Dr hab. Małgorzata Schlegel-Zawadzka
Kierownik Zakładu śywienia Człowieka
Instytut Zdrowia Publicznego, Wydział Ochrony Zdrowia, CM UJ
Ul. Grzegórzecka 20, 31-531 Kraków
Tel 431-26-97
mfzawadz@cyf-kr.edu.pl
http://www.republika.pl/schl_zaw
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INFORMACJE
DLA STUDENTÓW WYDZIAA
U OCHRONY
ZDROWIA
Wymagania egzaminacyjne dla studentów kierunku - Zdrowie
Publiczne  Inspekcja Sanitarna
1. Termin egzaminu będzie uzgodniony ze starostą roku.
2. Egzamin ma charakter egzaminu ustnego  odpowiedz
na pytania
wylosowane z puli pytań podanych przez kierownika Zakładu.
Egzamin zdawany będzie w parach (dwójkami).
3. Wszelkie indywidualne sprawy pozostają w gestii Kierownika
Zakładu śywienia Człowieka po otrzymaniu wyjaśnień.
1. Regulamin wykładów
Obecność na wykładach nie będzie sprawdzana.
Materiał realizowany na wykładach, piśmiennictwo obowiązujące i
uzupełniające będzie podawane na stronie internetowej e-nujag.
Zalecane będą strony internetowe  zweryfikowane przez kierownika
Zakładu, a ich adresy podawane na zakładowej tablicy ogłoszeń.
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Materiały z
ródłowe
1. J. Hasik, L. Hryniewiecki, M. Grzymisławski: Dietetyka, PZWL,
Warszawa 1999.
2. Red. J. Dzieniszewski, L./ Szponar, B. Szczygieł, J. Socha: Podstawy
naukowe \
ywienia w szpitalach. Prace Iśś 100, Warszawa 2001.
3. H. Ciborowska, A. Rudnicka: Dietetyka. śywienie zdrowego i chorego
człowieka. PZWL, Warszawa 2000.
4. Red. J. Gawęcki, L. Hryniewiecki: śywienie człowieka. Podstawy
nauki o \
ywieniu. T. 1. Wyd. Nauk. PWN, Warszawa 2003.
5. Red. J. Hasik, J. Gawęcki: śywienie człowieka zdrowego i chorego. T.
2. Wyd. Nauk. PWN, Warszawa 2000.
6. Red. H. Gertig, J. Gawęcki: Słownik terminów \
ywieniowych. T. 3.
Wyd. Nauk. PWN, Warszawa 2001.
7. H. Gertig, J. Przysławski: Bromatologia. Nauka o \
ywności i
\
ywieniu. PZWL, Warszawa 2006.
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8. M. Nikonorow, B. Urbanek-Karłowska: Toksykologia \
ywności.
PZWL, Warszawa 1987.
9. 10. T. Fortuna, L. Juszczak, J. Sobolewska: Podstawy analizy
\
ywności. AR, Kraków 1999.
11. M. Krełowska-Kułas: Badanie jakości produktów spo\
ywczych.
PWE, Warszawa 1993.
12. I. Nadolna, H. Kunachowicz, K. Iwanow: Potrawy, Skład i
wartość od\
ywcza. Prace Iśś 65, Warszawa 1994.
13. H. Kunachowicz, I. Nadolna, B. Przygoda, K. Iwanow: Tabele
wartości od\
ywczej produktów spo\
ywczych. Prace Iśś 85,
Warszawa 1998.
14. Red. Ś. Ziemlański: Normy \
ywienia człowieka.
Fizjologiczne podstawy. Wyd. Lek. PZWL, Warszawa 2001.
15. A. Kunachowicz i wsp: Tabele składu i wartości od\
ywczej
\
ywności. PZWL, Warszawa 2005.
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Higiena - dział medycyny, badający wpływ środowiska na zdrowie
fizyczne i psychiczne człowieka. Celem tych badań jest zapewnienie
poszczególnym osobom oraz społeczeństwu jak najlepszych
warunków rozwoju fizycznego i psychicznego.
Praktycznymi wynikami higieny są wskazania dotyczące usuwania z
\
ycia ludzkiego wpływów ujemnych, w ró\
ny sposób zagra\
ających
zdrowiu, i wprowadzania czynników dodatnich.
Higiena dzieli się na wiele dziedzin, zajmujących się poszczególnymi
środowiskami \
ycia i działalności ludzkiej:
Higiena osobista,
Higiena szkolna,
Higiena hodowli zwierząt,
Higiena komunalna,
Higiena społeczna,
Higiena pracy,
Higiena \
ywności i \
ywienia.
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W mitologii greckiej Hygieja lub Higieja to bogini
zdrowia.
Jej ojcem był Asklepios, opiekun sztuki lekarskiej, a
matką Epione, bogini światła.
Hygieja została zabita przez Afrodytę, poniewa\

Hygieja odebrała jej mę\
a.
Od imienia Hygiei pochodzi nazwa HIGIENY.
Odpowiednikiem Hygiei w mitologii rzymskiej jest
Salus.
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Muzeum na Kapitolu
Pomnik Hygei w Poznaniu, wykonany
przez Wincenta Preissnitza w latach
1840-1841. Twarz bogini nale\
y do
Konstancji Raczyńskiej z Potockich
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Hygeia (also Hygea, Hygia, Hygieia)
Często przedstawiana z wę\
em pijącym z czary.
Symbol wę\
a kojarzono z leczeniem.
Hygiene is the science of preserving health. Nauka
chroniąca zdrowie.
W przedmiocie higieny zawierają się wszystkie czynniki
odnoszące się do fizycznego i psychicznego dobrostanu ludzi.
W aspekcie personalnym wymaga uwzględnienia:
\
ywności, odzie\
y, wody i innych napoi, pracy, snu
i aktywności ruchowej, osobistej czystości, specjalnych zwyczajów jak
stosowanie narkotyków, palenie papierosów, picie alkoholu itp.., i innych
problemów zdrowia psychicznego.
W aspekcie publicznym wymaga uwzględnienia:
Gleby, klimatu; charakteru, materiałów i urządzenia miejsca zamieszkania;
gorąca i przewietrzania, usuwania odpadów; wiedzy medycznej o wypadkach
i zapobieganiu chorobom; i postępowaniu w przypadku śmierci.
Hipocrates  \
ycie jest krótkie, a sztuka (umiejętność) zdrowienia jest długa.
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Muzeum Farmacji w Krakowie
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WHO pod pojęciem food security
(bezpieczeństwo \
ywnościowe)
przyjmuje  \
e wszyscy ludzie w
ka\
dym czasie mają zarówno
fizyczny i ekonomiczny dostęp do
odpowiedniej ilości \
ywności celem
aktywnego i zdrowego \
ycia .
W 2004 r. koncepcja
bezpieczeństwa \
ywnościowego nie
tylko wyra\
ała niepokój o głód, ale
równie\
rozszerzyła je o
międzynarodową troskę o celowe
ataki na dostarczanie
(zaopatrywanie, zapasy) \
ywności.
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Ataki terrorystyczne mogą być skierowane na liczne etapy w
łańcuchu farm-to-table-chain (od pola do stołu) na który się
składają: uprawy, \
ywy inwentarz, dystrybucja, przetwórstwo,
sprzeda\
detaliczna, transport i przechowywanie.
Ten łańcuch od pola do stołu w systemie rolno-spo\
ywczym USA
osiąga 13% krajowego produktu brutto i 18% zatrudnienia.
Jeśli wystąpi główny atak terrorystyczny na jeden z etapów tego
łańcucha mo\
e on zaszkodzić lub zabić znaczącą liczbę ludności.
To z kolei będzie mieć istotny wpływ na ekonomię w aspekcie
kosztów opieki zdrowotnej, utratę wynagrodzenia i straty w
biznesie.
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Wydarzenia ostatnich lat wzmogły narodową uwagę
(czujność) na terroryzm i uwypukliły problemy
pewności ochrony narodowej infrastruktury.
Przykład ustawa o bezpieczeństwie \
ywienia i
\
ywności z 25 sierpnia 2006 r.
W USA - Bioterrorism Act of 2002.
Bezpieczeństwo \
ywnościowe (food safety) odnosi
się do ochrony i zapobiegania niezamierzonemu
ska\
eniu \
ywności, podczas gdy ochrona \
ywności
(food security) anga\
uje się ochronę poda\
y \
ywności
przeciwko zamierzonym aktom manipulowania-
fałszowania lub ska\
ania.
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In the U.S. , the Centers for Disease Control and Prevention (CDC) report
that over 76 million illnesses, 325,000 hospitalizations, and 5000 deaths
each year are attributable to the inadvertent contamination of the food
supply.
In most cases, mortality (deaths) associated with an unintentional attack is
relatively low, but morbidity (illnesses) can be quite high. With intentional
contamination, selection of a more lethal agent could change high
morbidity numbers to high mortality numbers.
A review of noteworthy unintentional foodborne outbreaks provides insight
into the kinds of foods and the points in their production where intentional
contamination could have catastrophic consequences. It also provides
insight into the potential magnitude of the public health impact of a
carefully planned intentional attack on the food supply.
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In March and April 1985, more than 16,000 people became ill (culture-
confirmed) and as many as 17 died in a six-state area from consumption of
pasteurized milk contaminated with Salmonella typhimurium. Hospitalization
was required for 22% of those affected. The actual number stricken was
estimated by public health officials to be in excess of 200,000. Unintentional
recontamination of the pasteurized milk, resulting from improper piping, is the
most likely cause of the outbreak. The milk was produced by just one dairy
plant in the mid-west.
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In September 1994, 150 people became ill (culture confirmed) from consumption
of ice cream contaminated with Salmonella enteritidis. Hospitalization was
required for 30% of those affected. The actual number stricken has been
estimated at 224,000. Unintentional contamination of the pasteurized ice cream
mix in a tanker truck previously used to haul unpasteurized liquid eggs is the
most likely cause of the outbreak. The ice cream was produced in a single
facility.
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In November 2002, an incident of apparent food poisoning sent 42
elementary school children and two adults to local hospitals. A total of 60
students and school employees suffered vomiting and nausea from
ammonia contaminated food. The problem was an ammonia leak that
began one year earlier in a cold storage warehouse used to store food for
the school lunch program. Two state officials faced charges of reckless
conduct for ignoring prior complaints about tainted food from the facility,
and the victims' families settled a civil lawsuit in August 2004. More info
can be found under references.
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In 1984, members of an Oregon cult headed by Bhagwan Shree Rajneesh
used cultivated Salmonella bacteria to contaminate restaurant salad bars
in the hopes of affecting the outcome of a local election. Fortunately, there
were no fatalities in the incident but there were approximately 751 cases
of individuals becoming ill, and forty five individuals needed to be
hospitalized. While this incident was detected by local public health
officials, it took the FBI an entire year to link the outbreak to the cult.
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In October 1996, a former laboratory employee pled guilty to
contaminating a tray of doughnuts and muffins with the foodborne
pathogen Shigella dysenteriae Type 2. The employee used an
unoccupied supervisor's computer to send out an email inviting forty
five other laboratory workers to enjoy pastries in the employee break
room. Twelve of the forty five employees ate some amount of a pastry
and eventually contracted a severe gastrointestinal illness. Four of
those employees required hospitalization but there were no fatalities.
The origin of the pathogen was the laboratory itself, and lax security
made it possible for this intentional contamination to occur.
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More recently in January of 2003, a Michigan supermarket employee was
indicted for intentionally contaminating 200 pounds of ground beef with a
nicotine-based pesticide. The CDC reported that 92 individuals became ill
after consuming the ground beef. This case helps illustrate how simple it is
for one person to intentionally contaminate the food supply and have a
major impact.
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Product tampering and the threat of product tampering pose serious problems for
public health and the international economy.
One documented case of a major threat that had an economic impact on both U.S.
soil and abroad was the 1989 threat made to Chilean grapes imported into the US.
A terrorist group phoned the US Embassy in Santiago, Chile claiming to have
contaminated Chilean grapes with cyanide. After extensive surveillance activities
conducted by the U.S. Food and Drug Administration (FDA), only three suspicious
grapes turned up on a dock in Philadelphia, PA. Meanwhile, supermarkets pulled
Chilean fruit off shelves throughout the U.S. , and U.S. consumers received a
warning not to eat any fruit imported from Chile . Most of the peaches, blueberries,
blackberries, melons, green apples, pears, and plums on the market at the time
were imported from Chile. The incident ruined an entire season of fruit sales from
Chile at a cost of $200 million in lost revenue. Consumer confidence was slow to
return.
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Food security has economic, health, societal, psychological, and political
significance. Deliberate contamination of the food supply could cause
significant public health consequences and widespread public fear. It
could also have a devastating economic impact and result in the loss of
public confidence in the safety of our food and in the effectiveness of
government.
Intentional and unintentional breeches in food security could have a
significant effect on health care expenses, lost wages, consumer
confidence, trade embargoes, etc. The CDC reports there are three
types of economic effects that may be generated by an act of food
terrorism:
Direct economic losses attributable to responding to the act including:
medical costs, lost wages for the victims, containment, decontamination
and disposal costs
Indirect multiplier effects from compensation paid to affected producers
and the losses suffered by affiliated industries, such as suppliers,
transporters, distributors, etc
International costs in the form of trade embargoes imposed by trading
partners
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Foods that are prepared or held in large batches at some point in their
production or distribution are potential targets because a large number of
individuals may consume the contaminated product. The larger the number
of individuals who consume a contaminated product, the greater the
possibility of high morbidity/mortality, an expected terrorist goal. For
example, many more casualties can be expected from contamination of a
5000 gallon commercial kettle of spaghetti sauce than from contamination of
a five gallon food-service pot of the same product.
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Short shelf life and/or rapid turnaround
at retail and rapid consumption also tend
to increase risk. Rapid turnaround and
consumption of a contaminated product
provides little time for public health
officials to identify the problem and
intervene. Highly perishable products,
such as bread, milk, and fresh ground
meat are generally consumed within
several days to just over a week. Shelf-
stable products, such as canned goods
and dry pastas may be consumed over
the course of months or years.
Individuals may consume perishable
products before public health officials are
able to identify the cause and take action
to prevent further illness. For the shelf-
stable case, public health officials
reacting to the sentinel cases can
prevent casualties. Recalls and public
warnings may prevent consumption of
product still in the distribution system or
in home pantries.
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After uniform mixing, all servings in the
batch will be contaminated, significantly
improving the efficiency of the attack.
Mixing of a contaminant uniformly
throughout a batch may be relatively easy
with some non-viscous fluids like milk and
liquid eggs, and in some cases equipment
for such products is designed to ensure
thorough mixing. However, other products,
even some  fluid products, such as grain
and corn syrup, naturally resist mixing and
are not handled in a way that would
facilitate mixing.
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Ease of access to the product at a point
in its production or distribution where the
above conditions apply is also an
important risk factor. Intentional
contamination requires access to the
product; the more accessible a site is,
the more likely it is to be a target. The
food and agriculture sector
encompasses a wide range of access
conditions, from unfenced farmland, all
the way to relatively secure vitamin and
infant formula manufacturers.
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Besides the preceding four characteristics of higher risk foods, a number of
additional factors can also affect the risk that a food may be the subject of
intentional contamination.
Some foods are consumed in very small quantities (i.e. very small serving size),
and with these foods it may be difficult to incorporate the lethal/infective dose in a
single serving. Consider, for example, the small quantity of spice added to food as
compared to a serving size of a beverage. There are some contaminants with
relatively high lethal doses, especially some chemical contaminants, that might be
unworkable in the small black pepper quantity, but which might be workable in the
larger beverage quantity.
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Foods vary in their ability to disguise a contaminant . For example,
some foods exhibit a strong flavor (e.g., spaghetti sauce), odor (e.g., fish
sauce), or texture (e.g., ground meat), intense color (e.g. soy sauce), or
opaqueness (e.g., chocolate syrup). These attributes may conceal the
presence of a contaminant, especially a contaminant that may have a
flavor or odor than could alert an individual to not consume the product or
one that may imperfectly dissolve in the food. Compare these to, for
example bottled water, in which it might be difficult to conceal a
contaminant unless it readily went into solution or suspension and is
colorless, tasteless, and odorless.
The absence of tamper evident packaging or other packaging that
reduces the potential for the product to be tampered with or counterfeited
may elevate its risk of intentional contamination.
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Certain foods present a highly desirable target. This may be because children
typically consume them, for whom public reaction to harm is likely to be more
intense. Alternatively, it may be because the product has a marked association
with the American culture (e.g., brand name icons).
Additionally, consumption of a contaminated food by children or the elderly
increases risk, because these groups may succumb to a lower dose of a
contaminant.
Production of a food in a country of concern with respect to terrorism may
increase risk. A pattern of past incidents of terrorist activity, tampering, or
counterfeiting associated with a type of food may increase risk.
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Preparation of many foods includes processing steps (e.g., heat treatment,
filtration, chlorination, decolorization, washing, removal of outer layers) or steps
by the consumer that may dilute (i.e., below the lethal/infective dose), remove or
destroy a contaminant that has been previously added. Potential contaminants
vary in their response to these and other food handling steps.
In the preparation of some foods, there are steps (e.g., milling of grains,
grinding of meats) that may serve to aerosolize or otherwise liberate a
contaminant from the food. These steps may expose processing employees to
the effects of the contaminant before the general public is exposed. In such a
case, employee illnesses could serve as a sentinel of the contamination event.
There are quality control steps (e.g., on-line or off-line testing) that may be
useful in detecting certain contaminants, especially at the elevated levels
expected in an unintentional contamination event.
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Potential contaminants may include biological, chemical, or radiological agents.
Some may be agents normally associated with unintentional contamination events
and may be familiar to those involved in food safety work. Others may be so-called
"exotic" agents or agents more commonly associated with chemical or biological
warfare. The following factors affect the risk that an attacker may choose a
particular agent for intentional food contamination:
Incubation period varies widely for the range of potential contaminants, from as
short as minutes for some chemical contaminants (e.g., cyanide) to weeks for some
biological agents (e.g., Brucella abortus, the causative agent of brucellosis) and a
few chemical agents (e.g., alpha-amanitin, a mushroom toxin). A long incubation
period could minimize opportunity for public health intervention by allowing for more
consumption of the contaminated lot before public health officials receive reports of
the first symptoms.
Some potential contaminants (e.g., sodium nitrite) have legitimate commercial
applications and are; therefore, readily available to a would-be aggressor. Others
(e.g. saxitoxin, a shellfish toxin) are the subject of strict government controls or
require complex synthesis, providing a possible barrier to their use.
Some potential contaminants have a history of use in poisonings, tampering, or
terrorist activity. For example, arsenic has long been used to intentionally
contaminate food in murder plots. The use of Salmonella in an intentional food
contamination event was mentioned earlier. These contaminants may be more
likely to be selected for future contamination events.
Contaminants that have the potential to cause death or severe illness may be
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more likely selections.
The attitude of employees in a food establishment can also be a vulnerability.
It is a natural tendency to think that nothing bad will happen in one's own work
place - the "It won't happen to me" syndrome. However, this attitude can lead to
complacent workers.
Apathy about their work place can also result in employees who are not
concerned about food security. The employee who thinks it is not his/her job to
worry about food security, and the manager who thinks he/she provided
adequate food security, both make the food supply more vulnerable.
Lack of knowledge about food security and a lack of commitment to food
security may also hamper employees. It is important to educate employees
about the fundamental principles and importance of food security and let them
know that the typical aggressor thrives on their lack of vigilance.
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In order to successfully tamper with a food product, an aggressor must:
have access to it for sufficient time, be technically capable of obtaining or
producing and introducing sufficient quantity of a suitable contaminant, and
be able to commit the crime without discovery. The aggressor must have the
behavioral resolve (desire) to contaminate food, the technical feasibility
(appropriate materials and skills), and operational practicality (ability) to
succeed. The aggressor must be knowledgeable about the food product's
farm-to-table chain and be competent enough to plan an attack that will
avoid detection or elimination of the adulterant later in the manufacturing,
distribution and consumption process.
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Aggressors usually fit into one of the categories below, each with distinct
characteristics and motivations. Click the numbers on the right to view
different types of aggressors.
Disgruntled insiders are generally motivated by their own emotions and self-
interests. They may be mentally unstable, operating impulsively with minimal
planning. This may be the most difficult group to stop because they may have
legitimate access to the product. Criminals who are sophisticated may possess
relatively refined skills and tools and are generally interested in high-value targets.
Unsophisticated criminals have more crude skills and tools and typically have no
formal organization. They are generally interested in targets that pose a low risk of
detection.
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Protestors are usually politically or issue-oriented. They generally act out of
frustration, discontent, or anger. They are primarily interested in publicity for
their cause, and, as a result generally do not intend to injure people, but may
be superficially destructive. They are usually unsophisticated in their tactics
and planning. However, some protest groups have adapted tactics similar to
terrorists. In this way, they may be moderately sophisticated and moderately
destructive. In fact, they may target individuals for harm.
Subversives, also known as saboteurs, assassins, guerrillas, or commandos
are sophisticated, highly skilled, and capable of meticulous planning.
Subversives typically operate in small groups with objectives including death
and destruction, targeting personnel, equipment and operations.
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Terrorists are usually politically or ideologically oriented. They typically work in
small, well organized groups. They are typically well funded, sophisticated, and
capable of efficient planning. Terrorists may use other types of aggressors to
accomplish their goals. Their objectives include death, destruction, theft, and
publicity.
Organizationally, terrorists organizations can be divided into three groups. They
may be nonstate-supported groups (e.g. Italy 's Red Brigades), in which case
they operate autonomously, with no significant support from any government.
They may be state-supported (e.g. Popular Front for the Liberation of
Palestine), in which case they operate independently but receive support from
one or more governments. Or, they may be state directed (e.g. Libyan  hit
teams ), in which case they operate as agents of their government.
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With insider compromise, the attacker takes advantage of his/her legitimate
access to the food (e.g., as an employee of a food handling facility) to
contaminate it.
In an exterior attack , the aggressor may contaminate a raw material (e.g., an
ingredient used in the production of the target food) at a point where it is
grown, transported or processed. The contaminated raw material can then
enter the target facility through a normal distribution route. Subverting
shipments of legitimate product for black-market money making schemes is
another form of exterior attack. It may be that the money making scheme is
the extent of the attack, or it may be that access to the subverted product is
used to contaminate it and then re-enter it into normal commerce.
Forced entry may be used in order to contaminate the food contained within a
facility. For such a scheme to be successful, the aggressor must be able to
egress without raising suspicion that the product was contaminated. However,
suspicion may be averted by employing some sort of diversionary activity,
such as vandalism or theft.
Covert entry consists of using deception or stealth to gain access to food
within a facility. For example, an aggressor may pose as a member of a tour
group or even as a Government employee.
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Cleaning and pest control chemicals and laboratory reagents and controls
should be secured. Those stored on the premises should be limited to supplies
readily needed. They should be stored away from food and kept properly
labeled. Access to storage areas for these items should be limited to those
who need access, based on their job function. Proper inventory control of
these items helps management investigate any missing articles. Additionally,
any unneeded items should be properly disposed of to prevent unwanted use.
Readily available toxic substances are often the contaminant of choice for a
disgruntled employee.
The following preventive measures may be effective in preventing an exterior attack.
Food items should only be purchased from known and trusted sources. An unknown
entity posing as a legitimate business may offer counterfeit or contaminated product
at a reduced price.
Additionally, suppliers should be encouraged to practice food security. Contamination
of raw materials or finished products can occur at a supplier's facility, circumventing
the security measures that may be present at the customer's facility. Establishments
should consider making specific security measures part of a supplier's contract.
Delivery vehicles should be properly inspected and secured, especially those
carrying bulk fluids. Locked and/or sealed vehicles can discourage in-transit
contamination. When seals are used the seal number at receipt should be compared
to the seal number at loading.
Management should establish pick-up and delivery schedules in advance, and
someone should question unscheduled pick-ups or deliveries. Delivering counterfeit
or contaminated product may require a delay to switch or tamper with the load and/or
replace the original driver (e.g., a hijacked load). The customer should know when a
delivery is due, as well as the name of the driver, and question anything out of the
ordinary.
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The establishment should supervise offloading of deliveries. Contamination can
occur during offloading, especially after hours. The product type and quantity
received should be reconciled at delivery with the product and quantity ordered
and listed on the paperwork. Delivering counterfeit or contaminated product
may require substitution of part or all of a load, possibly resulting in an error in
the type or quantity of product in the load.
Finally, the establishment should inspect product, packaging, and paperwork at
receipt. Attempts to contaminate product can leave detectable signs, such as
abnormal powders, liquids, stains or odors, evidence of resealing, or
compromised tamper-evident packaging. Counterfeit product may show
inappropriate or mismatched product identity, labeling, or product coding.
Shipping documents with suspicious alterations may accompany counterfeit or
contaminated loads.
MSZ
The following preventive measures may be effective in preventing forced
entry.
Perimeter fencing should be provided for non-public areas of the facility,
because this is the first line of defense against attack by an intruder. The
establishment should take measures to protect doors, windows, roof and
vent openings, and other access points, including access to food storage
tanks and bins outside the primary buildings. Locks, alarms, video
surveillance, and guards can increase the difficulty of an intruder gaining
access to the interior of a facility.
The establishment should secure and inspect bulk unloading equipment
and trailer bodies before use. Contaminants introduced into unloading
equipment or empty trailer bodies can later become incorporated into the
food.
MSZ
Access to gas, electric, water utilities, and airflow systems
should be secured. Water is of particular concern because
contaminants introduced into water can become incorporated
into the food.
Provisions should be made for the facility to be monitored,
including during off-duty hours. Adequate interior and exterior
lighting should be provided because a well-lit facility can deter
an attack or increase the odds that an intruder will be detected.
MSZ
In addition to the physical security measures described on the
preceding pages, there are other types of preventive measures that
may be effective in reducing the risk of intentional contamination for
some or all contaminants:
Processing controls can include heat treatment, filtration,
chlorination, decolorization, washing, removal of outer layers or other
steps that may dilute (i.e., below the lethal/infective dose), remove or
destroy a contaminant that has been previously added. Adjustments
to these steps that do not adversely affect the palatability of the food
should be considered in any vulnerability assessment and in the
development of a food security strategy/plan. Such controls may be
effective for some or all potential contaminants.
Testing procedures that can detect some or all contaminants may
already be in place. If not, it may be possible to add such
procedures, which can include on-line testing and off-line testing. In
either case, the level of the target contaminant that would likely be
present in an intentional contamination event should be considered
when evaluating the test method's sensitivity.
MSZ
The primary role of food establishment regulators in reducing the risk of an
attack on the U.S. food and agriculture system is to increase the level of
awareness by management of those establishments. In particular, the
regulator should discuss the appropriate food security guidance documents
that are referenced above and how they identify preventive measures that the
establishment may take to reduce the risk of an attack. In other words, the
regulator should take what they have learned in this course and pass it on to
the food establishments that they inspect. However, it is important to keep in
mind that the referenced materials are guidance documents and not regulatory
requirements. Discussions should be held in the context of a joint
government/industry desire to assure food security, not a mandatory program.
Regulators are also another set of eyes in a food establishment. It is
appropriate that the regulator discuss with the management of the
establishment any opportunities for improvement or enhancement of the
establishment's preventive measures that he/she identifies during the
inspection/audit. Again, these observations should not be listed as violations
unless they likewise constitute deviations from food safety regulations.
MSZ
In addition to the previous described roles, it is possible that in times of
heightened security concern, regulators may be directed to perform
other duties related to food security. These could include:
engaging in more detailed discussions relating to specific aspects of food
security, such as the level of risk posed by a particular product;
examining products for signs of tampering or counterfeiting; or
collecting samples for contaminants that may have been intentionally
added to the food.
These activities will likely be designed to address the risks identified in
specific intelligence (if such exists) or, more likely, those identified in
the government's vulnerability assessments.
MSZ
Government procurement agencies are beginning to include food security
requirements into contracts for food purchases from outside vendors.
Contract administrators should be aware of how these food security
preventive measures can reduce the risk of intentional contamination and be
prepared to discuss them with the vendor. State and local administrators of
Federal nutrition assistance programs should consider development of
policies, procedures, or guidance to encourage biosecurity actions by
program operators. They should also be aware of any state-specific food
security procedures that are applicable.
MSZ
The nation's awareness of terrorism has been heightened and there is a
renewed focus on ensuring the protection of the nation's critical
infrastructures. Efforts to improve the security of the food supply, must focus
on prevention, early detection, containment of the contaminated product, and
mitigation and remediation of any problems that do occur.
Individuals who work at every level of our food and agricultural system should
have an increased awareness of the threat of intentional as well as
unintentional contamination of the food supply. They should know their unique
responsibilities in reducing that risk. Being aware of these responsibilities
helps ensure better security in all links of the farm-to-table chain.
As you deal with issues involving a possible attack on the food supply,
carefully consider physical security, surveillance and monitoring, personnel
security, and emergency response. In addition, become familiar with the FDA,
FNS, and FSIS references listed previously in this course and be ready to
share them with the employees and management of the food industry
establishments with which you come into contact.
MSZ
MSZ
MSZ
MSZ
MSZ
MSZ


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