Food Microbiology II

Question 1

Water activity level

Answer 1

Fresh food > .95
- most spoilage up to .9

< .9 water activity - most bacteria/yeasts cannot grow but molds can

< .8 only Xerophiles (dry, low osmolarity), Osmophiles (high osmolarity, high sugar) and Halophiles (high salt) can grow

Ex. S. aureus can grow at > .83

Question 2

Psychrophile vs. psychrotrophs

Safe temps

Pathogens which grow at 4.5°C

Safest cold temp

Answer 2

Psychrophiles grow best at low temp

Psychrotrophs can grow at low temps

Keep food below 4.5°C and above 60°C

4.5°C pathogens: Yersinia enterocolitica, Listeria monocytogenes, Clostridium botulinum
- but microbes can survive at 4°C, just can’t grow

Only at -20°C the water activity is .82 and most microbes cannot grow

Question 3

pH and microbial growth

Answer 3

Lactic acid bacteria can grow at 4 pH
- Few bacteria grow below 4 pH

Many yeasts/molds grow below 4 pH

Question 4

Oxygen restriction inside food packaging

Answer 4

Restricts growth of aerobic bacteria yeasts and molds

Reduces oxidation of foods

Swelling of packaging (cans, vacuum packaging or MAP) –> don’t eat, implies growth of aerobic organisms

Question 5

Microbes associated with high fat/protein foods

Microbes associated with higher carbohydrate foods

Answer 5

Bacteria and molds - yeasts cannot

Bacteria, yeasts and molds

Question 6

Food poisoning/intoxication vs. food infections

Answer 6

Intoxication: caused by microbial toxins and usually symptoms appear quickly

Food infection: Microbes multiply in host and symptoms take longer to develop
- illness can be due to toxins or tissue damage

Dose vs. time is what determines severity - fresh foods have pathogens but in low quantity

Question 7

Top 10 causes of food-borne disease

Answer 7

1) Leaving cooked foods at room temp or storing foods in large containers
2) 12h between prep and consumption
3) Infected person handling food
4) Inadequate reheating
5) Improper hot handling (too low temp)
6) Contaminated raw ingredients
7) Foods from unsafe sources
8) Improper cleaning of equipment
9) Cross contamination between raw-cooked foods
10) Inadequate cooking

Question 8

Botulism type, symptoms, prevention and risk areas

Answer 8

Food poisoning AB-type neurotoxin from Clostridium botulinum

10% mortality from paralysis, cardiac/respiratory failure

Toxin destroyed by cooking

Risk areas: canning, non-reheated processed foods

Question 9

Staphylococcal type, symptoms, prevention and risk areas

Answer 9

Type: food poisoning, enterotoxin from some strains of S. aureus
- 40% of food poisoning

Symptoms: nausea, vomiting and diarrhea after 1-6 hours

Toxin NOT destroyed by cooking

Risk area: food in large quantities then left at room temp, salted room temp foods (halotolerant)

Question 10

Salmonella enterica type, symptoms, prevention and risk areas

Answer 10

Type: food infection, zoonosis
- 2000 serotypes in many mammals, birds and reptiles

Symptoms: grows in GI (most often Enteritidis and Typhi) causing nausea, vomiting, fever, diarrhea for 4-7 days
- invasion and destruction of intestinal epithelium

Cooking kills it

Risk areas: uncooked or slightly cooked foods or cross contamination
- requires time to multiply in food to 10^5-10^8

Question 11

E coli O157:H7 type, symptoms, prevention and risk areas

Answer 11

Type: food infection which produces AB exotoxin, fecal coliform undetected bc it grows at 44.5°C

Symptoms: bloody diarrhea from damage to underlying mucosal tissues of GI
- toxins can travel to kidney –> hemolytic uremic syndrome and acute renal failure
- shiga-like toxin which inhibits protein synthesis

Cooking kills E coli

Risk areas: undercooked beef or beef left out

Question 12

Alice Evans

Answer 12

Demonstrated in 1917 that raw milk could cause disease and that pasteurization could be used to avoid this

1930 milk pasteurization was adopted as policy as a result of her work

Question 13

Pasteurization subjects and types

Answer 13

Dairy products, liquid egg, alcohol, fruit juice

LTLT: 30 min at 62.8°C (poor taste, cheap)
HTST: 15 sec at 71.7°C for drinking milk
UHT: 2 sec at 141°C long shelf life at room temp

LTLT = HTST in safety

Time/temp affected by protein, fat and sugar content in food

Question 14

Canning temperatures and concept

Answer 14

Heat food inside closed container to create anaerobic environment

For acidic foods: 100°C
For low acid foods: 121°C

12D process: temp/time must kill 10^12 spores of Clostridium botulinum

Question 15

Types of irradiation

Answer 15

For reducing contamination of fresh foods

Radappertization: kill all microorganisms

Radicidation: kill specific microorganisms

Radurization: reduce overall contamination

Question 16

GRAS additives

Answer 16

Nitrite: prevents outgrowth of C. botulinum

Sulfites: wine industry to inhibit wild yeasts

Nisin: bacteriocin produced by Lactococcus lactis inhibits S. aureus

Bacteriophage preparation: for L. monocytogenes

Question 17

Industrial microbiology

Answer 17

Primary production of metabolites such as alcohol occurs during exponential phase of growth

Secondary production of metabolites such as penicillin occurs during stationary phase