Foodsafe Level 1 - Unit 1-4 PDF

Summary

This document provides an introduction to food safety plans, focusing on the biological, chemical, and physical causes of food contamination. It also discusses improper food handling practices and ways to reduce the risk of allergic reactions and foodborne illnesses. Information about food allergies and best practices for preventing allergic reactions is also included.

Full Transcript

UNIT
The Causes of Foodborne Illness 1

This unit describes
three causes of foodborne
contamination: chemical,
physical and biological; and LEARNING OUTCOMES
identifies improper food
handling practices that can
lead to foodborne illness. BY THE END OF THIS UNIT,
We’ll also discuss how to reduce PARTICIPANTS WILL BE ABLE TO:
the risk of allergic reactions to
the food we serve. Give examples of chemical, physical and
biological causes of food contamination
Identify major improper food handling
practices that have caused foodborne illness
outbreaks
Demonstrate an understanding of food
allergies and list ways to reduce risk

13
 THREE CAUSES OF FOOD CONTAMINATION
CHEMICAL
Some sources of chemical contamination
include cleaning agents, pesticides and
dissolved metals. Reduce the risk by storing
chemicals away from food in properly
labeled containers.

PHYSICAL
Some types of physical contamination
include glass, wood, hair, bandages, insects,
metal particles and stones. Reduce the risk
by practicing good hygiene, inspecting all
incoming food, storing food away from
possible physical contaminants, and by
following proper pest control programs
and equipment maintenance.

BIOLOGICAL
Some sources of biological contamination
include infected workers, contaminated
work surfaces, cross-contamination,
improperly washed dishes and surfaces,
and contaminated water used in food
preparation and dishwashing.

Most cases of foodborne illness in the food service industry
are caused by biological contaminants, so FOODSAFE Level 1
will focus on reducing biological risk.

14
 UNIT
1

Learning how to handle food properly from receiv-
ing to serving, and making those safe food han-
dling practices part of the culture of your food
service establishment, can significantly reduce
the risk of foodborne illness outbreaks.

Improper food handling practices
that have caused foodborne
illness outbreaks

Improper Cooling
A
 dvance Preparation
Infected Food Handlers
Improper Reheating
I mproper Hot-Holding
C
 ontaminated Raw
Food or Ingredient
Unsafe Source
Use of Leftovers
Cross-Contamination
Inadequate Cooking

15
 FOOD ALLERGIES AND FOOD SERVICE
Many Canadians (4–7%) are affected everyone is aware and the change is
by a food allergy for which there reflected on the menu.
TOP 10 ALLERGENS is no cure. Strict avoidance of the Remember that an ingredient can have
Eggs food allergen is the only way for many different names. For example,
Milk an individual with a food allergy to “milk” can also be labelled as casein,
prevent an allergic reaction. Contact curds, delactosed whey, lactate, or
Mustard
with an allergen, even a very small whey.
Peanuts
amount, can cause an allergic reaction
Seafood that is life-threatening and is called Also remember that some food items
(fish, crustaceans, shellfish) anaphylaxis. Allergic reactions are made up of many ingredients that
Sesame usually happen quickly, but some occur can contain allergens. For example,
Soy hours after exposure. Worcestershire sauce can contain fish.
Another common example is chocolate
Sulphites Symptoms can vary and are chips which can sometimes contain
Tree nuts unpredictable. Anaphylaxis requires tree nuts, milk, and peanuts.
(almonds, hazelnuts, cashews, immediate treatment with epinephrine
and many others) and quick transportation to hospital Always use separate utensils, cookware
by ambulance. If left untreated, and cutting boards, and properly clean
Wheat
anaphylaxis can cause death. food surfaces (both front and back of
(Health Canada Priority Allergens)
house) to prevent cross-contamination
The most dangerous symptoms of an of potential allergens. The safest
allergic reaction are any difficulty option is to prepare meals for allergic
breathing and a drop in blood customers “off-line” using fresh
Symptoms of pressure which makes a person feel ingredients in a separate and clean area
Allergic Reaction light-headed, dizzy or feeling like they of the kitchen.
may faint.
Respiratory (breathing): Additional information on food
difficulty breathing, speaking If someone tells you that they are allergies and best practices for
or swallowing experiencing an allergic reaction, preventing allergic reactions can be
believe them! They are often aware found in Appendix F. We recommend
Cardiovascular (heart): of symptoms that you cannot see, and
light-headedness, dizziness, you take a few minutes to review this
immediate attention and treatment can information.
pale/blue colour, weak
save their life.
pulse, fainting, loss of
consciousness To help prevent an allergic reaction
Gastrointestinal (stomach): to foods served in your
nausea, cramps, stomach establishment:
pain, vomiting, diarrhea
Clear communication is vital!
Skin: hives, swelling (face, When a customer asks about
lips, tongue), itching, ingredients, always check with
warmth, redness the chef or designated individual
Neurological (brain): at your restaurant to respond to
anxiety, feeling that these questions. If you cannot
something really bad is verify ingredients with absolute
about to happen, headache, certainty, advise the customer
confusion, disorientation that you are not sure. Never
guess!
Never substitute ingredients unless

16
 UNIT
Microbes & Foodborne Illness 2

This unit focuses

LEARNING OUTCOMES
on biological causes
of foodborne illness,
defining and explaining
five types of microbes
BY THE END OF THIS UNIT,
and their sources,
and describing how PARTICIPANTS WILL BE ABLE TO:
pathogens are
transmitted to food. Define ‘microbe’ and ‘pathogen’
Give at least one example of each type of
microbe and identify their sources
Explain how spores are produced and the
significance of toxins
List the six conditions under which bacteria
can multiply (FATTOM)
Identify the DANGER ZONE temperatures
Give examples of potentially hazardous
foods
Describe the cycle of transmission
Give examples of direct and indirect
transmission

17
 Microbes are living things that are often too small to be seen without the help of a micro-
scope. There are many different types of microbes including bacteria, viruses, parasites,
protozoa and fungi. Some microbes are beneficial to us such as some types of yeast, moulds
and bacteria that produce foods like yogurt, cheese, sauerkraut, beer and wine; and those that
live in our intestines and help us digest food.
Some microbes can cause illness and even death. These microbes are called pathogens,
which means ‘something that produces sickness’.

Bacteria are all around us. Most bacteria are harmless or
even helpful to humans, but some can make us very sick.
Pathogenic bacteria such as Campylobacter, E. coli, Listeria
and Salmonella that can live and grow in food are among the
most frequent causes of foodborne illness.

Viruses are smaller than bacteria and frequently cause
illness. Viruses that are harmful to humans may be found in
contaminated food but will not grow in food. Hepatitis A and
the Norovirus are examples of viruses that are transferred from
food handlers to food often because of improper handwashing.

Parasites live on or inside another animal or person and
are dependent on the host for nutrients. Parasites such as
trichinella might be found in undercooked pork or other
meats, and roundworms might be found in raw fish such
as sushi or sashimi.

Protozoa are one-celled animals. An example of protozoa is
Giardia lamblia that may be found in rivers, lakes, streams
and shallow wells. Giardiasis, one of the most frequent causes
of non-bacterial diarrhea in North America, may be caused by
washing produce in water contaminated with Giardia lamblia.

Fungi grow on animals, plants, humans, decaying organic
matter, in fact anywhere that is warm and damp. Many fungi
are beneficial, but some fungi can spoil foods. It is important
to remember that scraping or cutting mould off of food may
not make the food safe. The mould may have produced toxins
that will remain in the food.

See the Foodborne Illness Chart in Appendix B for
common foodborne pathogens.

18
 UNIT
2

SPORES AND TOXINS
Some types of bacteria are able to produce a hard coating to protect themselves from stressful
conditions such as extreme heat, dryness, cold and chemicals. A bacterium with this protective
coating is called a spore. Spores can survive high temperatures, drying, boiling, freezing or
even chemicals like cleaning agents and disinfectants. When conditions for bacterial growth
improve, for example when cooked food containing the spores is removed from the heat and
left at room temperature, the spore coating splits open and a normal bacterium emerges and
begins to multiply in the food. Spores are a particular concern when food is cooked in advance,
allowed to cool too slowly, and then served cold or improperly re-heated later.

EXAMPLE: BOTULISM

RAW POTATO POTATO IN AIR TIGHT FOIL PROPERLY BAKED
Contains active Clostridium botulinum spores Clostridium botulinum spores survive

DANGER ZONE!

WRAPPED BAKED POTATO LEFT IN BAKED POTATO EATEN
THE DANGER ZONE FOR 4 HOURS Toxins cause botulism!
Spores germinate, grow and produce toxins

When some bacteria multiply they produce toxins which will make people sick when consumed.
Some of these toxins may be destroyed by cooking, but others are heat resistant and will survive
even high cooking temperatures. The production of toxins can be controlled by paying close
attention to time and temperature when storing and preparing food.

Foods that contain toxins may not look, smell or
taste any different from uncontaminated food!

19
 FACTORS THAT AFFECT BACTERIAL GROWTH

FOOD

ACID

TEMPERATURE

TIME

OXYGEN

MOISTURE

20
 UNIT
2

FOOD Like any living organism, bacteria require food to
survive. While some bacteria only need simple nutrients,
others require a more complex diet, including protein.
Moist foods that are rich in protein such as meat, milk,
eggs and fish, are good food sources to support the
growth of pathogenic bacteria.

ACID Bacteria do not grow in an acidic environment, so acidic
foods such as lemons and lemon juice, vinegar, and some
berries and fruits do not support the growth of bacteria.
However, when low acid foods such as vegetables, eggs, meats
and soft cheese are prepared, special care needs to be taken
to ensure that bacteria cannot grow. Acidity in foods and
other substances is measured on a pH scale of 0 to 14, with
neutral acidity being 7. The more acidic the food, the lower its
number on the pH scale.

21
 TEMPERATURE The temperature range between 4oC and 60oC
(40oF and 140oF) is referred to as the DANGER
ZONE, where harmful bacteria can multiply
rapidly. Temperatures below 4oC or above 60oC
will slow or stop bacteria growth. Temperature
control is one of the best ways to reduce the risk of
foodborne illness caused by bacteria.

FAHRENHEIT CENTIGRADE

BACTERIA DIE
212oF 100 oC BOILING
SPORES & TOXINS
MAY SURVIVE
COOKING &
165 F o
74 Co REHEATING

HOT HOLDING
140 F o 60 Co

DANGER DANGER
ZONE! 98.6 F o
37oC ZONE!
BACTERIA MULTIPLY KEEP FOOD OUT
RAPIDLY
40 oF 4 oC OF THIS RANGE!
CHILLING & THAWING
MOST BACTERIA
SURVIVE BUT WILL NOT
MULTIPLY QUICKLY
32oF 0 oC FREEZING
MOST BACTERIA
SURVIVE BUT WILL
NOT GROW
0 oF -18oC STORING FROZEN

22
 UNIT
2

TIME Bacteria grow by multiplying. When a small number
of pathogens are present in food, the risk is usually
low. However, when higher risk foods are left in the
DANGER ZONE those pathogens multiply rapidly.
Restricting the amount of time that foods are left in
the DANGER ZONE will help to reduce the risk.

12:00 12:20 12:40

1:00 1:20 1:40

23
 Aerobic bacteria require oxygen to grow.

OXYGEN Anaerobic bacteria grow only when no oxygen
is present. Most bacteria that can cause food
borne illness are aerobic, however some very
dangerous bacteria thrive only in anaerobic,
oxygen-free environments. One notable
anaerobic bacterium is Clostridium botulinum
that causes botulism.

When foods are improperly
processed and then stored
at room temperature in air
tight conditions such as cans,
bottles, vacuum packaging
or immersed in oil,
anaerobic spores may
survive and grow.

Vacuum packaging can help to
extend the shelf-life and quality of food
by removing oxygen, but it is important
to remember that some bacteria do not
require oxygen for growth. Therefore,
vacuum packaging does not eliminate
the need for food to be kept at proper
storage temperatures. Most vacuum
packed food must be kept out of the
DANGER ZONE. This is particularly
critical for foods such as luncheon
meats and smoked fish that are often
served without additional cooking.

24
 UNIT
2

MOISTURE Bacteria need moisture to survive. Bacteria,
yeast and moulds grow rapidly
in food with a high moisture content such
as meat, produce and soft cheeses.
Dry, sweet or salty foods such as uncooked
rice and pasta, crackers and candies have
a lower moisture content and are less
hazardous.

POTENTIALLY HAZARDOUS FOODS
Foods that have the FATTOM conditions to support the growth of pathogens or the
production of toxins are considered potentially hazardous foods that pose a food safety
risk if left in the DANGER ZONE for even short periods of time. Some examples of
potentially hazardous food are meats and poultry, eggs and egg products, dairy products,
fish and shellfish, cooked and cut up raw fruits and vegetables, and many processed foods.

EGGS: HANDLE WITH CARE!
See Unit 6 for instructions on handling eggs.

25
 There are three major parts in the cycle of transmission of contaminants:
the food, the food handler, and the environment. Some foods already contain
pathogens- a good example is Salmonella in raw chicken. Foods can also become
contaminated by an infected food handler; or by environmental factors such as
unclean work surfaces and utensils, insects and pests, or a dirty water or air
supply; or by cross-contamination from some other contaminated food. Similarly, a
food handler can become contaminated by touching or tasting contaminated food.
The environment may be contaminated by both food handlers and contaminated
food. The transmission of foodborne illness can be ‘a vicious circle’!

CYCLE OF
TRANSMISSION OF
CONTAMINANTS

THE
VICIOUS
CIRCLE!

ENVIRONMENT
FOOD
HANDLER

FOOD
26
 UNIT
2

Direct transmission occurs when For example, when
microbes transfer directly from the contaminated raw meat juices
source of contamination to food. drip onto fresh produce......or when an infected food handler To reduce the risk of direct trans-
coughs or sneezes onto food or mission of foodborne illness, food
touches the food with handlers should always pay close
contaminated hands. attention to personal hygiene and
proper food storage.

27
 Indirect transmission is also
called cross contamination, and
occurs when there is an intermediate
step between the source of
contamination and the food.

For example, cross
contamination might
occur when a cutting
board is used
to cut up raw chicken
and then is used again
to prepare salads with-
out being cleaned
and sanitized.

28
 UNIT
Food Safety Plans & HACCP 3

This unit sets the context
for the remaining units in
FOODSAFE Level 1 by
introducing Food Safety Plans
LEARNING OUTCOMES
(FSP) emphasizing Critical
Control Points (CCPs), and
explaining how a food handler BY THE END OF THIS UNIT,
can reduce the risk of contam- PARTICIPANTS WILL BE ABLE TO:
ination at each step in an FSP
by following proper sanitation Describe the purpose of food safety plans
and food handling practices. Define hazards, critical control points
(CCPs), critical limits, monitoring actions
and corrective actions
Give examples of CCPs for ready to eat
foods and foods that will be cooked

29
 Food service establishments should have written plans for the safe preparation of each menu
item in the establishment. These plans are called Food Safety Plans (FSP). Food safety plans
are part of a Hazard Analysis Critical Control Points (HACCP) program, a systematic
approach to product safety that is widely used in the food industry. An FSP begins at the
receiving and storage stage, when food enters the establishment, until the point when it is
served to the customer. When all food handlers follow the FSPs for the foods served in an
establishment, the risk of food contamination will be reduced. An FSP identifies Hazards,
Critical Control Points, Critical Limits, Monitoring Actions and Corrective Actions.

HAZARDS
An FSP begins by identifying the possible biological, physical, and chemical hazards
associated with each step in the preparation and serving of a menu item. In the food
service industry, biological hazards are by far the most common type of hazard.

PHYSICAL

BIOLOGICAL

CHEMICAL
30
 UNIT
3

CRITICAL CONTROL POINTS
In a Food Safety Plan, a Critical Control Point (CCP) is a point beyond which no further
action can be taken to eliminate a hazard. In other words, a CCP is either a ‘kill step’, the step
at which the hazard is eliminated, or a ‘control step’, the step at which the hazard is controlled.
For foods such as raw meats, poultry, seafood and eggs, a CCP is the cooking step when the
temperature of the food is raised to a high enough temperature to kill bacteria. For foods such
as fresh salad ingredients or ready-made sandwiches, a CCP is the storage step when the food
is stored away from potentially hazardous foods and at a temperature low enough to control
bacterial growth.

KILL STEP! CONTROL STEP!

CRITICAL LIMITS
Critical Limits are specific and measurable limits that indicate effective control of a critical
control point. In the above examples, the critical limit for the cooking step is to cook meat to at
least 74o C, and the critical limit for ready-made sandwiches is to store them at or below 4o C.

31
 MONITORING ACTIONS
Monitoring Actions are checks, measurements or observations that prove that the critical limit
is met. These actions might include checking the internal temperature of hamburger patties at
the end of the cooking time, or checking the temperature of the sandwich display cooler every
two hours. Monitoring actions should be documented and accurate records kept.

CORRECTIVE ACTIONS
Corrective Actions are procedures that should be followed when a critical limit has not been
met. For example, if the internal temperature of a hamburger patty is only 62o C at the end of the
cooking time, the corrective action is to continue cooking the patty until it reaches 74o C.
Corrective actions should be documented and accurate records kept.

32
 UNIT
3

PROCESS-BASED FOOD SAFETY PLAN: Breakfast Buffet Items
Step Hazard CCP? Critical Limit Monitoring Action Corrective Action

Receiving Biological: N Received from Ensure supplier Reject shipment
pathogen an approved is an approved if not from an
growth, toxins supplier; source; check approved source, or
parasites temperature temperature if temperature of the
Physical: control during and condition of transport cooler and
packing transport