1. Candles & Air freshers
Researchers have found numerous chemicals associated with toxic effects in air fresheners, such as VOCs, benzene, formaldehyde, toluene, m,p-xylene, phthalates, and more.
Paraffin wax candles create the same toxins you’d find in diesel fumes and add to indoor air pollution. Many candles also often contain synthetic fragrances which have been linked to developmental and reproductive hard and toxins such as benzene & formaldehyde.
Substitutes: Bees wax candles, diffused essential oils
2. Cooking Pots & Containers
Cooking pots made from non-stick Teflon lead to human health and environmental contamination due to heated PTFE coatings which release toxic gas fumes.
BPA which has been linked to many health issues is found in plastic bottles, food containers, consumer products packaging, aluminum cans, and so many more things in our home.
Substitutes: Ceramic non-stick, cast iron, stainless steel, clay, glass and bamboo.
3. Cosmetics & Skin Care
Parabens, Phthalates, chemical fragrance, SLS and SLES are known to trigger allergic reactions and skin irritation. Lead, which is a heavy metal and a neurotoxin is found in many lipsticks.
Substitutes: Organic & natural skin care and cosmetics free from the above toxins, such as French Girl, Illia and 100% pure.
4. Cleaning Products
Household cleaning products contain a cocktail of chemicals, some of which have been linked to allergies, asthma and skin damage. Parabens, chlorine, triclosan, ammonia, sodium hydroxide and phthalates are some of many hidden chemicals.
Substitutes: Homemade cleaners, & water based probiotic cleaners.
5. Perfumes & Deodorants
Synthetic perfumes and deodorants which dominate the market are packed with synthetic fragrances which are toxic. “Fragrance” or “perfume” is an unidentified mixture of ingredients including carcinogens, allergens, endocrine disrupters, neurotic chemicals, environmental toxins and respiratory irritants (also found in conventional creams, soaps and shampoos). These have been linked to hormone disruption, cancer, reproductive harm and allergies.
Most deodorants contain aluminium and triclosan which can be hormone disrupting and have been linked to many adverse health effects,
Substitutes: Scents made using plant based oils & 100% natural deodorants.
6. Clothing
Synthetic and performance fabrics, stain resistant, wrinkle free and flame retardant properties usually means fabrics that contain known carcinogens and hormone disruptors, which have a negative impact throughout the many stages of a garment, including workers, the local environment and consumers. Synthetic fabrics also release micro plastics into our waters, which causes further contamination.
Substitutes: Natural fibres such as cotton, silk, linen, hemp and biobased fabrics made in a closed loop system.
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References
The Florence Statement on Triclosan and Triclocarban
Rolf U. Halden, Avery E. Lindeman, Allison E. Aiello,
Formation of a carcinogenic aromatic amine from an azo dye by human skin bacteria in vitro
T Platzek 1, C Lang, G Grohmann, U S Gi, W Baltes
C. Mastrangelo, E. Fadda, and V. Marzia, “Polycyclic Aromatic Hydrocarbons and Cancer in Man,” Environ. Health Perspect. 104, 1166 (1996)
PTFE-coated non-stick cookware and toxicity concerns: a perspective
Muhammad Sajid 1, Muhammad Ilyas 2
Health risk of exposure to Bisphenol A (BPA)
Aleksandra Konieczna 1, Aleksandra Rutkowska 1, Dominik Rachoń 1
Toxic metals contained in cosmetics: a status report
Beatrice Bocca 1, Anna Pino 1, Alessandro Alimonti 2, Giovanni Forte 1
Aluminium, antiperspirants and breast cancer
Synthetic microfibers: Pollution toxicity and remediation
Rojalin Priyadarshini Singh 1, Sunanda Mishra 1, Alok Prasad Das 2
Microplastics in wastewater: microfiber emissions from common household laundry
Ana Galvão 1, Margarida Aleixo 2, Hilda De Pablo 3, Clara Lopes 4, Joana Raimundo 4
Indoor air pollution and airway disease
G Viegi 1, M Simoni, A Scognamiglio, S Baldacci, F Pistelli, L Carrozzi, I Annesi-Maesano
Emission of air pollutants from burning candles with different composition in indoor environments
Marco Derudi 1, Simone Gelosa, Andrea Sliepcevich, Andrea Cattaneo, Domenico Cavallo, Renato Rota, Giuseppe Nano