 25

Unusual frequency of bowel action (usually three time in a 24 hour period) Consistency of loose, watery, unformed faeces Associated symptoms include abdominal pain, cramps, nausea, malaise, vomiting, fever, dehydration

Question 26

Describe dysentery

Answer 26

Inflammatory disorder of lower GIT Severe diarrhoea with blood and mucus in the faeces Additional symptoms of abdominal cramps and constitutional disturbance

Question 27

List agars for cultivation of GIT pathogens

Answer 27

Culture - MacConkey agar Salmonella shigella agar - modified deoxycholate citrate agar (DCA) Xylose lysine desoxycholate (XLD)

Question 28

What is MacConkey agar useful for

Answer 28

Determination of whether or not a pathogen is a lactose fermenter (e.g. E. coli) or a non-lactose fermenter (e.g. salmonella or shigella)

Question 29

How does DCA agar present salmonella vs shigella

Answer 29

Salmonella Typhimurium appears in black single colonies compared to shigella sonnei which appears in yellow lighter colonies

Question 30

How do pathogens present on XLD agar

Answer 30

Red colonies of salmonella (with black centtes due to hydrogen sulphide production) and yellow colonies of E. coli

Question 31

How is campylobacter released

Answer 31

Campylobacter is excreted by a range of domestic and wild animals and bird: particularly associated with chickens

Question 32

how is campylobacter spread

Answer 32

Is the leading cause of enteritis in the UK. Can have outbreaks but mostly sporadic infections. Is assocoated with BBQ's, undercooked chicken, cross -contaminated foods. Primarily C. jejuni (90%), rest by C. coli and C. lari

Question 33

Outline the clinical features of campylobacter

Answer 33

Incubation = 2-5 days. Symptoms include: Initial diarrhoea can be severe but brief, fever, severe abdominal pain Blood and mucus in faeces Duration = 2-7 days Occasionally may be invasive Transient self-limiting bacteraemia Fulminant Garm negative sepsis Occasional sequelae Arthritis, bursitis, endocarditis and neonatal sepsis Guillain-Barré syndrome or Miller-Fisher syndrome

Question 34

How can we confirm campylobacter

Answer 34

most commonly isolated species are thermophilic = grow at 37-43 degrees celsius, not 25 Charcoal, CCDA incubated microaerophiilic atmosphere, 42 degrees celsius, 48hr Colony appearance = characteristic grey, moist, metallic sheen. Oxidase positive Gram stain = confirmatory gram negative, 'gull wing'

Question 35

Provide an example of how within one species there are a few subspecies and many serotypes of salmonella enterica

Answer 35

Salmonella enterica subspecies enterica serotype Enteritidis (note the use of italics) Abbreviated to Salmonella Enteritidis (S. Enteritidis) (note the use of italics)

Question 36

Most S. enterica serotypes can cause what

Answer 36

gastroenteritis

Question 37

What are serious systemic infections caused by

Answer 37

S. enterica serotypes Typhi or Paratyphi

Question 38

Outline the features of salmonellae

Answer 38

-Members of the enterobacteriaceae - Facultatively anaerobic gram negative bacilli - Ubiquitous in animal populations, infection arises by consumption of food, animal or bird origin

Question 39

What are the key salmonellae antigens

Answer 39

H - antigen; diphasic flagella (motile) O - antigens (LPS) Vi - antigen (virulence) polysaccharide of S. typhi

Question 40

How is salmonella gastroenteritis acquired

Answer 40

by drinking water contaminated by animals, contact with infected individuals in. condition of extremely bad personal hygiene, foreign travel

Question 41

What is salmonella gastroenteritis

Answer 41

non- typhoid salmonella

Question 42

Outline the features of salmonella gastroenteritis

Answer 42

Incubation 12hr-3d Duration 2-7d Asymptomatic carriage can occur

Question 43

What are teh typical presentations of salmonella gastroenteritis

Answer 43

diarrhoea, abdominal pain, nausea, vomiting, often fever

Question 44

Describe occasional presentations of salmonella gastroenteritis

Answer 44

Bacteraemia may arise in a few individuals Immunosuppression (eg malnutrition) or another underlying medical condition (eg inflammatory bowel disease) can be associated with more severe infection)

Question 45

How can we confirm the presence of salmonella

Answer 45

Culture in: Selenite cysteine or Rappaport Vassiliadis broth overnight to enrich sample Not always necessary Xylose lysine desoxycholate (XLD) agar 24 h in air at 37C Red colonies with black centres Deoxycholate citrate agar (DCA) Chromogenic agar

Question 46

What about salmonellas biochemical profile can help with conformation

Answer 46

Lactose negative Hydrogen sulphide producer Oxidase negative

Question 47

Recovery and conformation of salmonella by

Answer 47

API 20E BioMerieux Used to differentiate members of the Enterobacteriaceae Profile generated can be used to confirm identity

Question 48

What is MALDI-TOF

Answer 48

matrix-assisted laser desorption/ionisation - time of flight mass spectrometry. It allows for rapid identification. Bacterial protein 'molecular finger print' compared to database spectra

Question 49

What happens once confirmed as S. enterica

Answer 49

- O somatic and H flagella antigen used to type salmonella - serovars - Polyvalent O antisera first used - If agglutinates with polyvalent use individual antisera - Repeat with H antisera

Question 50

What is salmonella enteric (typhoid) fever

Answer 50

an invasive systemic infection e.g. S. typhi (typhoid) and S. Paratyphi A, B or C (paratyphoid)

Question 51

Outline the features of salmonella enteric (typhoid) fever

Answer 51

- Is usually only carried by humans - transmitted by faecal contamination of food or water - Incubation 2 weeks

Question 52

Outline the clinical features of salmonella enteric (typhoid) fever

Answer 52

- Septicaemia - High temp - Flu-like symptoms Diarrhoea not typical until late in disease course

Question 53

What containment level are salmonella enteric fever samples manipulated at

Answer 53

level 3

Question 54

What cultures should be taken in salmonella enteric fever

Answer 54

faecal culture alone is not sufficient (organism may not be present in stools), blood cultures should be taken. Other samples include bile, bone marrow or urine

Question 55

Individuals may become chronic carriers on recovery, outline the features of this

Answer 55

organism principally reside in the biliary tract continue to be excreted in faeces and urine

Question 56

Outline the features of Shigellae

Answer 56

- members of the enterobacteriaceae - facultatively anaerobic gram negative bacili - non-motile, non-encapsulated, no fimbriae - closely related to Escherichia - Humans are the only reservoir - Key antigens O antigen (LPS) - Shigella spp. are endemic in temperate and tropical climates - infection ranges from milk watery diarrhoea to dysentry; four species - Increasung prevalence of antimicrobvial resistant strains

Question 57

Outline the features of S. dysenteriae

Answer 57

U ncommon, but cases associated with sub-saharan Africa and South Asia. Most severe form of infection

Question 58

Outline the features of S. boydii

Answer 58

Uncommon

Question 59

Outline the features of S. flexneri

Answer 59

typical of developing countries

Question 60

outline the features of S. sonnei

Answer 60

predominant species in the UK

Question 61

How does shigellosis present

Answer 61

Diarrhoea may be associated with efver and abdominal cramps

Question 62

How is shigellosis transmitted

Answer 62

Directrly person to person. Via fingers, food, water or formites. Highly infective: infectious dose 10-100 organisms

Question 63

What are shigellosis outbreaks associated with

Answer 63

overcrowding in prisons, schools, mental healthcare facilities; places with low hygeine standards and poor socio-economic conditions

Question 64

Outline the features of S. dysenteriae

Answer 64

T- ype 1 causes the most sever disease - Classic bacillary dysentery = 'bloody flux' - UK cases are associated with foreign travel Cytotoxin; shiga toxin = destroys epithelial cells causing inflammatory diarrhoea = dysentry

Question 65

How is shigella diagnosed

Answer 65

Sample processed soon after collection, as with salmonella growth on XLD, DCA

Question 66

Outline the features of E. coli

Answer 66

- Major facultatively-anaerobic inhabitants of the human gut, so always in stool specimens - Difficult to identify specific roles in commensal flora, but may produce useful vitamins for host, and colicins may be protective - Many O and H serotypes - Most strains are harmless commensals - Recognition of some as pathogens since 1960s

Question 67

List E. coli culture characteristics

Answer 67

Usually motile Ferment lactose Produce acid and gas from lactose and other carbohydrates Yellow colonies on CLED, pink/red colonies on MAC, pink colonies on DCA Except Shiga toxin-producing strains (E. coli O157) Produce indole

Question 68

List the four E. coli pathotypes

Answer 68

Enterotoxigenic E.coli (ETEC) Enteropathogenic E. coli (EPEC) Enteroaggregative E. coli (EAEC) Enteroinvasive E. coli (EIEC) Shiga toxin-produciong E. coli (STEC) Diffusely adherent E.coli (DAEC)

Question 69

Outline the features of ETEC

Answer 69

Most common, childhood diarrhoea (but rare in the west) and travellers diarrhoea

Question 70

Outline the features of EPEC

Answer 70

Infantile enteritis, especially in low income countries

Question 71

Outline the features of EAEC

Answer 71

chronic, persistent diarrhoea

Question 72

Outline the features of EIEC

Answer 72

Resembles shigella dysentry, developing countries

Question 73

Outline the features of STEC

Answer 73

Includes enterohaemmorrhagic (EHEC), also known as verocytotoxigenic E. coli (VTEC)

Question 74

Outline the features of DAEC

Answer 74

Recently recognised; watery diarrhoea

Question 75

E.coli strains

Answer 75

pg 43

Question 76

Outline the features of shiga toxin producing E. coli (STEC)

Answer 76

most common strains in developed countries. STEC (VTEC) Verocytotoxin (VT) is similar to the shiga toxin (ST) of S. dysenteriae Over 300 serotypes recognised E. coli O157:H7 is the most common Varies in severity; mild to bloody diarrhoea to haemolytic uremic syndrome (HUS)

Question 77

Outline features of STEC (2)

Answer 77

Occurs in any age group but most common in children under 5yr Outbreaks have occurred in nursing homes, open farms.

Question 78

What is STEC associated with

Answer 78

Contaminated cooked meat Ground beef, beef burgers Drinking unpasteurized milk or juice and contaminated water The disease can be transmitted from person to person Low infective

Question 79

Outline the features of haemorrhagic colitis

Answer 79

Incubation. 1-5 days Severe abdominal cramps begin suddenly along with watery diarrhoea Becomes bloody within 1-3 days - Haemorrhagic colitis - blood diarrhoea 'like red poster paint' The diarrhoea usually lasts 1-8 days fever is usuallyt absent or mild

Question 80

About 2-7% of people develop a sever compliucation. of haemorrhagic colitis; haemolytic uremic syndrome (HUS)

Answer 80

- more likely to occur in children younger than 5 years and in older people - May occur 2-14 days after onset of diarrhoea in children Even with HUS and its complications, haemorrhagic colitis may cause death in older people

Question 81

Outline the features of HUS

Answer 81

Toxins damage the lining of the large intestine Abnormal premature destruction of red blood cells Damaged red blood cells clog the filtering system in the kidneys Some people develop complications

Question 82

Toxin damage the lining of the large intestine

Answer 82

if absorbed into the bloodstream, can also affect other organs such as the kidney

Question 83

Abnormal premature destruction of red cells

Answer 83

Anaemia caused by the destrution of red blood cells (haemolytic aneamia) Low platelt count (thrombocytopenia)

Question 84

Damaged red blood cells clog the flitering system in the kidneys

Answer 84

sudden kidney failure

Question 85

Some people develop complications

Answer 85

Nerve or brain damage such as seizures or strokes

Question 86

STEC lab diagnosis

Answer 86

Sorbitol MacConkey Agar (SMAC) Lactose switched for sorbitol in MAC Cefixime and tellurite increase selectivity (CT- SMAC) BCIG improves specificity E. coli O157 are pale translucent colonies Incubated 37C in air for 24 h Serology to confirm – O157 LPS-specific antisera

Question 87

Treatment for gastrointestinal infections

Answer 87

Supportive measures Drinking sufficient fluids Pain relief for abdominal cramps Anti-diarrhoeal agents may exacerbate HUS by delaying clearance from bowel Antibiotics are not given; May prolong carriage With E. coli STEC may increase the risk of developing HUS Some antibiotics stimulate SOS response in organisms resulting in more toxin production Overuse has induced development of resistance Antibiotics are given for; Enteric fevers, severe cases of salmonellae and shigellosis