Food Safety: Unintentionally Added Chemical Hazards PDF

Summary

This document discusses unintentionally added chemical hazards in food products. It explores various sources of contamination, such as pesticide residues, veterinary drug residues, environmental pollutants, and chemicals formed during food processing. These hazards pose significant health risks, from acute illnesses to chronic conditions, like cancer and hormonal disruption. Factors like exposure levels and the toxicity of the chemicals contribute to the overall risk.

Full Transcript

UNINTENTIONALLY
ADDED
CHEMICAL HAZARDS

Abayan, Mark Adrian
Abelis Trisha Mae
Alvarez Allen Angelie
Arandia Alexis
Arazo Manuel Miguel
Ayco Jane Ivana Crisyle
Baer Mariane
Balili Cyrus Jay
 WHAT IS UNINTENTIONALLY
ADDED CHEMICAL
HAZARDS?
Refers to substances that are introduced accidentally
to food products without the intent of causing harm.

Come in contact with or incorporated
into food due to manufacturing
processes, contamination, or improper
handling.

These hazards can arise from various
sources and pose significant health
risks.
 TYPES OF
UNINTENTIONALLY
ADDED CHEMICAL
HAZARDS
 PESTICIDE
RESIDUE
small amounts of pesticides (insecticides or herbicides) that
remain on cultivated foods.

According to WHO, any substance or mixture of substances in
food for man or animals resulting from the use of a pesticide and
includes any specified derivatives, such as degradation and
conversion products, metabolites, reaction products, and
impurities that are considered to be of toxicological significance

can also be found on the foods of animals such as hay that may
result in contamination of foods of animal origin like meat and
SOURCES milk.

Agricultural Practices
Farmers use pesticides on crops to manage pests and diseases. Residues may linger on the exteriors of fruits
and vegetables or enter the plant tissues.
EXAMPLES
Pyrethroid-based insecticides such as:

L-cyhalothrin & to control insect pests such as cabbage
Cypermethrin worm, cutworm, fruitworm, diamond
back moth and melon worm in
vegetable crops

Niclosamide & used by rice farmers to control
Metaldehyde golden apple snails
SOURCES
Agricultural Practices

EXAMPLES
Antibiotics
Hormones
Antiparasitics
Sedatives and anesthetics
Antifungals VETERINARY
DRUG RESIDUES
trace amounts of medications that may lead to residues in
meat and dairy products from animals treated with these
drugs.
 ENVIRONMENTAL
POLLUTANTS
harmful substances that end up in the environment,
EXAMPLES often as a result of human activities.
Chemical Pollutants (From
Heavy metals (Lead, mercury, cadmium, and
environment to Food)
arsenic)
Chemical components of plastics and
microplastics
Pesticide, Herbicide, Insecticide, Fungicide
Dioxins
Persistent Organic Pollutants (POP such as DDT
(Dichloro-diphenyl-trichloethane) , PCB
(polychlorinated biphenyls)

SOURCES
Agricultural Practices
Industrial Activities
 SOURCES
Inadequate Rinsing- if food processing equipment or
surfaces are not thoroughly rinsed after cleaning with
chemicals, residues can remain.
Cross-contamination-If cleaning tools like sponges, cloths,
or brushes are not properly rinsed after using cleaning
agents, residues can remain on them.
Improper storage-Storing cleaning agents near food

CLEANING products or food preparation areas can lead to accidental
spills or leaks, contaminating food directly or through
airborne exposure, and posing a risk to human health.

AGENTS EXAMPLES
Liquid detergent
Laundry detergent
Disinfectants

unintentionally be added to food
through several pathways during food
processing, preparation, and handling.
 PROCESSING
INDUCED
CHEMICALS
Substances that are formed during the
processing of food, especially when heating,
drying, or fermenting foods.

EXAMPLES
Acrylamide Furan
Heterocyclic Aromatic Amines (HAAs) Phthalates
Polycyclic Aromatic Hydrocarbons Ethyl carbamate
Trans Fats
 HEALTH RISK
can pose significant health risks, ranging from acute illnesses to long-
term chronic conditions. These chemicals, including pesticide residues,
heavy metals, veterinary drug residues, cleaning agents, and chemicals
formed during processing. The impact of these contaminants on health
depends on how much and how long you're exposed to them.
Cancer Risk pesticide residues and those formed during fermentation,
can cause cancer. Long-term exposure to these chemicals can increase
the risk of certain cancers, such as ovarian, breast, and brain cancer, by
damaging cells.
Hormonal Disruption phthalates and veterinary drug residues, can
disrupt hormones in the body which can lead to problems like hormonal
imbalances, reproductive issues, and developmental problems, especially
in children.
Neurological Disorders heavy metals and acrylamide, can harm the brain and nervous
system. This can lead to problems like cognitive impairments, developmental delays, and
neurodegenerative diseases such as Alzheimer's or Parkinson's disease.

Antibiotic resistance When we consume food containing antibiotic residues, we may ingest antibiotic-resistant
bacteria, which can lead to infections that are difficult or impossible to treat with antibiotics.
 FACTORS
CONTRIBUTING
TO RISKS
 EXPOSURE
refers to the amount of a chemical that a person
is exposed to over a certain period of time. Eating
contaminated food regularly can increase the risk
of harmful health effects.

TOXICITY
refers to the degree to which a substance can
cause harm to living organisms.
Types of Toxicity:

Acute Toxicity- Immediate harmful effects resulting from high doses of a chemical, such
as nausea, vomiting, or even death.

Chronic Toxicity- Long-term health effects from prolonged exposure to low doses, which
can lead to conditions such as cancer, reproductive issues, or neurological disorders.
 ENVIRONMENTAL
FACTORS
changes in climate can affect agricultural practices and increase the prevalence of certain pests,
potentially leading to increased pesticide use and associated residues.

CHEMICAL PROPERTIES
play a crucial role in determining the risks associated with unintentionally added chemicals in food.

Transformation of chemicals some chemicals can undergo transformations during food processing,
cooking, or storage, leading to the formation of new, potentially harmful substances.

Recalcitrant chemicals Some chemicals are persistent in the environment, meaning they do not break
down easily and can accumulate in the food chain, leading to increased exposure over time.

Accumulation in Tissues Chemicals that are lipophilic (fat-soluble) can bioaccumulate in the tissues
of organisms over time.
 REFERENCES
Dai, S., Li, Q., Li, W., Zhang, Y., Dou, M., Xu, R., Wang, T., Lu, X., Wang, F., & Li, J. (2022). Advances in functional photonic crystal
materials for the analysis of chemical hazards in food. Comprehensive reviews in food science and food safety, 21(6), 4900–
4920. https://doi.org/10.1111/1541-4337.13036

Milanović, M., Milošević, N., Milić, N., Stojanoska, M. M., Petri, E., & Filipović, J. M. (2023). Food contaminants and potential
risk of diabetes development: A narrative review. World journal of diabetes, 14(6), 705–723.
https://doi.org/10.4239/wjd.v14.i6.705

Guéguen, M., Amiard, J. C., Arnich, N., Badot, P. M., Claisse, D., Guérin, T., & Vernoux, J. P. (2011). Shellfish and residual
chemical contaminants: hazards, monitoring, and health risk assessment along French coasts. Reviews of environmental
contamination and toxicology, 213, 55–111. https://doi.org/10.1007/978-1-4419-9860-6_3

Sheng, Y., Ye, X., Zhou, Y., & Li, R. (2021). Microplastics (MPs) Act as Sources and Vector of Pollutants-Impact Hazards and
Preventive Measures. Bulletin of environmental contamination and toxicology, 107(4), 722–729.
https://doi.org/10.1007/s00128-021-03226-3

https://www.fda.gov/food/process-contaminants-food/ethyl-
carbamate#:~:text=Ethyl%20carbamate%20is%20a%20process,urea%2C%20citrulline%2C%20and%20cyanate.

Ryu, D., Choi, B., Kim, E., Park, S., Paeng, H., Kim, C. I., Lee, J. Y., Yoon, H. J., & Koh, E. (2015). Determination of Ethyl Carbamate
in Alcoholic Beverages and Fermented Foods Sold in Korea. Toxicological research, 31(3), 289–297.
https://doi.org/10.5487/TR.2015.31.3.289
THANK YOU
FOR YOUR
ATTENTION